Page 1 ® R&S CMW-KM5xx/-KS5xx LTE UE Firmware Applications User Manual (;×îL2) 1173.9628.02 ─ 16...
Page 2 ® This user manual describes the following R&S CMW options: ● ® R&S CMW-KM500 (LTE FDD R8, TX measurement, uplink) ● R&S ® CMW-KM502 (LTE FDD R10 UL CA, TX measurement, uplink) ● ® R&S CMW-KM550 (LTE TDD R8, TX measurement, uplink) ●...
Page 3: Table Of Contents
® Contents R&S CMW-KM5xx/-KS5xx Contents 1 Preface....................9 How to Read Firmware Application Chapters............9 1.1.1 General Description......................9 1.1.2 Application Sheets......................10 1.1.3 GUI Reference......................10 1.1.4 Programming Examples....................10 1.1.5 Command Reference....................10 2 LTE Signaling..................11 What's New in this Revision..................11 General Description....................
Page 4 ® Contents R&S CMW-KM5xx/-KS5xx 2.3.1 Combined Signal Path Measurements................75 2.3.2 LTE IP-Based Data Tests..................... 79 2.3.3 VoLTE Call Setup and Audio Tests................83 GUI Reference......................94 2.4.1 Signaling View.......................95 2.4.2 Signaling Control......................112 2.4.3 Using the Shortcut Softkeys..................116 2.4.4 General Settings......................117 2.4.5 I/Q Settings.........................
Page 5 ® Contents R&S CMW-KM5xx/-KS5xx 2.6.5 UE Measurement Report Contents................263 2.6.6 UE Capabilities......................271 2.6.7 UE Info........................301 2.6.8 Routing Settings......................303 2.6.9 Internal Fading......................340 2.6.10 Downlink Power Levels....................347 2.6.11 Uplink Power Control....................353 2.6.12 Physical Cell Setup..................... 362 2.6.13 Network Settings......................
Page 6 ® Contents R&S CMW-KM5xx/-KS5xx 3.3.7 Limit Settings.......................563 3.3.8 Additional Softkeys and Hotkeys.................564 3.3.9 Measurement Results....................565 Programming......................567 3.4.1 General Examples.......................568 3.4.2 Using LTE List Mode....................575 Command Reference....................580 3.5.1 Conventions and General Information................ 580 3.5.2 General Measurement Settings.................. 584 3.5.3 Multi Evaluation Measurement Commands..............
Page 7 ® Contents R&S CMW-KM5xx/-KS5xx 4.4.5 Configuring the Trigger System.................. 776 4.4.6 Specifying Limits......................776 4.4.7 Performing Single-Shot Measurements..............777 4.4.8 Single-Shot and Continuous Measurements...............778 Command Reference....................779 4.5.1 Conventions and General Information................ 779 4.5.2 General Measurement Settings.................. 783 4.5.3 PRACH Measurement Commands................783 4.5.4 Combined Signal Path Commands................
Page 8 ® Contents R&S CMW-KM5xx/-KS5xx 5.5.2 General Measurement Settings.................. 840 5.5.3 SRS Measurement Commands.................. 840 5.5.4 Combined Signal Path Commands................850 List of Commands..................... 850 Index....................852 User Manual 1173.9628.02 ─ 16...
Page 9: Preface
® Preface R&S CMW-KM5xx/-KS5xx How to Read Firmware Application Chapters 1 Preface The operation of the R&S CMW is described in several user manuals: ● The R&S CMW user manual describes the base software, common features of the firmware applications and basic principles for manual operation and remote control. ●...
Page 10: Application Sheets
® Preface R&S CMW-KM5xx/-KS5xx How to Read Firmware Application Chapters 1.1.2 Application Sheets This optional section provides short application examples for select issues and related background information. 1.1.3 GUI Reference The GUI reference describes the manual operation of the firmware application via the Graphical User Interface (GUI).
Page 11: Lte Signaling
® LTE Signaling R&S CMW-KM5xx/-KS5xx What's New in this Revision 2 LTE Signaling The "LTE signaling" firmware application emulates an E-UTRAN cell and communi- cates with the UE under test. The UE can synchronize to the downlink signal and attach to the PS domain. A connection can be set up (3GPP compliant RMC or user- defined channel).
Page 12: General Description
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● New scenario for I/Q fading with MIMO 4x2, see Scenario, Fading ● Confidence BLER measurements for setups with carrier aggregation, see Detailed View: BLER ● UE capability report enhancements, see Annex: UE Capabilities ●...
Page 13: Test Setups
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● Physical DL Channels and Signals................. 30 ● MIMO and Beamforming..................34 ● Scheduling Type RMC.................... 39 ● User-Defined Channels...................51 ● Channels......................53 ● Semi-Persistent Scheduling (SPS)................. 56 ● Operating Bands..................... 57 ● Trigger Signals......................
Page 14 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description nection carries one uplink and one downlink signal. An additional connection carries the second downlink signal. The two downlink signals must be transmitted via different TX modules and different RF connectors, which implies that the instrument must sup- port at least two TX paths.
Page 15 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-3: Test setup for "1 Cell - 4 RF Out" 2.2.1.4 Test Setup for Carrier Aggregation Scenarios The Carrier Aggregation (CA) scenarios allow you to establish a Release 10 connec- tion with two component carriers in the downlink. The two carriers are called Primary Component Carrier (PCC) and Secondary Component Carrier (SCC).
Page 16 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-5: Test setup for CA, MIMO nx2, 4 DUT antenna connectors For CA without MIMO you could for example use only RF 1 COM (uplink, PCC down- link and SCC downlink). Or you could use RF 1 COM (uplink and PCC downlink) and RF 3 COM (SCC downlink).
Page 17 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-6: Test setup for scenario "IQ out - RF in" (example) 2.2.1.6 Test Setup for External Fading Scenarios In order to superimpose fading on the baseband signal, you can integrate an R&S AMU200A into a test setup. The R&S AMU200A must be connected to the digital I/Q interface of the R&S CMW.
Page 18 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description For a setup with only one downlink path you need only two of the four I/Q data connec- tions. For MIMO 4x2 fading, you need two R&S AMU200A and two I/Q boards. One R&S AMU200A is connected to the first I/Q board, the other to the second I/Q board.
Page 19: Initiating Signaling Tests
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.2 Initiating Signaling Tests The signal generator of the "LTE signaling" application is controlled like any realtime signal generator, see chapter 2.4.2, "Signaling Control", on page 112. The LTE downlink signal is turned on as long as the "LTE Signaling" softkey indicates the "ON"...
Page 20: Carrier Aggregation
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● The "Uplink Power Control" settings must be appropriate so that the UL signal is strong enough to be received and decoded by the R&S CMW. ● The UE capabilities must be in accordance with the security settings in the "Net- work"...
Page 21 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● For carrier aggregation without MIMO: two TX paths ● For carrier aggregation with MIMO: four TX paths, MIMO 2x2 option R&S CMW- KS520 and if desired also MIMO 4x2 option R&S CMW-KS521 2.2.3.1 Setting up a Connection with Carrier Aggregation The following procedure describes how to set up a downlink connection with PCC and...
Page 22: External Fading
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Note the SCC state displayed in the main view. After successful SCC activation the state is "MAC Activated". 2.2.4 External Fading An external fading scenario allows you to route the downlink baseband signal to an R&S AMU200A that superimposes fading on the signal and routes it back.
Page 23: Internal Fading
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description After a reconfiguration of the baseband input settings of the R&S AMU200A, turn the downlink signal at the signaling application off and on again. 2.2.5 Internal Fading Testing under realistic air interface conditions is important in order to verify the receiver performance and the correct operation of the protocol stack implementation.
Page 24: Data Tests And Voice Over Lte
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description noise ratio). The modulated signals from neighbor cells simply appear as noise. This effect is simulated by adding AWGN to the signal. The internal fading module supports AWGN insertion with configurable bandwidth and signal to noise ratio.
Page 25: Connection States
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description or to extract an audio signal from the RF connection, in order to perform audio meas- urements. You can for example connect the R&S UPV to the audio board of the R&S CMW and perform a speech quality analysis. To set up a voice over LTE connection, you need the DAU, see chapter 2.2.6, "Data Tests and Voice Over...
Page 26 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description PS State Description Attached Synchronization and attach have been performed. A default bearer has been established. Depending on parameter Keep RRC Connection a Radio Resource Control (RRC) con- nection is still established or has been released. To send or receive SMS messages, to start an inter-RAT handover or to establish an SCC connection, an established RRC con- nection is required.
Page 27 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● Receiving Message Displayed while an SMS message is received from the MS. To check the received message, see chapter 2.4.15.2, "Incoming SMS", on page 190. ● Incoming Handover in Progress Displayed while a handover is received (not for handover within signaling applica- tion).
Page 28: Handover
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● Semiautomatic activation means that you initiate the complete SCC setup. So one action initiates all transitions from "SCC Off" to "MAC Activated". ● Automatic activation means that the UE attach triggers also the setup of the SCC ("Keep RRC Connection"...
Page 29 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description The R&S CMW performs an RRC connection reconfiguration. This mechanism is only relevant for a handover within the signaling application. It supports changing the operating band and the channel, but not the cell bandwidth. ●...
Page 30: Physical Dl Channels And Signals
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description d) If you have selected another signaling application as target, the target cell is activated automatically (downlink signal switched on). Wait until the cell icon includes "RDY" to indicate that the handover target is ready to receive the handover.
Page 31 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-9: Resource element grid (7 OFDM symbols per RB, 1 TX antenna) The positions of resource elements carrying reference signals (pilots) are standardized and depend on the number of transmit antennas. The preceding figure applies to sin- gle-antenna configurations.
Page 32 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-11: Assignment of Resource Blocks (RB) to UEs In the time domain the additional units radio frame, subframe and slot (containing the OFDM symbols) are defined. A guard time called Cyclic Prefix (CP) is added to each OFDM symbol.
Page 33 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-13: LTE DL frame structure for FDD A TDD radio frame is also divided into 10 subframes. But for TDD three subframe types are defined: DL subframe (two DL slots), UL subframe (two UL slots) and special subframe.
Page 34: Mimo And Beamforming
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.10.2 Physical Channel Overview A downlink physical channel corresponds to a set of resource elements carrying infor- mation originating from higher layers. Physical channels can be either broadcast chan- nels or shared channels. Dedicated channels are not used for LTE. Broadcast channels carry messages that are not directed at a particular UE;...
Page 35 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description channel) and receiver side (output of radio channel). As a special MIMO technique, beamforming improves the transmission to users at the cell edges via directional down- link transmission. Different gains can be achieved via MIMO depending on the used transmission scheme.
Page 36 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description For MIMO configuration, you must set the parameters "Scenario" and "Transmission Mode" (see "Scenario, Fading" on page 118 and chapter 2.4.12.2, "MIMO Connection Settings", on page 166). For some transmission modes, several DCI formats, antenna configurations, precoding matrix indices or transmission schemes are supported, so that you must also configure the corresponding settings.
Page 37 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Scenario TX x RX Beamf. 1)4) Transmission Scheme Format Antennas Matrix Type 0 to 15 CL spatial multiplexing, single layer 2 TM = transmission mode, PMI = precoding matrix indicator, 2CC = two component carriers, CA = carrier aggregation, RA = resource allocation Fading not supported for 4x2 antenna configurations Output before radio channel, for example for external RF fading...
Page 38 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-16: "Radio channel" in a test setup, MIMO 2x2 For fading scenarios, the coefficients are determined dynamically. For scenarios with- out fading, you can configure static channel coefficients, see "Static Channel Model" on page 168.
Page 39: Scheduling Type Rmc
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description The channel coefficients are similar to the coefficients of a channel matrix. They are complex coefficients, have a magnitude and a phase and define an amplitude response and a phase response. The following example shows a 2x2 matrix for dual-layer beamforming, applied to antenna port 7 and port 8.
Page 40 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● Transport block size index The 3GPP compliant combinations supported by the R&S CMW are listed in the follow- ing sections. Many other parameters are indirectly determined by these four parame- ters. Refer to 3GPP TS 36.521 for detailed tables. Some of these parameters are also displayed at the GUI for information.
Page 41 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index 16-QAM L, H QPSK L, H, M QPSK 16-QAM L, H QPSK L, H QPSK L, H, 4 QPSK L, H 16-QAM 3 MHz L, H, M...
Page 42 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index L, H QPSK L, H, M, 10 8)9) , 39 QPSK L, H, M 16-QAM QPSK L, H, 48 L, H QPSK L, H QPSK...
Page 43 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index L, H QPSK L, H QPSK L, H QPSK 16-QAM L, H QPSK 16-QAM L, H QPSK 16-QAM L, H QPSK L, H QPSK 16-QAM...
Page 44 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index L, H QPSK L, H QPSK L, H QPSK L, H QPSK L, H QPSK 16-QAM L, H QPSK 16-QAM QPSK L, H, 16 L, H 16-QAM...
Page 45 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Table 2-4: UL RMCs for TDD Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index L, H QPSK L, H, M QPSK 16-QAM L, H QPSK L, H QPSK 1.4 MHz L, H QPSK L, H...
Page 46 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index L, H QPSK L, H QPSK L, H QPSK L, H QPSK 16-QAM L, H QPSK L, H, M, 49 QPSK L, H, M 16-QAM L, H...
Page 47 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index QPSK L, H, M, 74 L, H, M 16-QAM L, H QPSK L, H QPSK L, H QPSK L, H QPSK L, H QPSK L, H...
Page 48 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Channel Allocated Modulation Transport Block Position First RB Bandwidth Type Size Index L, H QPSK L, H QPSK QPSK L, H, 75 L, H QPSK QPSK L, H, 25 16-QAM L, H QPSK L, H, 25 QPSK L, H...
Page 49 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Transport Block Channel bandwidth Allocated RBs Position First RB Modulation Type Size Index L, H, 5 16-QAM QPSK L, H 64-QAM L, H QPSK L, H, 10 16-QAM L, H QPSK L, H 64-QAM 5 MHz L, H...
Page 50 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Transport Block Channel bandwidth Allocated RBs Position First RB Modulation Type Size Index L, H 64-QAM QPSK L, H 64-QAM *) The entries with a * in the last column have been removed from 3GPP TS 36.521, but are still supported for FDD for backward compatibility reasons.
Page 51: User-Defined Channels
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Some TDD RMCs defined by 3GPP have the same channel bandwidth, number of RBs, modulation type and transport block size index. The additional parameter "Ver- sion" is introduced to distinguish between these RMCs. The RMCs are defined in 3GPP TS 36.521, Table A.3.4.2.1-1.
Page 52 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Two modes are available. One mode allows you to configure UL and DL channels globally, for all subframes. The other mode supports individual settings for each sub- frame (TTI) of a radio frame (all parameters except channel bandwidth configurable per TTI).
Page 53: Cqi Channels
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.13.2 Supported Number of RB / Position of First RB (UL) In the uplink the position of the first allocated RB is freely selectable within the channel bandwidth. The number of resource blocks is restricted by the maximum number of RBs, depending on the channel bandwidth in the same way as for the downlink.
Page 54 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.14.1 Fixed CQI Channels For fixed CQI channels, option R&S CMW-KS510 is required. The downlink channel is configured via a set of parameters: ● Channel bandwidth ● Number of allocated Resource Blocks (RB) ●...
Page 55 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description target code rate as far as possible. Thus the transport block size depends on the CQI index and on the number of allocated RBs. 2.2.14.2 Follow WB CQI Channels This scheduling type is supported for the transmission modes 1 to 7. Option R&S CMW-KS510 is required.
Page 56: Semi-Persistent Scheduling (Sps)
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.14.4 Follow WB CQI-RI and CQI-PMI-RI Channels The scheduling type "Follow WB CQI-RI" is only relevant for the transmission mode 3, scheduling type "Follow WB CQI-PMI-RI" only for the transmission mode 4. Option R&S CMW-KS510/-KS512 is required (without CA/with CA).
Page 57: Operating Bands
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description If the UE does not use the granted uplink resources for transmission, the allocation expires after some unused subframes (implicit release). In that case, a new grant is sent automatically to the UE. SPS is only supported for the PCC, not for SCCs.
Page 58 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description [MHz] Channel No N [MHz] Offset, UL Offset, UL Band [MHz] 23280 23280 to 23379 788 to 797.9 1900 23380 23380 to 23579 1900 to 1919.9 2010 23580 23580 to 23729 2010 to 2024.9 23730 23730 to 23849 704 to 715.9...
Page 59 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description [MHz] Channel No N [MHz] Offset, DL Offset, DL Band 5180 5180 to 5279 746 to 755.9 5280 5280 to 5379 758 to 767.9 2600 5380 5380 to 5579 2600 to 2619.9 2585 5580 5580 to 5729 2585 to 2599.9...
Page 60: Trigger Signals
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description [MHz] Channel No N F [MHz] Offset Offset Band 3600 43590 43590 to 45589 3600 to 3799.9 45590 45590 to 46589 703 to 802.9 2.2.17 Trigger Signals The LTE signaling application provides trigger signals that can be used by other R&S CMW applications to synchronize to the generated LTE downlink signal.
Page 61: Relative Power Control Tests
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.18 Relative Power Control Tests Uplink power control tests with relative commands are specified in 3GPP TS 36.521, section 6.3.5.2 "Power Control Relative power tolerance". The first two subtests require special TPC power control patterns combined with a dynamic resource block alloca- tion.
Page 62 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Fig. 2-22: Power measurement with ramping up pattern A for FDD Explanation of the diagram: ● Frame 1: constant initial target power ● Frame 2: ramping up ● Frame 3: constant power for input path configuration ●...
Page 63: Extended Bler Measurement
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Press the softkey "Multi Evaluation" followed by the hotkey "Measurement Sub- frames" and set "No. of Subframes". 5. Press "ON | OFF" to start the measurement. Ignore an indicated trigger timeout. 6. Configure the TPC pattern and execute it: a) Press the "Signaling Parameter"...
Page 64 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description If you want to set up a downlink signal with a specific CQI index value, use a "CQI" scheduling type. When you start the measurement, the R&S CMW sends data to the UE via PDSCH subframes and requests the UE to confirm the correct reception.
Page 65 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.19.2 Result Overview The results of the "Extended BLER" measurement are displayed in several different views on the "Extended BLER" tab. The result overview provides a summary of the most important results of the detailed result views. Fig.
Page 66 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Number of uplink subframes with passed / failed CRC check, received since the start of the measurement. 2.2.19.3 Detailed View: BLER The "BLER" view provides a table of downlink BLER and throughput results. The table contains always an overall result section at the top (results over all streams of one car- rier).
Page 67 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Number of acknowledgments and negative acknowledgments received via the PUSCH since the start of the measurement. No answer at all (neither ACK or NACK) is counted as DTX. The results are presented as absolute number and as percentage relative to the number of sent scheduled subframes.
Page 68 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description Indicates the currently configured "Limit Error Rate". For "Subframes" and "Scheduled" see chapter 2.2.19.8, "Common View Elements", on page 72. 2.2.19.4 Detailed View: Throughput The "Throughput" view provides a graphical presentation of downlink throughput and median CQI results for the previous measurement cycle.
Page 69 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.19.5 Detailed View: CQI Reporting The main focus of the "CQI Reporting" view is on evaluation of the CQI index values reported by the UE. This view is only available if CQI reporting is enabled in the signal- ing application (see "Enable CQI Reporting"...
Page 70 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description ● Range CQI Median +/-1: evaluation of three adjacent bars, from median CQI - 1 to median CQI + 1 The absolute value indicates the sum of the three bars. The relative value indicates the percentage of the absolute value relative to the sum of all bars of the stream.
Page 71 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description The bar graphs show how often specific values have been reported by the UE since the measurement has been started. The tables below the bar graphs provide the same information as numbers instead of bars. The bar graph on the right shows how often the RI values 1 and 2 have been reported.
Page 72 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description The view displays two types of tables for each downlink stream: ● The "HARQ per Transmissions" table lists the initial transmissions and all retrans- missions. Column 1 indicates the initial transmissions (first redundancy version), column 2 the first retransmission (second redundancy version), column 3 the sec- ond retransmission (third redundancy version), and so on.
Page 73: Rlc Throughput Measurement
® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description scheduled, subframe 2, 3, 7, 8 = uplink). Thus 5 of 10 subframes are used for downlink data transfer and 5000 of 10000 subframes are scheduled. At the end of the measurement the parameter "Subframes" displays 10000/10000 and the parameter "Scheduled"...
Page 74 ® LTE Signaling R&S CMW-KM5xx/-KS5xx General Description 2.2.20.1 Performing RLC Throughput Measurements To measure the RLC throughput, you must set up a connection in data application mode and generate IP traffic. 1. Set up a connection as described in chapter 2.3.2, "LTE IP-Based Data Tests", on page 79.
Page 75: Application Sheets
® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets The diagram displays one result value per "Update Interval". The number of subframes per interval is configurable. The number of subframes per measurement cycle is also configurable ("Window Size", number of subframes on the X-axis). You can enable/disable the display of the individual traces via the softkey - hotkey combination "Display >...
Page 76 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 2.3.1.1 Options and Equipment Required An LTE combined signal path measurement requires the following equipment: ● Wideband Radio Communication Tester R&S CMW500 with software version ≥ V1.0.15.20. The latest software version is recommended. This application sheet describes software version V3.2.10.
Page 77 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 6. In section "RF Settings", select a bidirectional RF connector for input and output. In this example RF 1 COM is used. If necessary, also adjust the "External Attenuation" settings. 7. Close the configuration dialog. 8.
Page 78 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets nario in the measurement. As a result the measurement application uses the most important settings of the signaling application, e.g. the RF settings. Proceed as follows: 1. Use the "LTE TX Meas" softkey to switch to the multi evaluation measurement. The measurement application is opened and the combined signal path scenario is selected automatically.
Page 79: Lte Ip-Based Data Tests
® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets (TPC) commands to the UE and observe the resulting uplink power in the measure- ment dialogs. Or you can modify the channel configuration for the uplink and observe the result in the "RB Allocation Table". 2.3.1.5 SRS and PRACH Measurements In addition to the "LTE Multi Evaluation"...
Page 80 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets Proceed as follows: 1. Set up a connection. The general procedure for connection setup is described in the application sheet "LTE Combined Signal Path Measurements", see chap- ter 2.3.1.2, "Setting up a Connection", on page 76.
Page 81 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 2.3.2.4 Measuring the Throughput with IPerf The following steps describe how to measure the downlink throughput for data transfer via UDP/IP. As a prerequisite, the IPerf tool must be installed on the UE, or on a PC connected to the UE.
Page 82 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 5. Press OK to close the configuration dialog. 6. Press ON | OFF. The application starts and the "Iperf" softkey indicates the "RUN" state. The R&S CMW sends data packets to the UE, using the downlink bit rate indicated in the last column and the graphic.
Page 83: Volte Call Setup And Audio Tests
® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 2.3.2.5 Possible Extensions While the connection is established, you can vary "LTE Signaling" settings and "Data Application Measurements" settings and observe the impact on the measurement results. You can for example modify the downlink power levels, the downlink channel configuration and the sent bit rate.
Page 84 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets – LTE R8, SISO, basic signaling, R&S CMW-KS500 (FDD) or -KS550 (TDD) – LTE R8, SISO, advanced signaling, R&S CMW-KS510 – IPv4 enabler, R&S CMW-KA100, for IPv6 additionally R&S CMW-KA150 – IMS basic service, R&S CMW-KAA20 ●...
Page 85 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets a) Press SIGNAL GEN. The "Generator/Signaling Controller" dialog box opens. b) Enable "LTE Signaling 1". c) Press MEASURE. The "Measurement Controller" dialog box opens. d) Enable "Audio Measurements 1". e) Enable "Data Appl. Measurement 1". If this entry is not available, you can skip this step.
Page 86 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets ● "User Authentication", for "On" also the "Authentication Data" ● "Preconditions" 6. Press "OK" to close the dialog box. 7. Press ON | OFF. The IMS service is started. Wait until the "IMS" softkey displays the state "ON" and the displayed IMS status equals "running".
Page 87 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 6. Configure the remaining "Network" settings compatible to your UE, especially the sections "NAS Signaling", "Identity" and "Security Settings". 7. In section "Connection", set "Connection Type" to "Data Application". 8. Disable "Use 'Activate Testmode' Message" 9.
Page 88 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 2. Open the "Data Application Control" dialog box. a) Task bar > "Data Meas 1" > "Configure Services" softkey, or b) SETUP > "Go to config" button The "Data Application Control" dialog box opens. 3.
Page 89 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets b) For "Call Type", use the default value "Audio". Configure the "AMR Type" and the "AMR Codec" compatible to your UE. c) Press the "Call" button to initiate the call. The state "Calling" is displayed, followed by the state "Ringing". d) Accept the call at the UE.
Page 90 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 2.3.3.4 Performing Basic Audio Tests This section describes how to perform audio tests for an established VoLTE connec- tion. As audio test signal, a single tone is used. The tests analyze mainly the harmonic distortions and noise of an audio signal.
Page 91 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets 7. Stop the generator and the measurement: a) Select the "Analog Meas" softkey and press ON | OFF. b) Select the "Digital Generator" softkey and press ON | OFF. Performing a microphone test In the following test, the analog generator of the audio board feeds a 1000 Hz audio tone to the microphone of the UE.
Page 92 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets The measurement is started. Wait until the softkey indicates the "RUN" state. 7. Evaluate the measurement results, for example the Total Harmonic Distortion (THD) and the Signal to Noise Ratio (SNR) of the audio signal. 8.
Page 93 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Application Sheets A generator of the R&S UPV feeds an audio signal via the AF 1 IN port to the speech encoder of the audio board. The test signal is transmitted via the VoLTE connection to the UE.
Page 94: Gui Reference
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Configurable network impairments are for example: ● Packet delay, static or with jitter distribution ● Packet loss and packet corruption ● Reordering and duplication of packets 2.4 GUI Reference The following sections provide detailed reference information on the parameters of the LTE signaling application.
Page 95: Signaling View
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.1 Signaling View The signaling view shows status information and information derived from the uplink signal to the left and the most important settings to the right. All settings in this view can also be accessed via the configuration dialog. For a description of available hotkeys refer to chapter 2.4.2, "Signaling Control",...
Page 96 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-34: Connection Status area of the main view For background information about the displayed states, see chapter 2.2.8, "Connection States", on page 25. For control of the states, see chapter 2.4.2, "Signaling Control", on page 112.
Page 97 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-35: Event Log area of the main view Event log entries Each entry consists of a timestamp, an icon indicating the category of the event and a short text describing the event. Meaning of the category icons: = information, warning and error Remote command:...
Page 98 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-37: Maximized report area Neighbor cell measurements are by default disabled and can be enabled separately for each neighbor cell, see chapter 2.4.11.1, "Neighbor Cell Settings", on page 149. Option R&S CMW-KS510 is required. The measurement results displayed in the maximized report area are described in the following.
Page 99 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The measurement report displays the reported dimensionless value and in brackets the corresponding measured value range. For carrier aggregation scenarios, the infor- mation is displayed per carrier. Remote command: SENSe: L TE: S IGN: U EReport[: P CC]: R SRQ? SENSe:...
Page 100 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For reporting, the ratio is converted into a dB value, multiplied with -2 and truncated, so that a positive integer value is reported (0 to 63): Reported pilot strength value = INT (-2 * 10 log (pilot energy / total power)) For more details refer to 3GPP2 C.S0005, section 2.6.6.2.2 and section 2.7.2.3.2.5.
Page 101 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.1.5 UE Info To display UE-related information for an attached UE, select "UE Info" in the field below the event log area. Fig. 2-39: UE info area of the main view IMEI International Mobile Equipment Identity (IMEI) received from the UE. The IMEI is only known if NAS security is enabled.
Page 102 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Example: The UE has the voice domain preference "IMS PS Voice only", but the cell does not offer IMS services. "Voice centric" The UE leaves the cell to ensure the support of voice services. It dis- ables the E-UTRAN capability and performs a reselection to GERAN or UTRAN.
Page 103 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-40: Settings in the main view, PCC and SCC Upper Part The upper part contains the following settings: ● Duplex mode chapter 2.4.4, "General Settings", on page 117 ● RF frequency settings chapter 2.4.6.2, "RF Frequency", on page 126...
Page 104 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If the swap changes the PCC scheduling type or the PCC cell bandwidth, the rela- ted inactive UL settings are activated. Example 1 – operating band and channel number: ● Before swap – PCC: band 3, channel DL 1500 / UL 19500 –...
Page 105 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If a transmission scheme using several data streams is active, the parameter "MIMO DL Stream" allows you to switch between the settings of the downlink streams. The parameter is disabled if all streams use the same set of settings. 2.4.1.7 TTI-Based Channel Configuration Before you start channel configuration, configure the duplex mode and the cell band-...
Page 106 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-41: User-defined TTI-Based configuration (PCC) If the selected scenario involves several downlink streams, some DL parameters can be configured individually per stream. Other parameters are configurable for stream 1 only and are applied automatically to stream 2. If you enable parameter "Equal" in the main view, all stream 1 settings are also applied to stream 2 and the stream 2 tab is disabled.
Page 107 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference TBS..........................108 Code Rate........................108 Throughput........................108 TTI Copy Allows you to copy the settings of a selected subframe to other subframes. The source and target subframes of the copy operation are identified via their number. To perform a copy operation, select the number of the subframe to be copied, select the target subframes and press the "Copy"...
Page 108 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fixed CQI ← DL Configuration Commands The following commands configure the settings for the scheduling type "Fixed CQI". Remote command: CONFigure: L TE: S IGN: C ONNection[: P CC]: F CTTibased: D L<Stream> CONFigure:...
Page 109 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The expected maximum throughput displayed for example in the main view is calcula- ted using the maximum MCS index value of the mapping table. Fig. 2-42: Follow WB CQI DL settings #RB..........................109 Start RB........................109 MCS@CQI Table / CQI /...
Page 110 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Follow WB CQI ← DL Configuration Commands The following commands configure the settings for the scheduling type "Follow WB CQI". Remote command: CONFigure: L TE: S IGN: C ONNection[: P CC]: F WBCqi: D L CONFigure:...
Page 111 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-43: SPS settings To configure SPS, proceed as follows: 1. Select the duplex mode and the cell bandwidth in the upper part of the main view. 2. Select the scheduling type SPS. 3.
Page 112: Signaling Control
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference # RB ... TBSI /TBS "# RB" selects the number of allocated resource blocks. "Start RB" specifies the number of the first allocated resource block. This parameter allows you to shift the allocated RBs within the cell bandwidth. "Mod"...
Page 113 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The state "RDY" means that the signaling application is ready to receive an inter-RAT handover from another signaling application (e.g. from WCDMA). This state is initiated by the application acting as source of the handover. Remote command: SOURce:...
Page 114 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Connect ← Connect (hotkey) If at least one default bearer has been established (UE is attached), you can use the "Connect" section to configure a dedicated bearer. Press the "Connect" button to establish a dedicated bearer with the configured settings. "Default Bearer ID"...
Page 115 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The parameter "Target" selects the handover destination. The cell icon indicates the cell state of the currently selected destination. When you select another signaling appli- cation, e.g. "WCDMA Sig1", the destination cell is switched on automatically and the target cell state changes to RDY (ready for handover).
Page 116: Using The Shortcut Softkeys
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For a detailed step-by-step description of a handover, see chapter 2.2.9, "Handover", on page 28. Remote command: PREPare: L TE: S IGN: H ANDover PREPare: L TE: S IGN: H ANDover: D ESTination PREPare:...
Page 117: General Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-44: Dialog box opened by "Go to..." softkey Select Menu Selects the target measurement you want to switch to. Select as fixed target Sets the selected measurement as fixed target of the softkey. The softkey label indi- cates the measurement name and switches directly to the selected target without opening the dialog box.
Page 118 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If a setting is individually configurable for PCC and SCC, two remote control com- mands are listed for the setting: one [:PCC] command and one :SCC command. The SCC tab contains a subset of the settings present on the PCC tab. For that rea- son, most screenshots in the following sections show the settings on the PCC tab.
Page 119 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For the fading scenarios, the additional parameter "Fading" is displayed. It selects between external fading via a connected R&S AMU200A and internal fading via an internal fader I/Q board. For internal fading with a single I/Q board, the I/Q board to be used can be selected in order to avoid resource conflicts (two signaling applications try to use the same I/Q board in parallel).
Page 120 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Remote command: ROUTe: L TE: S IGN: S CENario: S CELl ROUTe: L TE: S IGN: S CENario: T RO ROUTe: L TE: S IGN: S CENario: F RO ROUTe: L TE: S IGN: S CENario: C ATRfout ROUTe:...
Page 121: I/Q Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference "Manual" Each state transition step must be initiated separately. You must trig- ger three state transition steps to reach the state "MAC Activated" from the state "SCC Off" (via "SCC On" and "RRC Added"). This mode is useful for debugging of the UE.
Page 122 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-47: I/Q settings (1 Cell - Fading - 1 RF Out, external fading) Connector (Out / In)....................122 Sample Rate (Out / In)....................122 Baseband PEP (Out / In).....................122 Crest Factor (Out)....................... 123 Baseband Level (In)....................
Page 123: Rf Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Configure the input PEP so that it matches the baseband output of the connected instrument. Remote command: SENSe: L TE: S IGN: I QOut[: P CC]: P ATH<n>? CONFigure: L TE: S IGN: I QIN[: P CC]: P ATH<n> SENSe:...
Page 124 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.6.1 RF Signal Routing Depending on the selected scenario, this section configures only the RF input path, or one input and one output path, or one input and two output paths. Most parameters are configurable per path.
Page 125 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If a correction table for frequency-dependent attenuation is active for the chosen con- nector, then the table name and a button are displayed. Press the button to display the table entries. You can configure the external attenuation per output path. Remote command: CONFigure:...
Page 126 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The signaling application uses this information to compensate for the delay and to syn- chronize the uplink and the downlink in spite of the delay. Remote command: CONFigure: L TE: S IGN: R FSettings: E DC: I NPut 2.4.6.2 RF Frequency This section configures the operating band and channel/frequency for uplink and down-...
Page 127 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For carrier aggregation, select different DL channels for PCC and SCC. The two chan- nels must not overlap and can be located in the same band or in different bands. The relation between operating band, carrier frequencies and channel numbers is defined by 3GPP (see chapter 2.2.16, "Operating Bands",...
Page 128 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Band Indicator ← Band Definition Frequency band indicator identifying a user-defined band in signaling messages. The value is sent to the UE via broadcast in system information block 1. It is also used in handover messages.
Page 129 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.6.3 Expected Uplink Power The following parameters configure the expected uplink power. Fig. 2-51: RF uplink power settings Exp. Nominal Power..., Margin These parameters configure the expected UL power. Two modes are available: ●...
Page 130: Internal Fading
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Mixer Level Advantages Possible Shortcomings Offset < 0 dB Suppression of distortion (e.g. of the inter- Lower dynamic range (due to smaller sig- modulation products generated in the nal-to-noise ratio) mixer) > 0 dB High signal-to-noise ratio, higher dynamic Risk of intermodulation, smaller overdrive range...
Page 131 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-53: Fading simulator settings Enable......................... 131 Profile.......................... 131 Restart Event......................131 Start Seed........................132 Insertion Loss......................132 Doppler Frequency Mode, Doppler Frequency............132 Enable Enables/disables the fading simulator. Remote command: CONFigure: L TE: S IGN: F ADing[: P CC]: F SIMulator: E NABle CONFigure:...
Page 132 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference "Auto" Fading starts automatically with the downlink signal. "Manual" Fading is started and restarted manually. A "Restart" button is dis- played. "Trigger" Fading starts automatically. The two I/Q boards are synchronized via an internal trigger signal. Remote command: CONFigure:...
Page 133 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference "User" Specify the maximum Doppler frequency. Remote command: CONFigure: L TE: S IGN: F ADing[: P CC]: F SIMulator: D SHift: M ODE CONFigure: L TE: S IGN: F ADing[: P CC]: F SIMulator: D SHift CONFigure:...
Page 134 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.7.3 Fading Module AWGN The following parameters enable and configure the AWGN insertion on the fading module. For background information, see chapter 2.2.5.2, "AWGN Generator", on page 23. For carrier aggregation scenarios, you can configure different settings for PCC and SCC.
Page 135: Downlink Power Levels
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.8 Downlink Power Levels This section defines power levels of physical downlink channels and physical downlink signals. The parameters in this section except the power offset PA can be changed in all main connection states including "Connection Established".
Page 136 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference PSS Power Offset Power level of a Primary Synchronization Signal (PSS) resource element relative to the RS EPRE. Remote command: CONFigure: L TE: S IGN: D L[: P CC]: P SS: P OFFset CONFigure:...
Page 137 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference When the OCNG is enabled it uses all not allocated Resource Blocks (RB) of the cell bandwidth, so that the full cell bandwidth is used. Example: if for a bandwidth of 10 MHz only 16 RBs are used by the RMC, the remaining 34 RBs are used by the OCNG. The power level of the OCNG is chosen automatically so that the displayed "Full Cell BW Power"...
Page 138: Uplink Power Control
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.9 Uplink Power Control This section defines parameters related to the control of the UE uplink power by the instrument. The PRACH and initial PUSCH power are relevant during connection setup. During an established connection the power is controlled via TPC commands. Fig.
Page 139: Open Loop Nominal Power
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Open Loop Nominal Power Defines a cell-specific nominal power value for full resource block allocation in the UL (entire channel bandwidth used). From this value the cell-specific nominal power value related to one resource block is determined and sent to all UEs via broadcast. The UE uses this value for calculation of the average power of an SC-FDMA symbol in which the PUSCH is transmitted.
Page 140: Pathloss Compensation Alpha
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference In 3GPP TS 36.213, section 5.1.1.1 this parameter is called P O_NOMINAL_PUSCH Remote command: CONFigure: L TE: S IGN: U L: A PPower: P NPusch: A DVanced SENSe: L TE: S IGN: U L: A PPower: P NPusch: B ASic? Pathloss Compensation Alpha Specifies the parameter "alpha", signaled to the UE as uplink power control parameter (see 3GPP TS 36.331, section 6.3.2).
Page 141: Expected Ol Power
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For details see 3GPP TS 36.321 section 5.1. Remote command: SENSe: L TE: S IGN: U L: A PPower: E PPPower? Expected OL Power Displays the expected initial PUSCH power. Most of the advanced power settings influ- ence this value.
Page 142 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference ● 3GPP Relative Power Control Ramping up or down test pattern according to 3GPP TS 36.521, section 6.3.5.2. Select the test pattern via "3GPP Rel. Pow. Ctrl. Pattern" and start the pattern via the "Execute"...
Page 143: Physical Cell Setup
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Closed Loop Target Power Defines the target power for the TPC setup "Closed Loop". The target power applies to PUCCH and PUSCH. Remote command: CONFigure: L TE: S IGN: U L: P USCh: T PC: C LTPower Single Pattern Defines a pattern for the TPC setup "Single Pattern".
Page 144: Dl / Ul Cell Bandwidth
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-60: Cell setup parameters DL / UL Cell Bandwidth....................144 Physical Cell ID......................145 Cyclic Prefix........................ 145 Sounding RS (SRS)....................145 SRS..........................145 └ Manual Configuration..................146 └ Subframe Configuration................146 └ Configuration Index..................146 TDD..........................146 └...
Page 145: Physical Cell Id
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For carrier aggregation scenarios you can configure different PCC and SCC DL cell bandwidths. Remote command: CONFigure: L TE: S IGN: C ELL: B ANDwidth[: P CC]: D L CONFigure: L TE: S IGN: C ELL: B ANDwidth: S CC: D L CONFigure:...
Page 146: Manual Configuration
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The timing is configured via a cell-specific setting and a UE-specific setting: ● At time instances with configured UE-specific SRS, the UE sends an SRS symbol. All other UE send a "blank SRS symbol". ●...
Page 147: Special Subframe
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If duplex mode TDD is active, the radio frame structure is displayed for information (lines "Subframe Number" and "Direction"). For some scheduling types, the uplink-downlink configuration is set automatically and grayed-out. Option R&S CMW-KS510 is required for configuration of the parameter. Option R&S CMW-KS550 is required for configuration and display of the parameter.
Page 148: Configuration Index
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Power Ramping Step ← PRACH Specifies the transmit power difference between two consecutive preambles. This value is broadcasted to the UE. If you set the step size to 0 dB, the preamble power is kept constant by the UE. This allows you to use a constant expected nominal power setting during a PRACH mea- surement.
Page 149: Network Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.11 Network Settings The "Network" settings configure parameters of the simulated radio network. Fig. 2-61: Network settings For parameter descriptions refer to the subsections. ● Neighbor Cell Settings..................149 ● Cell Reselection....................152 ●...
Page 150 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference To configure the neighbor cell entries, press the "Edit" button. The configuration dialog contains one tab per technology. Fig. 2-63: Neighbor cell list configuration dialog Only the enabled entries are broadcasted. The column "Measurement" is only configurable for enabled entries. It specifies whether measurement reports for the neighbor cell are requested from the UE.
Page 151 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For an LTE (E-UTRA) neighbor cell entry you can specify the operating band and downlink channel number, the physical layer cell ID and the "QOffset". Parameter "QOffset" corresponds to the value "q-OffsetCell" in 3GPP TS 36.331, which equals "Qoffset "...
Page 152: Cell Reselection
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference TD-SCDMA For a TD-SCDMA (UTRA TDD) neighbor cell entry you can specify the operating band, the channel number and the cell parameter ID. The channel number and the TD-SCDMA reselection thresholds are written into sys- tem information block 6.
Page 153: Identity Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Option R&S CMW-KS510 is required. Remote command: CONFigure: L TE: S IGN: C ELL: R ESelection: T SLow Q rxlevmin Minimum required received RSRP level in the cell in dBm (Q rxlevmin The level is configured in dBm. System information block 1 contains the configured value divided by 2.
Page 154: Security Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If you use carrier aggregation, configure different values for PCC and SCC. Remote command: CONFigure: L TE: S IGN: C ELL[: P CC]: C ID: E UTRan CONFigure: L TE: S IGN: C ELL: S CC: C ID: E UTRan 2.4.11.4 Security Settings The "Security Settings"...
Page 155: Ue Identity
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference AS Security Enables or disables Access Stratum (AS) security. With enabled AS security the UE performs integrity protection of RRC signaling. This setting is only relevant if authenti- cation is enabled. Remote command: CONFigure:...
Page 156: Timer And Constants
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-67: UE identity settings Default IMSI 15-digit International Mobile Subscriber Identity (IMSI). The default IMSI is required for mobile terminated connection setups without previous attach of the UE. Remote command: CONFigure: L TE: S IGN: C ELL: U EIDentity: I MSI 2.4.11.6 Timer and Constants The parameters in this section configure timers and counters.
Page 157 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-69: Time settings Time Source This parameter selects the date and time source. ● CMW Time Selects the current CMW (Windows) date and time as source. The Windows set- tings determine the UTC date, the UTC time, the current daylight saving time offset and the time zone offset.
Page 158: Nas Signaling Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.11.8 NAS Signaling Settings The parameters in this section configure settings related to NAS signaling messages, to be sent to the UE. Fig. 2-70: Reject cause settings Send DNS PCO......................158 Attach Reject Cause, TAU Reject Cause..............158 EPS Network Feature Support..................158...
Page 159: Synchronization
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Option R&S CMW-KS510 is required. Remote command: CONFigure: L TE: S IGN: C ELL: N AS: E PSNetwork IMS Voice Over PS Session Indicator Configures bit 1 of the information element "EPS Network Feature Support". The flag indicates whether voice over LTE (VoLTE) is supported, or a Circuit Switched Fallback (CSFB) is required for voice calls.
Page 160: Connection Configuration
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-71: Synchronization settings Synchronization Zone Select the same synchronization zone in all signaling applications that you want to syn- chronize. "None" means that the application is not synchronized to other signaling applications. The PCC and SCC of an LTE signaling application are always synchronized to each other, independent of this setting.
Page 161 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For parameter descriptions refer to the subsections. ● Miscellaneous Connection Settings Part 1............161 ● MIMO Connection Settings................... 166 ● Miscellaneous Connection Settings Part 2............170 ● Connected DRX Connection Settings..............176 ● RMC Connection Settings..................179 ●...
Page 162 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Keep RRC Connection....................165 Downlink MAC Padding....................165 Downlink MAC Error Insertion..................166 Group Hopping Enables or disables group hopping, specified in 3GPP TS 36.211. Option R&S CMW-KS510 is required. Remote command: CONFigure: L TE: S IGN: C ONNection: G HOPping UE Category The UE category to be used by the R&S CMW can be set manually.
Page 163 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The relevant value depends on the conformance test to be performed, see 3GPP TS 36.521 and 3GPP TS 36.508. Remote command: CONFigure: L TE: S IGN: C ONNection: F COefficient Connection Type Configures the connection type to be applied at the R&S CMW. ●...
Page 164 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Testmode > Use "Activate Testmode" Message When enabled, an "ACTIVATE TEST MODE" message is sent to the UE. No loop mode is requested. Test modes are specified in 3GPP TS 36.509 and 36.508. Remote command: CONFigure:...
Page 165 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference An RRC reconfiguration message is sent to the UE, containing the system informa- tion values in a mobility control information element. This method is only used if an RRC connection is established. Without RRC connection SIB paging is used. ●...
Page 166 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Downlink MAC Error Insertion Configures the rate of transport block errors to be inserted into the downlink data. This is useful when performing a BLER measurement. The parameter can be changed in all main connection states including "Connection Established".
Page 167 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Transmission Mode Selects the LTE transmission mode. The available values depend on the active sce- nario, see table 2-2. In the state "Connection Established", the parameter can be changed within the follow- ing groups: Mode 1/7, Mode 2/3/4/6/8. The transmission mode 8 cannot be combined with an extended cyclic prefix (combina- tion not foreseen by 3GPP).
Page 168 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Precoding Matrix Selects the precoding matrix for closed loop spatial multiplexing (transmission mode 4 or 6). Depending on the scheduling type, the downlink signal follows the reported PMI value. In that case, the configured PMI value is used as initial value until a PMI report has been received.
Page 169 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-74: Beamforming settings for TM8, 2 layers Beamforming Mode ← Beamforming Model Enables or disables beamforming. ● Off: Beamforming is disabled ● On: Beamforming is enabled. The configured beamforming matrix is used. ●...
Page 170 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference You can configure the phase of each coefficient and the square of the magnitude of h and h . The other magnitudes are adapted automatically. Remote command: CONFigure: L TE: S IGN: C ONNection[: P CC]: B EAMforming: M ATRix CONFigure:...
Page 171 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 3GPP compliant RMCs allow only specific combinations of cell bandwidth, number of allocated RBs, RB position and modulation type. User-defined channels provide more flexibility concerning the allowed combinations. For configuration, see chapter 2.4.12.6, "User-Defined Channel Configuration", on page 182.
Page 172 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference SPS TwoIntervalsConfig TDD Configures the parameter "twoIntervalsConfig", signaled to the UE for scheduling type SPS in TDD mode. The parameter is specified in 3GPP TS 36.321. Remote command: CONFigure: L TE: S IGN: C ONNection[: P CC]: S PS: T IConfig Max Throughput Displays the expected maximum throughput in Mbit/s (averaged over one frame).
Page 173 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Enable Header Compression ← ROHC Enables or disables ROHC. ROHC is only performed for dedicated bearers with bearer profile "Voice" or "Video", not for data connections. Remote command: CONFigure: L TE: S IGN: C ONNection: R OHC: E NABle Profile ...
Page 174 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For carrier aggregation scenarios, the PDCCH configuration may be different for PCC and SCC. Remote command: CONFigure: L TE: S IGN: C ONNection[: P CC]: P DCCh: R PDCch SENSe: L TE: S IGN: C ONNection[: P CC]: P DCCh: P SYMbols? SENSe:...
Page 175 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference During the establishment of additional default bearers you must not modify any set- tings. So do not change parameters when the UE sends a default bearer request, until the event log indicates that the requested bearer has been established. Remote command: CONFigure:...
Page 176 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For details about the meaning of the individual redundancy versions, see "redundancy version number" in 3GPP TS 36.212. Remote command: CONFigure: L TE: S IGN: C ONNection: H ARQ: D L: R VCSequence CONFigure:...
Page 177 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-77: Connected DRX settings (values used in example) The unit "PDCCH subframe" used in this context refers to subframes with PDCCH. For FDD this is any subframe. For TDD only DL subframes and subframes with DwPTS are counted.
Page 178 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Inactivity Timer "On" time after reception and decoding of a PDCCH for this UE ("drx-InactivityTimer"). Remote command: CONFigure: L TE: S IGN: C ONNection: C DRX: I TIMer Retransmission Timer "On" time if the UE expects a DL retransmission ("drx-RetransmissionTimer"). The timer expires early when the retransmission is received.
Page 179 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference UL Dynamic Scheduling With uplink dynamic scheduling, the UE gets uplink grants only upon request. Further- more, MAC padding is disabled automatically. Enable dynamic scheduling to force DRX, but allow the UE to get an UL grant upon request.
Page 180 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-78: RMC connection settings Use Stream 1 Settings....................180 # Resource Blocks...................... 180 Version........................181 RB Position/Start RB....................181 Modulation Type......................181 Transport Block Size Index..................181 Transport Block Size....................181 Throughput........................181 Use Stream 1 Settings This parameter is visible if the selected transmission scheme involves several downlink streams.
Page 181 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Version Some TDD RMCs defined by 3GPP have the same channel bandwidth, number of RBs, modulation type and transport block size index. The parameter "Version" is intro- duced to distinguish between these RMCs. For the meaning of the version values, see chapter 2.2.12.3, "DL RMCs, Multiple TX Antennas",...
Page 182 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.12.6 User-Defined Channel Configuration The parameters in this section configure the resource block configuration, modulation type and transport block size for DL and UL channels. The allowed combinations are more flexible than for 3GPP compliant RMCs. Option R&S CMW-KS510 is required. The settings apply if Scheduling Type = "User-Defined Channels".
Page 183 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If you disable this parameter, you can configure some DL parameters individually per stream. Other parameters are configurable for stream 1 only and are applied automati- cally to stream 2. Remote command: CONFigure: L TE: S IGN: C ONNection[: P CC]: D LEQual CONFigure:...
Page 184: Cqi Reporting
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.12.8 CQI Channel Configuration The configuration depends on the CQI scheduling type. ● "Fixed CQI" and "Follow WB PMI": Uplink and downlink settings for these scheduling types can only be configured from the main view, not from the configuration tree. ●...
Page 185 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference If connected DRX is enabled, CQI reporting is not possible (disabled and grayed out). Periodic CQI reporting is described in 3GPP TS 36.213, section 7.2.2. Remote command: CONFigure: L TE: S IGN: C QIReporting: E NABle Format Indicator The current software version supports only wideband CQI reporting.
Page 186: Ue Measurement Report Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The subframes for CQI and PMI reporting are determined by the parameter "cqi-pmi- ConfigIndex". This parameter is configurable. Via a mapping table, the "cqi-pmi-Config- Index" determines the reporting period N and the reporting offset N OFFSET,CQI The subframes for RI reporting are determined by the parameters "M "...
Page 187 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-81: UE measurement report settings Report Enables or disables the UE measurement report. Configure the other settings before enabling this parameter. Remote command: CONFigure: L TE: S IGN: U EReport: E NABle Reporting Interval Sets the interval between two consecutive measurement reports.
Page 188: Messaging (Sms) Parameters
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The setting is only visible for carrier aggregation scenarios. Remote command: CONFigure: L TE: S IGN: U EReport: M CSCell 2.4.15 Messaging (SMS) Parameters The "Messaging (SMS)" section configures parameters of the Short Message Service (SMS).
Page 189 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Originator SMSC Address...................189 Originating Address.....................189 Service Center Time Stamp..................189 Outgoing SMS Defines the message contents for outgoing 7-bit ASCII messages. Up to 160 charac- ters are allowed. Remote command: CONFigure: L TE: S IGN: S MS: O UTGoing: I NTernal Outgoing SMS binary Defines the message contents for outgoing 8-bit binary messages.
Page 190 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference You can configure the time stamp in two ways: ● Select the time source "CMW Time". This sets the time stamp according to the current date and time of the operation system. ● Select the time source "Date / Time"...
Page 191: Shortcut Configuration
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.16 Shortcut Configuration This section configures the three shortcut softkeys that provide a fast way to switch to selectable measurements. See also chapter 2.4.3, "Using the Shortcut Softkeys", on page 116 Fig. 2-85: Shortcut configuration Select Menu Selects a measurement.
Page 192: Bler Measurement Configuration
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference The address pool is configured globally, see "Setup" dialog, section "Logging". Remote command: CONFigure: L TE: S IGN: M MONitor: I PADdress 2.4.18 BLER Measurement Configuration The "Extended BLER" measurement is included in the "LTE signaling" application. To access the measurement, press the softkey "LTE RX Meas"...
Page 193 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-87: Extended BLER result overview Results For a detailed description of the individual views and results, see chapter 2.2.19, "Extended BLER Measurement", on page 63. For result retrieval commands, see chapter 2.6.19.3, "Measurement Results", on page 456.
Page 194 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Repetition........................194 Stop Condition......................194 No. of Subframes......................194 Error Ratio Calculation....................195 Confidence BLER......................195 └ Over All Stop Decision.................. 195 └ Minimum Test Time..................196 └ Limit Error Rate.....................196 Repetition Defines how often the measurement is repeated. "Continuous"...
Page 195 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference For examples see chapter 2.2.19.8, "Common View Elements", on page 72. Remote command: CONFigure: L TE: S IGN: E BLer: S FRames Error Ratio Calculation Selects the formula to be used for calculation of the BLER from the number of ACK, NACK and DTX.
Page 196: Rlc Throughput Measurement Configuration
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Minimum Test Time ← Confidence BLER Specifies the minimum test time of a confidence BLER measurement as number of processed subframes. During this time no pass/fail decision is allowed. Minimum test times are for example specified in 3GPP TS 36.521 Annex G.4. They are necessary if the test conditions introduce fluctuations disturbing the statistical inde- pendence of the single bit error events (e.g.
Page 197 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference RLC Throughput (Softkey) The softkey shows the current measurement state. Additional measurement substates can be retrieved via remote control. Remote command: INITiate: L TE: S IGN: T HRoughput STOP: L TE: S IGN: T HRoughput ABORt:...
Page 198 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Results For a detailed description of the results, see chapter 2.2.20.2, "Measurement Results", on page 74. Remote command: etc. FETCh: L TE: S IGN: T HRoughput? etc. FETCh: L TE: S IGN: T HRoughput: T RACe: U L: P DU: C URRent? etc.
Page 199: Annex: Ue Capabilities
® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.20 Annex: UE Capabilities This section describes the UE capability information displayed in the main view, if the UE capabilities area is maximized. See also chapter 2.4.1.4, "UE Capabilities", on page 100. All capability information is transmitted by the UE in the information element UE- EUTRA-Capability described in 3GPP TS 36.331.
Page 200 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference UE Category UE category of the UE, defining several transport channel and physical channel parameters for UL and DL (for details see 3GPP TS 36.306) Remote command: SENSe: L TE: S IGN: U ECapability: U ECategory? Feature Group Indicators 32-bit value, containing one bit per feature group ("1"...
Page 201 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference 2.4.20.2 PDCP UE Capabilities The following UE capability information indicates in which way the UE supports the Packet Data Convergence Protocol (PDCP) described in 3GPP TS 36.323. Fig. 2-92: PDCP UE capabilities ROHC RTP to ROHCv2 IP..................201 Max Num ROHC Context Sessions................
Page 202 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference UE TX Antenna Selection Supported................202 UE-Specific Ref. Sigs. Supported................202 enhanced Dual layer FDD/TDD Supported..............202 Two Antenna Ports for PUCCH Supported..............202 tm9 with 8TX FDD Supported..................202 pmi Disabling Supported..................... 203 cross Carrier Scheduling Supported................
Page 203 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference pmi Disabling Supported Support of PMI disabling Remote command: SENSe: L TE: S IGN: U ECapability: P LAYer: P DSupport? SENSe: L TE: S IGN: U ECapability: F AUeeutra: P LAYer: P DSupport? SENSe:...
Page 204 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-94: RF UE capabilities Supported Bands......................204 Supported Band Combination v1020................204 Supported Band Combination v1090................205 Supported Bands The UE supports all listed operating bands. Column "Half Duplex" indicates whether the UE supports only half duplex operation for the band.
Page 205 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Example: bandwidth class = "abc", MIMO capability = "244" means 2 layers for class a, 4 layers for class b and c Remote command: SENSe: L TE: S IGN: U ECapability: R F: B COMbination: V <Number>: B CSet? SENSe:...
Page 206 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 2-95: Measurement UE capabilities Inter-Freq Need for Gaps.................... 206 Inter-RAT Need for Gaps.................... 206 Inter-Freq Need for Gaps v1020................. 207 Inter-RAT Need for Gaps v1020................. 207 Inter-Freq Need for Gaps Indicates the need for downlink measurement gaps when using a certain E-UTRA band and measuring a certain E-UTRA band.
Page 207 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Inter-Freq Need for Gaps v1020 Indicates the need for downlink measurement gaps when using a certain E-UTRA band combination for carrier aggregation and measuring a certain E-UTRA band. Each column corresponds to a specific used band combination, each row to a specific mea- sured E-UTRA band.
Page 208 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference └ Supported Bands..................208 └ e Redirection UTRA TDD................209 GERAN........................209 └ Supported Bands..................209 └ Inter-RAT PS HO to GERAN................ 209 └ dtm........................ 209 └ e Redirection GERAN................... 209 CDMA2000 HRPD...................... 209 └...
Page 209 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference e Redirection UTRA TDD ← UTRA-TDD128 Support of enhanced redirection to UTRA TDD, using system information provided upon redirection. Remote command: SENSe: L TE: S IGN: U ECapability: I RAT: U TDD128: E REDirection: U TDD? SENSe:...
Page 210 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference TX Config ← CDMA2000 HRPD Support of single/dual transmitter. Dual transmitter allows the UE to transmit simultane- ously on E-UTRAN and HRPD. Remote command: SENSe: L TE: S IGN: U ECapability: I RAT: C HRPd: T CONfig? RX Config ←...
Page 211 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference e CSFB dual ← CDMA2000 1xRTT Support of enhanced CS fallback to CDMA2000 1xRTT for dual Rx/Tx configuration Remote command: SENSe: L TE: S IGN: U ECapability: I RAT: C XRTt: E CDual? SENSe:...
Page 212 ® LTE Signaling R&S CMW-KM5xx/-KS5xx GUI Reference Intra Freq SI-Acquisition for HO.................. 212 Inter Freq SI-Acquisition for HO.................. 212 utran SI-Acquisition for HO..................212 Intra Freq SI-Acquisition for HO Support of system information acquisition for intra-frequency neighbor cells Remote command: SENSe:...
Page 213: Programming
® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming 2.4.20.10 FDD/TDD Additional E-UTRA Capabilities The capability report sections "fdd-Add-UE-EUTRA-Capabilities" and "tdd-Add-UE- EUTRA-Capabilities" are only relevant for UEs that support both FDD and TDD. In that case, the previous sections contain information that applies to FDD and TDD. Features that are indicated as supported are supported in both modes.
Page 214: General Configuration
® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming ● General Configuration................... 214 ● BLER Tests......................238 ● RLC Throughput Tests..................243 2.5.1 General Configuration The LTE signaling application is programmed as follows: ● The application is controlled by SCPI commands with the following syn- tax: ...:LTE:SIGN:...
Page 215 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming ROUTe:LTE:SIGN:SCENario:TROFading RF1C,RX1,RF1C,TX1,IQ2O,RF3C,TX2,IQ4O ROUTe:LTE:SIGN:SCENario:MTFading RF1C,RX1,RF1C,TX1,IQ2O,IQ4O,RF2C,TX3,IQ6O,IQ8O CONFigure:LTE:SIGN:RFSettings:EATTenuation:OUTPut1 2 CONFigure:LTE:SIGN:RFSettings:EATTenuation:OUTPut2 2 CONFigure:LTE:SIGN:RFSettings:EATTenuation:INPut 2 // ***************************************************************************** // Define RF paths for SISO carrier aggregation with or without external fading. // ROUTe commands also activate the scenario. Send only one of the two commands. // ***************************************************************************** ROUTe:LTE:SIGN:SCENario:CATRfout RF1C,RX1,RF1C,TX1,RF3C,TX2 ROUTe:LTE:SIGN:SCENario:CATF RF1C,RX1,RF1C,TX1,IQ2O,RF3C,TX2,IQ4O...
Page 216 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Configure the PCC user-defined band: UL/DL separation, band indicator, // minimum and maximum DL and UL channel numbers // and carrier center frequencies corresponding to these channel numbers. // Configure the SCC user-defined band. // ***************************************************************************** CONFigure:LTE:SIGN:RFSettings:PCC:UDEFined:UDSeparation 200E+6 CONFigure:LTE:SIGN:RFSettings:PCC:UDEFined:BINDicator 3...
Page 217 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:SIGN:FADing:PCC:FSIMulator:RESTart:MODE AUTO CONFigure:LTE:SIGN:FADing:PCC:FSIMulator:GLOBal:SEED 0 CONFigure:LTE:SIGN:FADing:PCC:FSIMulator:ILOSs:MODE NORMal CONFigure:LTE:SIGN:FADing:PCC:FSIMulator:DSHift:MODE USER CONFigure:LTE:SIGN:FADing:PCC:FSIMulator:DSHift 6 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:ENABle ON CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:STANdard EP5Low CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:RESTart:MODE AUTO CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:GLOBal:SEED 0 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:ILOSs:MODE NORMal CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:DSHift:MODE USER CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:DSHift 6 // ***************************************************************************** // Configure AWGN insertion for the PCC downlink: // Enable AWGN, set min noise/system BW ratio, set signal to noise ratio // and query calculated noise power.
Page 218 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** CONFigure:LTE:SIGN:DL:PCC:OCNG ON // ***************************************************************************** // Define power offset and power ratio index // for calculation of the PDSCH power level. // ***************************************************************************** CONFigure:LTE:SIGN:DL:PCC:PDSCh:PA ZERO CONFigure:LTE:SIGN:DL:PCC:PDSCh:RINDex 1 // ***************************************************************************** // Define the AWGN power level (also activates the AWGN interferer). // ***************************************************************************** CONFigure:LTE:SIGN:DL:PCC:AWGN -100 2.5.1.4...
Page 219 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming 2.5.1.5 Configuring Physical Cell Setup // ***************************************************************************** // Define channel bandwidth and physical cell ID for PCC and SCC. // Select cyclic prefix and configure normal uplink signal (not SRS). // Configure srs-SubframeConfig and srs-ConfigIndex manually. // Use UL/DL configuration 1 and special subframe configuration 5.
Page 220 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:SIGN:NCELl:EVDO:CELL2 ON, USC, 799, 6, OFF CONFigure:LTE:SIGN:NCELl:TDSCdma:CELL1 ON, OB1, 9500, #H1, ON CONFigure:LTE:SIGN:NCELl:TDSCdma:CELL2 ON, OB2, 10100, #H2, ON // ***************************************************************************** // Specify neighbor cell reselection thresholds per technology. // ***************************************************************************** CONFigure:LTE:SIGN:NCELl:LTE:THResholds:LOW 5 CONFigure:LTE:SIGN:NCELl:GSM:THResholds:LOW 5 CONFigure:LTE:SIGN:NCELl:WCDMa:THResholds:LOW 5 CONFigure:LTE:SIGN:NCELl:CDMA:THResholds:LOW 10 CONFigure:LTE:SIGN:NCELl:EVDO:THResholds:LOW 10...
Page 221 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Configure timers. // ***************************************************************************** CONFigure:LTE:SIGN:CELL:TOUT:OSYNch 40 CONFigure:LTE:SIGN:CELL:TOUT:T3412 180 // ***************************************************************************** // Configure NAS signaling settings: // Disable sending of a DNS IP address to the UE, configure reject causes, // enable IE "EPS Network Feature Support" and configure its contents. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:SDNSpco OFF CONFigure:LTE:SIGN:CELL:RCAuse:ATTach CONG22...
Page 222 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:SIGN:CONNection:CTYPe TEST CONFigure:LTE:SIGN:CONNection:TMODe ON CONFigure:LTE:SIGN:CONNection:RLCMode? CONFigure:LTE:SIGN:CONNection:IPVersion? CONFigure:LTE:SIGN:CONNection:APN? CONFigure:LTE:SIGN:CONNection:QCI? CONFigure:LTE:SIGN:CONNection:SIBReconfig RRCReconfig CONFigure:LTE:SIGN:CONNection:KRRC OFF CONFigure:LTE:SIGN:CONNection:RITimer 20 // ***************************************************************************** // Enable usage of external DAU and specify network segment and network ID // of instrument with external DAU. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:EDAU:ENABle ON CONFigure:LTE:SIGN:CONNection:EDAU:NSEGment A...
Page 223 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // Activate the GSM target. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:CSFB:GSM G09, 1000, G18 CONFigure:LTE:SIGN:CONNection:CSFB:WCDMa OB1, 10600 CONFigure:LTE:SIGN:CONNection:CSFB:DESTination GSM // ***************************************************************************** // Configure HARQ for the downlink: enable HARQ, allow 4 transmissions and // specify user-defined redundancy version sequence. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:HARQ:DL:ENABle ON CONFigure:LTE:SIGN:CONNection:HARQ:DL:NHT 4...
Page 224 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:SIGN:CONNection:SCC:BEAMforming:NOLayers L2 CONFigure:LTE:SIGN:CONNection:SCC:BEAMforming:MATRix 0,0,0.4,0.6,270,15 // ***************************************************************************** // Select user-defined channels as scheduling type for PCC and SCC. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:PCC:STYPe UDCH CONFigure:LTE:SIGN:CONNection:SCC:STYPe UDCH 2.5.1.8 Configuring Connected DRX // ***************************************************************************** // Enable connected DRX with user-defined settings and configure all settings. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:CDRX:ENABle UDEF CONFigure:LTE:SIGN:CONNection:CDRX:ODTimer PSF3...
Page 225 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Configure the same settings for the SCC. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:SCC:STYPe RMC CONFigure:LTE:SIGN:CONNection:SCC:RMC:DL N50,Q16,KEEP CONFigure:LTE:SIGN:CONNection:SCC:RMC:RBPosition:DL HIGH CONFigure:LTE:SIGN:CONNection:SCC:RMC:VERSion:DL 1 CONFigure:LTE:SIGN:CONNection:SCC:RMC:DL2 N50,Q16,KEEP CONFigure:LTE:SIGN:CONNection:SCC:RMC:RBPosition:DL2 HIGH CONFigure:LTE:SIGN:CONNection:SCC:RMC:VERSion:DL2 1 // ***************************************************************************** // Instead of configuring the same settings for stream 1 and stream 2, you can // apply the stream 1 settings to all streams and skip the "DL2"...
Page 226 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // Query the maximum expected throughput for each SCC stream, for the sum of // the SCC streams and for the sum of all PCC and SCC streams. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:SCC:STYPe UDCHannels CONFigure:LTE:SIGN:CONNection:SCC:UDCHannels:DL1 15,12,Q64,26 CONFigure:LTE:SIGN:CONNection:SCC:UDCHannels:DL2 15,12,Q64,26 SENSe:LTE:SIGN:CONNection:SCC:UDCHannels:DL1:CRATe:ALL? SENSe:LTE:SIGN:CONNection:SCC:UDCHannels:DL2:CRATe:ALL?
Page 227 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming SENSe:LTE:SIGN:CONNection:PCC:UDTTibased:DL1:CRATe:ALL? SENSe:LTE:SIGN:CONNection:PCC:UDTTibased:DL2:CRATe:ALL? SENSe:LTE:SIGN:CONNection:UDTTibased:UL:CRATe:ALL? // ***************************************************************************** // Configure the same settings for the SCC and query the resulting code rates. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:SCC:STYPe UDTTibased CONFigure:LTE:SIGN:CONNection:SCC:UDTTibased:DL1 3,15,12,Q64,26 CONFigure:LTE:SIGN:CONNection:SCC:UDTTibased:DL1 4,15,12,Q64,26 CONFigure:LTE:SIGN:CONNection:SCC:UDTTibased:DL2 3,15,12,Q64,26 CONFigure:LTE:SIGN:CONNection:SCC:UDTTibased:DL2 4,15,12,Q64,26 CONF:LTE:SIGN:CONN:SCC:UDTT:DL1:ALL 50,48,45,39,33,27,21,15,9,3,0,0,3,6,9,12,15, 18,21,24,Q64,Q64,Q64,Q64,Q64,Q64,Q64,Q64,Q64,Q64,26,26,26,26,26,26,26,26,26,26 CONF:LTE:SIGN:CONN:SCC:UDTT:DL2:ALL 50,48,45,39,33,27,21,15,9,3,0,0,3,6,9,12,15, 18,21,24,Q64,Q64,Q64,Q64,Q64,Q64,Q64,Q64,Q64,Q64,26,26,26,26,26,26,26,26,26,26 SENSe:LTE:SIGN:CONNection:SCC:UDTTibased:DL1:CRATe:ALL?
Page 228 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming 18,21,24,15,14,13,12,11,10,9,8,7,6 CONF:LTE:SIGN:CONN:PCC:FCTT:DL2:ALL 50,48,45,39,33,27,21,15,9,3,0,0,3,6,9,12,15, 18,21,24,15,14,13,12,11,10,9,8,7,6 // ***************************************************************************** // Instead of configuring the same settings for stream 1 and stream 2, you can // apply the stream 1 settings to all streams and skip the "DL2" commands. // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:PCC:DLEQual ON CONFigure:LTE:SIGN:CONNection:SCC:DLEQual ON...
Page 229 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:SIGN:CONNection:PCC:STYPe SPS CONFigure:LTE:SIGN:CONNection:PCC:SPS:TIConfig ON CONFigure:LTE:SIGN:CONNection:PCC:SPS:SINTerval S20 CONFigure:LTE:SIGN:CONNection:PCC:SPS:DL 10,20,QPSK,9 CONFigure:LTE:SIGN:CONNection:PCC:SPS:UL 10,20,QPSK,9 SENSe:LTE:SIGN:CONNection:PCC:SPS:DL:CRATe:ALL? SENSe:LTE:SIGN:CONNection:PCC:SPS:UL:CRATe:ALL? SENSe:LTE:SIGN:CONNection:ETHRoughput:DL:ALL? SENSe:LTE:SIGN:CONNection:ETHRoughput:UL? 2.5.1.14 Configuring CQI Reporting // ***************************************************************************** // Enable periodic CQI reporting and set the cqi-pmi-ConfigIndex for PCC // and SCC, FDD and TDD. Query the reporting period and reporting offset // resulting for the active duplex mode.
Page 230 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:SIGN:MMONitor:IPADdress IP2 CONFigure:LTE:SIGN:MMONitor:IPADdress? 2.5.1.17 Attaching the UE and Activating an SCC // ***************************************************************************** // Connect the UE (switched off). Switch on the DL signal. Query the cell // state until it equals ON,ADJ (DL signal available at RF connector). // ***************************************************************************** WAITKEY >Ensure that the UE is connected to the instrument and switched off<...
Page 231 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming 2.5.1.19 Setting up a Test Mode Connection This section is only relevant for test mode connections, not for data application tests. // ***************************************************************************** // Set up a mobile terminated test mode connection. // Query the connection state until it equals CEST (connection established). // Query the IPv4 addresses assigned to the UE.
Page 232 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming SENSe:LTE:SIGN:UEReport:SCC:SCELl:RANGe? SENSe:LTE:SIGN:UEReport:NCELl:LTE:CELL1? SENSe:LTE:SIGN:UEReport:NCELl:LTE:CELL1:RANGe? SENSe:LTE:SIGN:UEReport:NCELl:GSM:CELL1? SENSe:LTE:SIGN:UEReport:NCELl:GSM:CELL1:RANGe? SENSe:LTE:SIGN:UEReport:NCELl:WCDMa:CELL1? SENSe:LTE:SIGN:UEReport:NCELl:WCDMa:CELL1:RANGe? SENSe:LTE:SIGN:UEReport:NCELl:CDMA:CELL1? SENSe:LTE:SIGN:UEReport:NCELl:EVDO:CELL1? SENSe:LTE:SIGN:UEReport:NCELl:TDSCdma:CELL1? SENSe:LTE:SIGN:UEReport:NCELl:TDSCdma:CELL1:RANGe? 2.5.1.22 Querying UE Information // ***************************************************************************** // Query all UE information results. // ***************************************************************************** SENSe:LTE:SIGN:UESinfo:IMEI? SENSe:LTE:SIGN:UESinfo:IMSI? SENSe:LTE:SIGN:UESinfo:VDPReference? SENSe:LTE:SIGN:UESinfo:UEUSage? SENSe:LTE:SIGN:UESinfo:UEADdress:IPV4? SENSe:LTE:SIGN:UESinfo:UEADdress:IPV6? SENSe:LTE:SIGN:UESinfo:UEADdress:DEDBearer? 2.5.1.23 Querying UE Capability Report Contents // ***************************************************************************** // Query general UE capability information.
Page 233 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Query physical layer UE capabilities. // ***************************************************************************** SENSe:LTE:SIGN:UECapability:PLAYer:UTASupported? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:UTASupported? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:UTASupported? SENSe:LTE:SIGN:UECapability:PLAYer:USRSsupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:USRSsupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:USRSsupport? SENSe:LTE:SIGN:UECapability:PLAYer:EDLFsupport? SENSe:LTE:SIGN:UECapability:PLAYer:EDLTsupport? SENSe:LTE:SIGN:UECapability:PLAYer:TAPPsupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:TAPPsupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:TAPPsupport? SENSe:LTE:SIGN:UECapability:PLAYer:TWEFsupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:TWEFsupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:TWEFsupport? SENSe:LTE:SIGN:UECapability:PLAYer:PDSupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:PDSupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:PDSupport? SENSe:LTE:SIGN:UECapability:PLAYer:CCSSupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:CCSSupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:CCSSupport? SENSe:LTE:SIGN:UECapability:PLAYer:SPPSupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:SPPSupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:SPPSupport? SENSe:LTE:SIGN:UECapability:PLAYer:MCPCsupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:MCPCsupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:MCPCsupport? SENSe:LTE:SIGN:UECapability:PLAYer:NURClist?
Page 234 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming SENSe:LTE:SIGN:UECapability:RF:BCOMbination:V1090:EUTRa1? SENSe:LTE:SIGN:UECapability:RF:BCOMbination:V1090:EUTRa2? // ***************************************************************************** // Query measurement UE capabilities. // ***************************************************************************** SENSe:LTE:SIGN:UECapability:MEAS:IFNGaps? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:UFDD? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:UTDD128? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:GERan? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:CHRPd? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:CXRTt? SENSe:LTE:SIGN:UECapability:MEAS:IFNGaps:V1020? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V1020:UFDD? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V1020:UTDD128? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V1020:GERan? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V1020:CHRPd? SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V1020:CXRTt? // ***************************************************************************** // Query inter-RAT UE capabilities. // ***************************************************************************** SENSe:LTE:SIGN:UECapability:IRAT:UFDD:SUPPorted? SENSe:LTE:SIGN:UECapability:IRAT:UFDD:EREDirection:UTRA? SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:EREDirection:UTRA? SENSe:LTE:SIGN:UECapability:TAUeeutra:IRAT:EREDirection:UTRA? SENSe:LTE:SIGN:UECapability:IRAT:UTDD128:SUPPorted?
Page 235 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming SENSe:LTE:SIGN:UECapability:IRAT:CXRTt:ECDual? SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:CXRTt:ECDual? SENSe:LTE:SIGN:UECapability:TAUeeutra:IRAT:CXRTt:ECDual? // ***************************************************************************** // Query CSG proximity indication UE capabilities. // ***************************************************************************** SENSe:LTE:SIGN:UECapability:CPINdication:FREQuency:INTRa? SENSe:LTE:SIGN:UECapability:CPINdication:FREQuency:INTer? SENSe:LTE:SIGN:UECapability:CPINdication:UTRan? // ***************************************************************************** // Query neighbor cell SI-acquisition UE capabilities. // ***************************************************************************** SENSe:LTE:SIGN:UECapability:NCSacq:FREQuency:INTRa? SENSe:LTE:SIGN:UECapability:FAUeeutra:NCSacq:FREQuency:INTRa? SENSe:LTE:SIGN:UECapability:TAUeeutra:NCSacq:FREQuency:INTRa? SENSe:LTE:SIGN:UECapability:NCSacq:FREQuency:INTer? SENSe:LTE:SIGN:UECapability:FAUeeutra:NCSacq:FREQuency:INTer? SENSe:LTE:SIGN:UECapability:TAUeeutra:NCSacq:FREQuency:INTer? SENSe:LTE:SIGN:UECapability:NCSacq:UTRan? SENSe:LTE:SIGN:UECapability:FAUeeutra:NCSacq:UTRan? SENSe:LTE:SIGN:UECapability:TAUeeutra:NCSacq:UTRan?
Page 236 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // Query a list of possible handover destinations (signaling applications). // Select a handover destination from the list. // Select the handover mechanism. // Wait until the destination is ready to receive a handover. // Initiate the handover.
Page 237 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:SIGN:SMS:OUTGoing:OADDress '3526735' CONFigure:LTE:SIGN:SMS:OUTGoing:SCTStamp:TSOurce DATE CONFigure:LTE:SIGN:SMS:OUTGoing:SCTStamp:DATE 15,5,2014 CONFigure:LTE:SIGN:SMS:OUTGoing:SCTStamp:TIME 14,40,50 CALL:LTE:SIGN:PSWitched:ACTion SMS // ***************************************************************************** // Reset parameters related to an already received short message. // Wait until a message from the UE has been received. // Query information about the received message: encoding, message content, // message length, message segments.
Page 238: Bler Tests
® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** CONFigure:LTE:SIGN:CONNection:PCC:RMC:DL N50,QPSK,T5 CONFigure:LTE:SIGN:CONNection:PCC:RMC:UL N50,QPSK,T6 CONFigure:LTE:SIGN:CONNection:PCC:RMC:RBPosition:DL LOW CONFigure:LTE:SIGN:CONNection:PCC:RMC:RBPosition:UL LOW // ***************************************************************************** // Modify the RS EPRE level for the PCC. // ***************************************************************************** CONFigure:LTE:SIGN:DL:PCC:RSEPre:LEVel -83 // ***************************************************************************** // Command the UE to change the UL power by +3 dB: // Select single pattern as active TPC setup, define a single pattern of // 3 steps UP, execute the pattern.
Page 239 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming You can start the measurement using INIT:LTE:SIGN:EBLer and retrieve the results using FETCh commands. The examples in this section focus on commands directly related to the BLER mea- surement. For general configuration of the signaling application and setting up the con- nection, refer to chapter 2.5.1, "General Configuration",...
Page 240 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming 2.5.2.3 Performing a Continuous BLER Measurement // ***************************************************************************** // Start a continuous BLER measurement. // Wait until the measurement is really running. // ***************************************************************************** CONFigure:LTE:SIGN:EBLer:REPetition CONT CONFigure:LTE:SIGN:EBLer:SCONdition NONE INIT:LTE:SIGN:EBLer WHILE FETCh:LTE:SIGN:EBLer:STATe:ALL? <> "RUN","ADJ","ACT" // ***************************************************************************** // Monitor intermediate BLER results for a SISO single carrier configuration, // by sending the following commands periodically.
Page 241 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming INIT:LTE:SIGN:EBLer // ***************************************************************************** // Return BLER and throughput single results for a SISO single carrier // configuration. // ***************************************************************************** FETCh:LTE:SIGN:EBLer:ABSolute? FETCh:LTE:SIGN:EBLer:RELative? // ***************************************************************************** // Return BLER and throughput single results for a MIMO single carrier // configuration: // Overall absolute and relative results, absolute results for stream 1 and // stream 2, relative results for stream 1 and stream 2.
Page 242 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming FETCh:LTE:SIGN:EBLer:TRACe:THRoughput:PCC:MCQI:STReam2? FETCh:LTE:SIGN:EBLer:TRACe:CQIReporting:SCC:STReam1? FETCh:LTE:SIGN:EBLer:TRACe:CQIReporting:SCC:STReam2? FETCh:LTE:SIGN:EBLer:TRACe:THRoughput:SCC:MCQI:STReam1? FETCh:LTE:SIGN:EBLer:TRACe:THRoughput:SCC:MCQI:STReam2? // ***************************************************************************** // Return RI and PMI bar graphs for PCC and SCC. // ***************************************************************************** FETCh:LTE:SIGN:EBLer:PCC:RI? FETCh:LTE:SIGN:EBLer:PCC:PMI:RI1? FETCh:LTE:SIGN:EBLer:PCC:PMI:RI2? FETCh:LTE:SIGN:EBLer:SCC:RI? FETCh:LTE:SIGN:EBLer:SCC:PMI:RI1? FETCh:LTE:SIGN:EBLer:SCC:PMI:RI2? // ***************************************************************************** // Return uplink BLER results. // ***************************************************************************** FETCh:LTE:SIGN:EBLer:UPLink? // ***************************************************************************** // Return entire HARQ tables for a MIMO configuration with PCC and SCC.
Page 243: Rlc Throughput Tests
® LTE Signaling R&S CMW-KM5xx/-KS5xx Programming 2.5.3 RLC Throughput Tests The RLC throughput measurement provided by the LTE signaling application is pro- grammed as follows: ● The application is controlled by SCPI commands with the following syn- tax: ...:LTE:SIGN:THRoughput:... ● After a *RST, the measurement is switched off.
Page 244: Command Reference
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.5.3.3 Performing an RLC Throughput Measurement // ***************************************************************************** // Start the measurement and return the contents of the result table. // Query the measurement state (should be "RDY"). // ***************************************************************************** INIT:LTE:SIGN:THRoughput FETCh:LTE:SIGN:THRoughput? FETCh:LTE:SIGN:THRoughput:STATe? // ***************************************************************************** // Query the result traces.
Page 245: Conventions And General Information
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.1 Conventions and General Information The following sections describe the most important conventions and general informa- tion concerning the command reference. 2.6.1.1 SIGN SIGN is used as abbreviation of "SIGNaling<instance>". For better readability, only the abbreviated form (which is also accepted by the instrument) is given in the com- mand reference.
Page 246 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Measurement values available, no error detected. ● 1 (Measurement Timeout): The measurement has been stopped after the (configurable) measurement time- out. Measurement results may be available, however, at least a part of the mea- surement provides only INValid results or has not completed the full statistic count.
Page 247 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ● 23 (Missing Option): The ARB file cannot be played by the GPRF generator due to a missing option. ● 26 (Resource Conflict): The application could not be started or has been stopped due to a conflicting hard- ware resource or software option that is allocated by another application.
Page 248: General Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference If the error occurs again, consider the following hints: – Firmware errors can often be repaired by restoring the factory default settings. To restore these settings, restart your instrument and press the "Factory Default"...
Page 249 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:SCC:AMODe <Mode> Selects the SCC activation mode. For manual triggering of a state transition see CALL: L TE: S IGN: S CC: A CTion Parameters: <Mode> AUTO | MANual | SEMiauto AUTO: The SCC is activated automatically at UE attach, so that the state "MAC Activated"...
Page 250: Connection Control And States
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.3 Connection Control and States The commands in the following sections control the connection to the UE and retrieve connection related information. ● General Commands....................250 ● Connect/Disconnect Preparation................253 ● Handover Preparation................... 255 2.6.3.1 General Commands The following commands control the connection to the UE and retrieve connection rela-...
Page 251 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SOURce:LTE:SIGN:CELL:STATe:ALL? Returns detailed information about the "LTE Signaling" generator state. Return values: <MainState> OFF | ON | RFHandover OFF: generator switched off ON: generator has been turned on RFHandover: ready to receive a handover from another signal- ing application <SyncState>...
Page 252 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Setting up a Test Mode Connection Usage: Event Firmware/Software: V1.0.15.20 V2.1.20: added SMS V3.0.10: added DETach and HANDover Manual operation: "Connection control hotkeys" on page 113 CALL:LTE:SIGN:SCC:ACTion <SCCAction> Controls the state of the Secondary Component Carrier (SCC). Setting parameters: <SCCAction>...
Page 253 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V1.0.15.20 V2.1.20: added SMESsage, RMESsage V3.0.10: added IHANdover, OHANdover Manual operation: "Packet Switched" on page 96 FETCh:LTE:SIGN:SCC:STATe? Queries the SCC state, see also chapter 2.2.8.2, "SCC States", on page 27. Return values: <SCC State>...
Page 254 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.80 Manual operation: "Connect" on page 114 CATalog:LTE:SIGN:CONNection:DEDBearer? Queries a list of all established dedicated bearers (dedicated bearer IDs). Return values: <ID> Comma-separated list of dedicated bearer IDs as strings String example: "6 (->5, Voice)" Example: Connecting/Releasing Dedicated Bearers Usage:...
Page 255 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KS510 Manual operation: "Connect" on page 114 CONFigure:LTE:SIGN:CONNection:DEDBearer <ID> Selects a dedicated bearer as a preparation for dedicated bearer release via CALL:LTE:SIGN:PSWitched:ACTion DISConnect. Parameters: <ID> Dedicated bearer ID as string String example: "6 (->5, Voice)" To query a list of IDs for all established dedicated bearers, see CATalog:...
Page 256 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <DLChannel> DL channel number valid for the selected operating band. The related UL channel number is calculated and set automatically. For channel numbers depending on operating bands see chap- ter 2.2.16, "Operating Bands", on page 57.
Page 257 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.0.10 Manual operation: "Inter/Intra-RAT (hotkey)" on page 114 PREPare:LTE:SIGN:HANDover:CATalog:DESTination? Lists all handover destinations that can be selected using PREPare: L TE: S IGN: HANDover: D ESTination Return values: <Destination> Comma separated list of all supported destinations. Each desti- nation is represented as a string.
Page 258 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference PREPare:LTE:SIGN:HANDover:EXTernal:CDMA <BandClass>, <DLChannel> PREPare:LTE:SIGN:HANDover:EXTernal:EVDO <BandClass>, <DLChannel> Configure the destination parameters for handover to a CDMA2000 or 1xEV-DO desti- nation at another instrument. Parameters: <BandClass> USC | KCEL | NAPC | TACS | JTAC | KPCS | N45T | IM2K | NA7C | B18M | NA8S | PA4M | PA8M | IEXT | USPC | AWS | U25B | U25F | NA9C | PS7C | LO7C USC: BC 0, US-Cellular...
Page 259 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Band Class Channel Number KPCS 0 to 599 N45T 1 to 400, 472 to 871, 1039 to 1473, 1536 to 1715, 1792 to 2016 NA7C, PS7C 0 to 240 B18M 0 to 1499 NA9C 0 to 699 NA8S...
Page 260 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Table 2-18: Channel number range depending on GSM band Band Channel Number G085 128 to 251 0 to 124, 955 to 1023 512 to 885 512 to 810 PREPare:LTE:SIGN:HANDover:EXTernal:LTE <Band>, <DLChannel> Configures the destination parameters for handover to an LTE destination at another instrument.
Page 261 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <DLChannel> Downlink channel number The allowed range depends on the frequency band: OB1: 9400 to 9600 OB2: 10050 to 10125 OB3: 11500 to 12000 *RST: 10563 Example: Performing a Handover to another Instrument Firmware/Software: V3.0.20 V3.0.50: changed channel ranges Manual operation:...
Page 262: Event Log
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Operating Band Channel Number 2237 to 2563, 2587 to 2912 (step 25) 2937 to 3088 9237 to 9387 OB10 3112 to 3388, 3412 to 3687 (step 25) OB11 3712 to 3812 OB12 3837 to 3903, 3927, 3932, 3957, 3962, 3987, 3992 OB13 4017 to 4043, 4067, 4092 OB14...
Page 263: Ue Measurement Report Contents
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:ELOG:ALL? Queries all entries of the event log. For each entry three parameters are returned, from oldest to latest entry: {<Time- stamp>, <Category>, <Event>} , {<Timestamp>, <Category>, <Event>} , ... entry 1 entry 2 Return values: <Timestamp>...
Page 264: Sense:lte:sign:Uereport[:Pcc]:Rsrp
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UEReport[:PCC]:RSRP? SENSe:LTE:SIGN:UEReport:SCC:RSRP? Returns the RSRP reported by the UE for PCC or SCC. The RSRP is reported as dimensionless index. Return values: <RSRP> Range: 0 to 97 Usage: Query only Firmware/Software: V2.0.10 V3.2.70: added SCC command Options: SCC: R&S CMW-KS502/-KS552 for FDD/TDD Manual operation:...

Page 265: Sense:lte:sign:Uereport[:Pcc]:Rsrq:range
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UEReport[:PCC]:RSRQ:RANGe? SENSe:LTE:SIGN:UEReport:SCC:RSRQ:RANGe? Returns the RSRQ value range, corresponding to the RSRQ index reported by the UE for PCC or SCC. Return values: <Lower> Range: -19.5 dB to -3 dB Default unit: dB <Upper> Range: -19.5 dB to -3 dB Default unit: dB...

Page 266: Sense:lte:sign:Uereport:ncell:lte:cell
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <RSRPupper> RSRP maximum value Range: -140 dBm to -44 dBm Default unit: dBm <RSRQlower> RSRQ minimum value Range: -19.5 dB to -3 dB Default unit: dB <RSRQupper> RSRQ maximum value Range: -19.5 dB to -3 dB Default unit: dB Example: Querying UE Measurement Report Contents...

Page 267: Sense:lte:sign:Uereport:ncell:gsm:cell
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <RSRPlower> RSRP minimum value Range: -140 dBm to -44 dBm Default unit: dBm <RSRPupper> RSRP maximum value Range: -140 dBm to -44 dBm Default unit: dBm <RSRQlower> RSRQ minimum value Range: -19.5 dB to -3 dB Default unit: dB <RSRQupper>...

Page 268: Sense:lte:sign:Uereport:ncell:wcdma:cell
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <no> 1..4 Selects the GSM neighbor cell Return values: <RSSIlower> RSSI minimum value Range: -110 dBm to -48 dBm Default unit: dBm <RSSIupper> RSSI maximum value Range: -110 dBm to -48 dBm Default unit: dBm Example: Querying UE Measurement Report Contents...

Page 269: Sense:lte:sign:Uereport:ncell:cdma:cell
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <RSCPlower> RSCP minimum value Range: -120 dBm to -25 dBm Default unit: dBm <RSCPupper> RSCP maximum value Range: -120 dBm to -25 dBm Default unit: dBm <EcNOlower> Ec/No minimum value Range: -24 dB to 0 dB Default unit: dB <EcNOupper>...

Page 270: Sense:lte:sign:Uereport:ncell:evdo:cell
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UEReport:NCELl:EVDO:CELL<no>? Returns measurement report values for a selected 1xEV-DO neighbor cell. Suffix: <no> 1..4 Selects the 1xEV-DO neighbor cell Return values: <pilotPnPhase> Reported pilot PN phase value Range: 0 PN Chips to 32767 PN Chips Default unit: PN Chips <pilotStrength>...

Page 271: Ue Capabilities
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <no> 1..4 Selects the TD-SCDMA neighbor cell Return values: <RSCPlower> RSCP minimum value Range: -120 dBm to -25 dBm Default unit: dBm <RSCPupper> RSCP maximum value Range: -120 dBm to -25 dBm Default unit: dBm Example: Querying UE Measurement Report Contents...

Page 272 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ........273 SENSe:LTE:SIGN:UECapability:TAUeeutra:FGINdicators:RNADd? ..........273 SENSe:LTE:SIGN:UECapability:FGINdicators:RTEN? ........273 SENSe:LTE:SIGN:UECapability:FAUeeutra:FGINdicators:RTEN? ........273 SENSe:LTE:SIGN:UECapability:TAUeeutra:FGINdicators:RTEN? ..............273 SENSe:LTE:SIGN:UECapability:DTYPe? ..............274 SENSe:LTE:SIGN:UECapability:RREPort? SENSe:LTE:SIGN:UECapability:ASRelease? Returns the "Access Stratum Release" according to the UE capability information. Return values: <AccStratRelease> REL8 | REL9 | REL10 | REL11 | REL12 Example: Querying UE Capability Report Contents Usage:...

Page 273 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "Feature Group Indicators" on page 200 SENSe:LTE:SIGN:UECapability:FGINdicators:RNADd? SENSe:LTE:SIGN:UECapability:FAUeeutra:FGINdicators:RNADd? SENSe:LTE:SIGN:UECapability:TAUeeutra:FGINdicators:RNADd? Returns the "featureGroupIndRel9Add-r9" contained in the UE capability information. The 32-bit value contains one bit per feature group (1 = supported, 0 = not supported). Return values: <FeatureGroupInd>...

Page 274 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UECapability:RREPort? Returns whether the UE supports the delivery of RACH reports or not. Return values: <Supported> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "rach Report" on page 200 2.6.6.2 PDCP UE Capabilities...

Page 275 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V2.1.30 Manual operation: "ROHC RTP to ROHCv2 IP" on page 201 SENSe:LTE:SIGN:UECapability:PDCP:MRCSessions? Returns the maximum number of ROHC context sessions supported by the UE. Return values: <MaxSessions>...

Page 276 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ......278 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:MCPCsupport? ............279 SENSe:LTE:SIGN:UECapability:PLAYer:NURClist? ........279 SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:NURClist? ........279 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:NURClist? SENSe:LTE:SIGN:UECapability:PLAYer:UTASupported? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:UTASupported? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:UTASupported? Returns whether the UE supports transmit antenna selection or not. Return values: <UE_TXantSelSupp> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V2.1.30...

Page 277 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UECapability:PLAYer:EDLTsupport? Returns whether the UE supports enhanced dual layer (PDSCH TM8) for TDD or not. Return values: <EnDualLayTDDsup> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "enhanced Dual layer FDD/TDD Supported"...

Page 278 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Supported> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "pmi Disabling Supported" on page 203 SENSe:LTE:SIGN:UECapability:PLAYer:CCSSupport? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:CCSSupport? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:CCSSupport? Returns whether the UE supports cross-carrier scheduling for CA. Return values: <Supported>...

Page 279: Manual Operation: See
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.80 Manual operation: "multi Cluster PUSCH within CC Supported" on page 203 SENSe:LTE:SIGN:UECapability:PLAYer:NURClist? SENSe:LTE:SIGN:UECapability:FAUeeutra:PLAYer:NURClist? SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:NURClist? Returns a list of values, indicating whether the UE supports non-contiguous UL resource allocations within a CC for the individual E-UTRA operating bands. Return values: <SupportedBand>...

Page 280: Sense:lte:sign:Uecapability:rf:bcombination:v:Eutra
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.1.30 V3.0.30: added band 44 Manual operation: "Supported Bands" on page 204 SENSe:LTE:SIGN:UECapability:RF:HDUPlex? Returns a list of values indicating whether the UE supports only half duplex operation for the individual E-UTRA operating bands. Return values: <HalfDuplex>...
Page 281 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <Number> 1020,1090 Selects the UE capability report element to be evaluated: RF-Parameters-v1020 or RF-Parameters-v1090 <BandNr> 1..2 Selects which band of the band combinations shall be returned: first band or second band Return values: <Band>...

Page 282 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "Supported Band Combination v1020" on page 204 SENSe:LTE:SIGN:UECapability:RF:BCOMbination:V<Number>: EUTRa<BandNr>:MCAPability:UL? SENSe:LTE:SIGN:UECapability:RF:BCOMbination:V<Number>: EUTRa<BandNr>:MCAPability:DL? Returns the number of layers supported by the UE for spatial multiplexing in the uplink or downlink. The information is returned for a selected band of all supported carrier aggregation band combinations.

Page 283 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference The full list contains 45 times 45 values. The 45 values/repetitions correspond to band 1 to 44 plus user-defined band. The list is ordered as follows: {measured band: 1, 2, ..., 44, user-defined} used band: 1 {measured band: 1, 2, ..., 44, user-defined} , ...,...

Page 284 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference {used band: 1, 2, ..., 44, user-defined} measured band <Index> Query parameters: <Index> OB1 | OB2 | OB3 | OB4 | OB5 | OB6 | OB7 | OB8 | OB9 | OB10 | OB11 | OB12 | OB13 | OB14 | OB15 | OB16 | OB17 | OB18 | OB19 | OB20 | OB21 | OB22 | OB23 | OB24 | OB25 | OB26 | OB27 | OB28 | OB29 | OB30 | OB31 | OB32...

Page 285 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Value> OFF | ON Without <Index>: 32 x 45 = 1440 values With <Index>: 45 values Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "Inter-RAT Need for Gaps" on page 206 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:GERan? [<Index>] Returns a list of values indicating the need for downlink measurement gaps when oper-...

Page 286 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:CHRPd? [<Index>] Returns a list of values indicating the need for downlink measurement gaps when oper- ating on a specific E-UTRA band and measuring on a specific CDMA2000 HRPD band. The full list contains 18 times 45 values. Each block of 18 values corresponds to the CDMA2000 band classes.

Page 287 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Via the optional parameter <Index>, you can alternatively query the list for a single CDMA2000 band class: {used band: 1, 2, ..., 44, user-defined} measured band <Index> Query parameters: <Index> BC0 | BC1 | BC2 | BC3 | BC4 | BC5 | BC6 | BC7 | BC8 | BC9 | BC10 | BC11 | BC12 | BC13 | BC14 | BC15 | BC16 | BC17 Selects the measured CDMA2000 band class, for which the list shall be returned.

Page 288 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Query parameters: <Index> OB1 | OB2 | OB3 | OB4 | OB5 | OB6 | OB7 | OB8 | OB9 | OB10 | OB11 | OB12 | OB13 | OB14 | OB15 | OB16 | OB17 | OB18 | OB19 | OB20 | OB21 | OB22 | OB23 | OB24 | OB25 | OB26 | OB27 | OB28 | OB29 | OB30 | OB31 | OB32 | OB33 | OB34 | OB35 | OB36 | OB37 | OB38 | OB39 | OB40 | OB41 | OB42 |...

Page 289 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Value> OFF | ON Without <Index>: 32 x (n+1) values With <Index>: n+1 values Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "Inter-RAT Need for Gaps v1020" on page 207 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V<number>:UTDD<n>? [<Index>]...

Page 290 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "Inter-RAT Need for Gaps v1020" on page 207 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V<number>:GERan? [<Index>] Returns a list of values indicating the need for downlink measurement gaps when oper- ating on a specific E-UTRA band combination and measuring on a specific GERAN band.

Page 291 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference The full list contains 18 times n+1 values. Each block of 18 values corresponds to the CDMA2000 band classes. Each repetition corresponds to a supported band combina- tion: {measured band: 0, 1, ..., 17} used band combination 0 {measured band: 0, 1, ..., 17} , ...,...

Page 292 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <number> 1020 Query parameters: <Index> BC0 | BC1 | BC2 | BC3 | BC4 | BC5 | BC6 | BC7 | BC8 | BC9 | BC10 | BC11 | BC12 | BC13 | BC14 | BC15 | BC16 | BC17 Selects the measured CDMA2000 band class, for which the list shall be returned.

Page 293: Bands By The Ue
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference .......297 SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:CXRTt:ECCMob? .......297 SENSe:LTE:SIGN:UECapability:TAUeeutra:IRAT:CXRTt:ECCMob? ..........297 SENSe:LTE:SIGN:UECapability:IRAT:CXRTt:ECDual? .........297 SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:CXRTt:ECDual? .........297 SENSe:LTE:SIGN:UECapability:TAUeeutra:IRAT:CXRTt:ECDual? SENSe:LTE:SIGN:UECapability:IRAT:UFDD:SUPPorted? Returns a list of values indicating the support of the individual UTRA FDD operating bands by the UE. Return values: <SupportedBand> OFF | ON 32 values: band 1, ..., band 32 Example:...

Page 294: Sense:lte:sign:Uecapability:irat:utdd128:Eredirection:utdd
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UECapability:IRAT:UTDD128:EREDirection:UTDD? SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:EREDirection:UTDD? SENSe:LTE:SIGN:UECapability:TAUeeutra:IRAT:EREDirection:UTDD? Returns whether the UE supports an enhanced redirection to UTRA TDD or not. Return values: <Supported> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "e Redirection UTRA TDD"...

Page 295: Sense:lte:sign:Uecapability:irat:geran:dtm
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UECapability:IRAT:GERan:DTM? Returns whether the UE supports DTM in GERAN or not. Return values: <Supported> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "dtm" on page 209 SENSe:LTE:SIGN:UECapability:IRAT:GERan:EREDirection? Returns whether the UE supports an enhanced redirection to GERAN or not.

Page 296 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V2.1.30 Manual operation: "TX Config" on page 210 SENSe:LTE:SIGN:UECapability:IRAT:CHRPd:RCONfig? Returns whether the UE supports dual receiver for HRPD/E-UTRAN or only single receiver. Return values: <RXconfiguration> SINGle | DUAL Example: Querying UE Capability Report Contents Usage: Query only...

Page 297: Sense:lte:sign:Uecapability:irat:cxrtt:rconfig
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UECapability:IRAT:CXRTt:RCONfig? Returns whether the UE supports dual receiver for 1xRTT/E-UTRAN or only single receiver. Return values: <RXconfiguration> SINGle | DUAL Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V2.1.30 Manual operation: "RX Config"...

Page 298 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Supported> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "e CSFB dual" on page 211 2.6.6.7 CSG Proximity Indication Capabilities The following commands query whether the UE supports proximity indications or not........

Page 299 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Supported> OFF | ON Example: Querying UE Capability Report Contents Usage: Query only Firmware/Software: V3.2.80 Manual operation: "utran Proximity Indication" on page 211 2.6.6.8 Neighbor Cell SI-Acquisition Capabilities The following commands query whether the UE supports system information requests for handover or not.

Page 300 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V3.2.80 Manual operation: "Inter Freq SI-Acquisition for HO" on page 212 SENSe:LTE:SIGN:UECapability:NCSacq:UTRan? SENSe:LTE:SIGN:UECapability:FAUeeutra:NCSacq:UTRan? SENSe:LTE:SIGN:UECapability:TAUeeutra:NCSacq:UTRan? Returns whether the UE supports system information acquisition for UMTS neighbor cells or not. Return values: <Supported>...

Page 301: Ue Info
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.80 Manual operation: "Standalone GNSS Location" on page 212 2.6.7 UE Info The following queries retrieve information about the connected mobile as shown in the "UE Info" area of the main view................

Page 302 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Value> CVONly | IPVonly | CVPRefered | IPVPrefered CVONly: CS voice only IPVonly: IMS PS voice only CVPRefered: CS voice preferred, IMS PS voice as secondary IPVPrefered: IMS PS voice preferred, CS voice as secondary Example: Querying UE Information Usage:...

Page 303: Routing Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference {<ID>, <TFTPortLow>, <TFTPortHigh>} , ..., {...} Bearer 1 Bearer n Return values: <ID> Dedicated bearer ID as string Example: "6 (->5, Voice)" means dedicated bearer 6, mapped to default bearer 5, using dedicated bearer profile "Voice" <TFTPortLow>...

Page 304 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ................324 ROUTe:LTE:SIGN:SCENario:IORI ..................325 ROUTe:LTE:SIGN:SCENario? ....................325 ROUTe:LTE:SIGN? ......327 CONFigure:LTE:SIGN:RFSettings[:PCC]:EATTenuation:OUTPut<n> ....... 327 CONFigure:LTE:SIGN:RFSettings:SCC:EATTenuation:OUTPut<n> ........327 CONFigure:LTE:SIGN:RFSettings[:PCC]:EATTenuation:INPut ............328 CONFigure:LTE:SIGN:RFSettings:EDC:OUTPut .............. 328 CONFigure:LTE:SIGN:RFSettings:EDC:INPut ROUTe:LTE:SIGN:SCENario:SCELl <RXConnector>, <RXConverter>, <TXConnector>, <TXConverter> Activates the scenario "1 Cell - 1 RF Out" and selects the RF input (RX) and output (TX) path, i.e.

Page 305 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ROUTe:LTE:SIGN:SCENario:TRO <RXConnector>, <RXConverter>, <TXConnector>, <TXConverter>, <TX2Connector>, <TX2Converter> Activates the scenario "1 Cell - 2 RF Out", using two RF output (TX) paths and one RF input (RX) path. Selects the RF connectors and RX/TX modules to be used. To query the active scenario, use ROUTe:...

Page 306 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ROUTe:LTE:SIGN:SCENario:FRO <RXConnector>, <RXConverter>, <TX1Connector>, <TX1Converter>, <TX2Connector>, <TX2Converter>, <TX3Connector>, <TX3Converter>, <TX4Connector>, <TX4Converter> Activates the scenario "1 Cell - 4 RF Out", using four RF output (TX) paths and one RF input (RX) path. Selects the RF connectors and RX/TX modules to be used. To query the active scenario, use ROUTe:...

Page 307 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <TX3Converter> TX1 | TX2 | TX3 | TX4 TX module for the third output path <TX4Connector> RF1C | RF1O | RF2C | RF3C | RF3O | RF4C | RFAC | RFAO | RFBC RF connector for the fourth output path <TX4Converter>...

Page 308 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <PCCTXConverter> TX1 | TX2 | TX3 | TX4 TX module for the PCC output path. Select different modules for the two output paths. <SCCTXConnector> RF1C | RF1O | RF2C | RF3C | RF3O | RF4C | RFAC | RFAO | RFBC RF connector for the SCC output path <SCCTXConverter>...

Page 309 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <PCCTX1Connector> RF1C | RF1O | RF2C | RF3C | RF3O | RF4C | RFAC | RFAO | RFBC RF connector for the first PCC output path. Select different con- nectors for the two PCC paths. <PCCTX1Converter>...

Page 310 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference All instruments are equipped with the RF 1 and RF 2 connectors and one RX and TX module. Additional RF connectors and RX/TX modules are optional. See also: "Signal Path Settings" in the R&S CMW user manual, chapter "Remote Con- trol"...

Page 311 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference See also: "Signal Path Settings" in the R&S CMW user manual, chapter "Remote Con- trol" Connector names: ● RF1C | RF2C | RF3C | RF4C | = RF 1 COM to RF 4 COM, front panel ●...

Page 312 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference See also: "Signal Path Settings" in the R&S CMW user manual, chapter "Remote Con- trol" Connector names: ● RF1C | RF2C | RF3C | RF4C | = RF 1 COM to RF 4 COM, front panel ●...

Page 313 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ● RFAO = virtual name for the RF OUT connectors ● IQ2O | IQ4O | IQ6O | IQ8O = DIG IQ OUT 2 to 8, rear panel Parameters: <RXConnector> RF1C | RF2C | RF3C | RF4C | RFAC | RFBC RF connector for the input path <RXConverter>...

Page 314 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Depending on the installed hardware and the active sub-instrument or instance only a subset of the described parameter values is allowed. The *RST values and the mapping of virtual connector names to physical connectors also depend on the active sub-instrument or instance .

Page 315 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ROUTe:LTE:SIGN:SCENario:TROFading:INTernal:FFADer <RXConnector>, <RXConverter>, <TX1Connector>, <TX1Converter>, <TX2Connector>, <TX2Converter> Activates the scenario "1 Cell - Fading - 2 RF Out" with internal fading, using two RF output (TX) paths and one RF input (RX) path. Selects the RF connectors and RX/TX modules to be used.

Page 316 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KS510, R&S CMW-KS520, R&S CMW-KE100 and R&S CMW-KE500 Manual operation: "Scenario, Fading" on page 118 ROUTe:LTE:SIGN:SCENario:MTFading[:EXTernal] <RXConnector>, <RXConverter>, <TX1Connector>, <TX1Converter>, <IQ1Connector>, <IQ2Connector>, <TX2Connector>, <TX2Converter>, <IQ3Connector>, <IQ4Connector> Activates the scenario "1 Cell - Fading - MIMO4x2 - 2 RF Out" with external fading and selects the RF connectors, RX/TX modules and digital I/Q output connectors to be used.

Page 317 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <TX2Connector> RF1C | RF1O | RF2C | RF3C | RF3O | RF4C | RFAC | RFAO | RFBC RF connector for the second output path. Select different con- nectors for the two paths. <TX2Converter>...

Page 318 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <RXConnector> RF1C | RF2C | RF3C | RF4C | RFAC | RFBC RF connector for the input path <RXConverter> RX1 | RX2 | RX3 | RX4 RX module for the input path <TX1Connector>...

Page 319 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ● RF1O | RF3O = RF 1 OUT | RF 3 OUT, front panel ● RFAO = virtual name for the RF OUT connectors ● IQ2O | IQ4O | IQ6O | IQ8O = DIG IQ OUT 2 to 8, rear panel Parameters: <RXConnector>...

Page 320 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Depending on the installed hardware and the active sub-instrument or instance only a subset of the described parameter values is allowed. The *RST values and the mapping of virtual connector names to physical connectors also depend on the active sub-instrument or instance .

Page 321 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ROUTe:LTE:SIGN:SCENario:CAFF[:EXTernal] <RXConnector>, <RXConverter>, <PCCTX1Connector>, <PCCTX1Converter>, <PCCIQ1Connector>, <PCCTX2Connector>, <PCCTX2Converter>, <PCCIQ2Connector>, <SCCTX1Connector>, <SCCTX1Converter>, <SCCIQ1Connector>, <SCCTX2Connector>, <SCCTX2Converter>, <SCCIQ2Connector> Activates the scenario "2CC CA - Fading - 4 RF Out" with external fading, using one RF input path, two PCC RF output paths and two SCC RF output paths. Selects the RF connectors, RX/TX modules and digital I/Q output connectors to be used.

Page 322 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <PCCTX2Converter> TX1 | TX2 | TX3 | TX4 TX module for the second PCC output path <PCCIQ2Connector> IQ2O | IQ4O | IQ6O | IQ8O DIG IQ OUT connector for external fading of the second PCC output path.

Page 323 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Depending on the installed hardware and the active sub-instrument or instance only a subset of the described parameter values is allowed. The *RST values and the mapping of virtual connector names to physical connectors also depend on the active sub-instrument or instance .

Page 324 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <SCCTX2Converter> TX1 | TX2 | TX3 | TX4 TX module for the second SCC output path Firmware/Software: V3.2.70 Options: R&S CMW-KS512, R&S CMW-KE100 and R&S CMW-KE500 R&S CMW-KS520 R&S CMW-KS502 for FDD / R&S CMW-KS552 for TDD Manual operation: "Scenario, Fading"...

Page 325 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ROUTe:LTE:SIGN:SCENario? Returns the active scenario. Return values: <Scenario> SCEL | TRO | FRO | CATR | CAFR | SCF | TROF | MTF | CATF | CAFF | IORI SCEL: 1 Cell - 1 RF Out TRO: 1 Cell - 2 RF Out FRO: 1 Cell - 4 RF Out CATR: 2CC CA - 2 RF Out...

Page 326 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Scenario> SCEL | TRO | FRO | CATR | CAFR | SCF | TROF | MTF | CATF | CAFF | IORI SCEL: 1 Cell - 1 RF Out TRO: 1 Cell - 2 RF Out FRO: 1 Cell - 4 RF Out CATR: 2CC CA - 2 RF Out CAFR: 2CC CA - 4 RF Out...

Page 327 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 V2.0.20: scenario value changed from MIMO22 to TRO V3.0.10: added <IQConnector1>, <IQConnector2> and scenar- ios IORI, SCF and TROF V3.2.50: added scenarios CATR and CAFR V3.2.70: added scenarios FRO, CATF and CAFF V3.2.80: added scenario MTF Manual operation: "Scenario, Fading"...

Page 328 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:RFSettings:EDC:OUTPut <Time> CONFigure:LTE:SIGN:RFSettings:EDC:INPut <Time> Define the value of an external time delay in the output path and in the input path, so that it can be compensated. Parameters: <Time> Range: 0 s to 20E-6 s *RST: Default unit: s Example:...

Page 329 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <PEP> Peak envelope power of the baseband signal Range: -60 dBFS to 0 dBFS Default unit: dBFS <CrestFactor> Crest factor of the baseband signal Range: 0 dB to 60 dB Default unit: dB Example: Configuring the I/Q Settings Usage:...

Page 330 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <BandPCC> FDD: OB1 | ... | OB28 | OB30 | OB31 | UDEFined TDD: OB33 | ... | OB44 | UDEFined Selects the operating band for PCC UDEFined = user-defined band *RST: OB1 (OB33 for TDD) <DLChannelPCC>...

Page 331 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN[:PCC]:BAND <Band> CONFigure:LTE:SIGN:SCC:BAND <Band> Selects the Operating Band (OB) for PCC or SCC. The allowed input range depends on the duplex mode (FDD or TDD). Parameters: <Band> FDD: OB1 | ... | OB31 | UDEFined TDD: OB33 | ...

Page 332 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:RFSettings[:PCC]:CHANnel:UL <Channel> Selects the UL channel number of the PCC. The channel number must be valid for the current operating band. The related DL channel number is calculated and set automati- cally. By appending a Hz unit (e.g. Hz, kHz, MHz) to a setting command, you can set the channel via its center frequency (only integer numbers accepted).

Page 333 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Enable> OFF | ON OFF: The configured PCC offset is also used for the SCC. The configured SCC offset has no effect. ON: You can configure different PCC and SCC frequency off- sets.

Page 334 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Specifying General Settings Firmware/Software: V1.0.15.21 Manual operation: "Exp. Nominal Power..., Margin" on page 129 CONFigure:LTE:SIGN:RFSettings:ENPower <ExpectedPower> Sets the expected nominal power of the UL signal in manual mode or queries the result if the expected nominal power is calculated automatically according to the UL power control settings.

Page 335 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <UserMargin> Range: 0 dB to (42 dB + External Attenuation - Expected Nominal Power) *RST: 12 dB Default unit: dB Example: Specifying General Settings Firmware/Software: V1.0.15.21 Manual operation: "Exp. Nominal Power..., Margin" on page 129 CONFigure:LTE:SIGN:RFSettings:MLOFfset <MixLevOffset>...

Page 336 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference The allowed range depends on the remaining user-defined band settings: The resulting uplink carrier center frequencies must be within the allowed frequency range. For cal- culations see CONFigure: L TE: S IGN: R FSettings[: P CC]: U DEFined: FREQuency:...

Page 337 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Channel> Range: 0 to 65535 *RST: DL:MIN = 0, DL:MAX = 599, UL:MIN = 18000 Example: Specifying General Settings Firmware/Software: V2.1.30 Options: R&S CMW-KS525 Manual operation: "UL Channel, Frequency" on page 128 CONFigure:LTE:SIGN:RFSettings[:PCC]:UDEFined:CHANnel:UL:MAXimum? Queries the maximum PCC uplink channel number for the user-defined band, resulting from the other PCC channel number settings:...

Page 338 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KS525 R&S CMW-KB036 required for frequencies above 3.3 GHz Manual operation: "DL Channel, Frequency" on page 128 CONFigure:LTE:SIGN:RFSettings[:PCC]:UDEFined:FREQuency:DL: MAXimum? CONFigure:LTE:SIGN:RFSettings[:PCC]:UDEFined:FREQuency:UL: MINimum? CONFigure:LTE:SIGN:RFSettings[:PCC]:UDEFined:FREQuency:UL: MAXimum? Query PCC carrier center frequencies resulting from the user-defined band settings: maximum downlink frequency, minimum and maximum uplink frequencies.

Page 339 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:RFSettings:SCC:UDEFined:FREQuency:DL:MINimum <Frequency> Configures the SCC carrier center frequency corresponding to the minimum downlink channel number for the user-defined band. The frequency corresponding to the maximum downlink channel number is calculated from the settings as follows: FREQ:DL:MAX = FREQ:DL:MIN + (CHAN:DL:MAX - CHAN:DL:MIN) * 100 kHz Parameters: <Frequency>...

Page 340: Internal Fading
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.9 Internal Fading The following commands configure the internal fader of the R&S CMW. 2.6.9.1 Fading Simulator The following commands configure the fading simulator of the internal fader for fading of the PCC and SCC downlink..........

Page 341 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Standard> EP5Low | EP5Medium | EP5High | EV5Low | EV5Medium | EV5High | EV7Low | EV7Medium | EV7High | ET7Low | ET7Medium | ET7High | ET3Low | ET3Medium | ET3High | HSTRain | CTESt | ETL30 | ETM30 | ETH30 EP5Low | EP5Medium | EP5High EPA, 5 Hz Doppler, low/medium/high correlation EV5Low | EV5Medium | EV5High...

Page 342 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <RestartMode> AUTO | MANual | TRIGger AUTO: fading automatically starts with the DL signal MANual: fading is started and restarted manually (see CONFigure:...:FSIMulator:RESTart) TRIGger: fading starts automatically and synchronously on both I/Q boards *RST: AUTO Example:...

Page 343 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:FADing[:PCC]:FSIMulator:ILOSs:MODE <InsertLossMode> CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:ILOSs:MODE <InsertLossMode> Sets the insertion loss mode for PCC or SCC. Parameters: <InsertLossMode> NORMal | USER NORMal: the insertion loss is determined by the fading profile USER: the insertion loss can be adjusted by the user *RST: NORM Example:...

Page 344 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V3.2.10 V3.2.70: added SCC command Options: See relevant fading scenario Manual operation: "Insertion Loss" on page 132 CONFigure:LTE:SIGN:FADing[:PCC]:FSIMulator:DSHift:MODE <Mode> CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:DSHift:MODE <Mode> Sets the Doppler shift mode for PCC or SCC. Parameters: <Mode>...

Page 345 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.9.2 DL Settings The following commands query noise power information for the PCC and SCC down- link............345 CONFigure:LTE:SIGN:FADing[:PCC]:POWer:NOISe? ............ 345 CONFigure:LTE:SIGN:FADing:SCC:POWer:NOISe? .........345 CONFigure:LTE:SIGN:FADing[:PCC]:POWer:NOISe:TOTal? .......... 345 CONFigure:LTE:SIGN:FADing:SCC:POWer:NOISe:TOTal? ............. 345 CONFigure:LTE:SIGN:FADing[:PCC]:POWer:SUM? ............345 CONFigure:LTE:SIGN:FADing:SCC:POWer:SUM? CONFigure:LTE:SIGN:FADing[:PCC]:POWer:NOISe? CONFigure:LTE:SIGN:FADing:SCC:POWer:NOISe? Queries the calculated noise power on the DL channel, i.e.

Page 346 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Power> Default unit: dBm Usage: Query only Firmware/Software: V3.0.20 V3.2.70: added SCC command Options: See relevant fading scenario Manual operation: "Signal + Noise (System BW) Power" on page 133 2.6.9.3 Fading Module AWGN The following commands configure the AWGN generator of the internal fader for the PCC and SCC downlink.

Page 347: Downlink Power Levels
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.0.20 V3.2.70: added SCC command Options: See relevant fading scenario Manual operation: "Min. Noise/System BW Ratio" on page 134 CONFigure:LTE:SIGN:FADing[:PCC]:AWGN:BWIDth:NOISe? CONFigure:LTE:SIGN:FADing:SCC:AWGN:BWIDth:NOISe? Queries the noise bandwidth for PCC or SCC. Return values: <NoiseBandwidth> Range: 0 Hz to 80E+6 Hz Default unit: Hz...

Page 348 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ............349 CONFigure:LTE:SIGN:DL[:PCC]:PSS:POFFset ..............349 CONFigure:LTE:SIGN:DL:SCC:PSS:POFFset ............349 CONFigure:LTE:SIGN:DL[:PCC]:SSS:POFFset ..............349 CONFigure:LTE:SIGN:DL:SCC:SSS:POFFset ............350 CONFigure:LTE:SIGN:DL[:PCC]:PBCH:POFFset ............350 CONFigure:LTE:SIGN:DL:SCC:PBCH:POFFset ............350 CONFigure:LTE:SIGN:DL[:PCC]:PCFich:POFFset ............350 CONFigure:LTE:SIGN:DL:SCC:PCFich:POFFset ............351 CONFigure:LTE:SIGN:DL[:PCC]:PHICh:POFFset ............351 CONFigure:LTE:SIGN:DL:SCC:PHICh:POFFset ............351 CONFigure:LTE:SIGN:DL[:PCC]:PDCCh:POFFset ............351 CONFigure:LTE:SIGN:DL:SCC:PDCCh:POFFset ...............351 CONFigure:LTE:SIGN:DL[:PCC]:OCNG ................ 351 CONFigure:LTE:SIGN:DL:SCC:OCNG ..............

Page 349 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "RS EPRE" on page 135 SENSe:LTE:SIGN:DL[:PCC]:FCPower? SENSe:LTE:SIGN:DL:SCC:FCPower? Queries the "Full Cell BW Power" for PCC or SCC. It results from the configured RS EPRE and the cell bandwidth. Return values: <Level> Range: -220 dBm to 48 dBm Default unit: dBm...

Page 350 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring DL Power Levels Firmware/Software: V1.0.15.20 V3.2.50: added SCC command Options: R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "SSS Power Offset" on page 136 CONFigure:LTE:SIGN:DL[:PCC]:PBCH:POFFset <Offset> CONFigure:LTE:SIGN:DL:SCC:PBCH:POFFset <Offset> Defines the power level of a Physical Broadcast Channel (PBCH) resource element for PCC or SCC.

Page 351 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:DL[:PCC]:PHICh:POFFset <Offset> CONFigure:LTE:SIGN:DL:SCC:PHICh:POFFset <Offset> Defines the power level of a Physical Hybrid ARQ Indicator Channel (PHICH) resource element for PCC or SCC. Parameters: <Offset> PHICH power relative to RS EPRE Range: -30 dB to 0 dB *RST: 0 dB Default unit: dB...

Page 352 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "OCNG" on page 136 CONFigure:LTE:SIGN:DL[:PCC]:PDSCh:PA <PA> CONFigure:LTE:SIGN:DL:SCC:PDSCh:PA <PA> Defines the power offset P for PCC or SCC. It is required for calculation of the power level of a Physical Downlink Shared Channel (PDSCH) resource element.

Page 353: Uplink Power Control
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <AWGN> Range: depends on many parameters *RST: -98 dBm/15kHz, OFF Default unit: dBm/15kHz Additional parameters: OFF | ON (disables | enables the AWGN interferer) Example: Configuring DL Power Levels Firmware/Software: V1.0.15.21 V3.2.50: added SCC command Options: R&S CMW-KS510 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC...

Page 354 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Enable> OFF | ON *RST: Example: Configuring UL Power Control for Call Setup Firmware/Software: V3.0.50 Manual operation: "Enable Advanced Settings" on page 139 CONFigure:LTE:SIGN:UL:OLNPower <Power> Defines a cell-specific nominal power value for full resource block allocation in the UL (entire channel bandwidth used).

Page 355 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <TargetPower> Range: -120 dBm to -90 dBm Default unit: dBm Example: Configuring UL Power Control for Call Setup Usage: Query only Firmware/Software: V3.0.50 Manual operation: "Preamble Initial Received Target Power" on page 139 SENSe:LTE:SIGN:UL:APPower:PNPusch:BASic? Queries the "p0-NominalPUSCH"...

Page 356 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Enable> OFF | ON *RST: Example: Configuring UL Power Control for Call Setup Usage: Query only Firmware/Software: V3.2.20 Manual operation: "Toggle P0-UE-PUSCH at RRC Setup" on page 140 CONFigure:LTE:SIGN:UL:APPower:RSPower:ADVanced <RefSignalPower> Specifies the "referenceSignalPower" value, signaled to the UE if advanced UL power configuration applies.

Page 357 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring UL Power Control for Call Setup Firmware/Software: V3.0.50 Manual operation: "P0 Nominal PUSCH" on page 139 CONFigure:LTE:SIGN:UL:APPower:PCALpha:ADVanced <PathCompAlpha> Specifies the value of parameter "alpha", signaled to the UE if advanced UL power configuration applies.

Page 358 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:UL:APPower:EPPPower? Queries the expected power of the first preamble, resulting from the advanced UL power settings. Return values: <Power> Default unit: dBm Example: Configuring UL Power Control for Call Setup Usage: Query only Firmware/Software: V3.0.50 Manual operation: "Expected PRACH Preamble Power"...

Page 359 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ..............359 CONFigure:LTE:SIGN:UL:PUSCh:TPC:SET ............359 CONFigure:LTE:SIGN:UL:PUSCh:TPC:PEXecute ............360 CONFigure:LTE:SIGN:UL:PUSCh:TPC:RPControl ............360 CONFigure:LTE:SIGN:UL:PUSCh:TPC:CLTPower ............361 CONFigure:LTE:SIGN:UL:PUSCh:TPC:SINGle ............361 CONFigure:LTE:SIGN:UL:PUSCh:TPC:UDPattern CONFigure:LTE:SIGN:UL:PUSCh:TPC:SET <SetType> Selects the active TPC setup to be executed for power control of the PUSCH. For some setups, additional commands are available for configuration or to trigger the execution: ●...

Page 360 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference For selection of the active TPC setup see CONFigure: L TE: S IGN: U L: P USCh: on page 359. TPC: S ET Example: Modifying Parameters for an Established Connection Usage: Event Firmware/Software: V2.0.20 Manual operation: "Active TPC Setup"...

Page 361 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:UL:PUSCh:TPC:SINGle <NoOfSteps>, <StepDirection> Defines a pattern for power control of the PUSCH with the TPC setup SINGle. The pattern consists of 1 to 35 up (+1 dB) or down (-1 dB) commands, followed by "con- stant power"...

Page 362: Physical Cell Setup
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.12 Physical Cell Setup The following commands configure physical layer attributes of the simulated cell............362 CONFigure:LTE:SIGN:CELL:BANDwidth[:PCC]:DL ............362 CONFigure:LTE:SIGN:CELL:BANDwidth:SCC:DL ..............363 CONFigure:LTE:SIGN:CELL[:PCC]:PCID ..............363 CONFigure:LTE:SIGN:CELL:SCC:PCID ................363 CONFigure:LTE:SIGN:CELL:CPRefix ..............363 CONFigure:LTE:SIGN:CELL:SRS:ENABle ...............363 CONFigure:LTE:SIGN:CELL:SRS:MCENable ..............364 CONFigure:LTE:SIGN:CELL:SRS:SFConfig ............364...

Page 363 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CELL[:PCC]:PCID <ID> CONFigure:LTE:SIGN:CELL:SCC:PCID <ID> Defines the physical cell ID used for generation of the DL physical synchronization sig- nals. If you use carrier aggregation, configure different values for PCC and SCC. Parameters: <ID> Range: 0 to 503 *RST:...

Page 364 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Enable> OFF | ON *RST: Example: Configuring Physical Cell Setup Firmware/Software: V3.2.60 Options: R&S CMW-KS510 Manual operation: "Manual Configuration" on page 146 CONFigure:LTE:SIGN:CELL:SRS:SFConfig <Subframe> Specify the "srs-SubframeConfig" value. The setting is only used if manual configuration is enabled, see CONFigure:...

Page 365 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Index> Range: 0 to 644 *RST: Example: Configuring Physical Cell Setup Firmware/Software: V3.2.70 Options: R&S CMW-KS510 Manual operation: "Configuration Index" on page 146 CONFigure:LTE:SIGN:CELL:ULDL <UplinkDownlink> Selects an uplink-downlink configuration, defining the combination of uplink, downlink and special subframes within a radio frame.

Page 366 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Enable> OFF | ON | NIPReambles OFF: respond to received preambles ON: ignore received preambles NIPReambles: ignore a configured number of preambles, then respond to subsequent preambles - for configuration see , only CONFigure:...

Page 367 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <PRACHconfIndex> Range: 0 to 63 *RST: Example: Configuring Physical Cell Setup Firmware/Software: V2.1.20 Options: R&S CMW-KS500 Manual operation: "Configuration Index" on page 148 CONFigure:LTE:SIGN:CELL:PRACh:PCINdex:TDD <PRACHconfIndex> Selects the PRACH configuration index for TDD. Parameters: <PRACHconfIndex>...

Page 368: Network Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 Manual operation: "Frequency Offset" on page 148 Table 2-20: Maximum input value depending on channel bandwidth Channel Bandwidth [MHz] <total RB - 6> CONFigure:LTE:SIGN:CELL:PRACh:LRSindex <LogRootSeqIndex> Specifies the logical root sequence index to be used by the UE for generation of the preamble sequence.

Page 369 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.13.1 Neighbor Cell Settings The following commands define neighbor cell information to be broadcasted to the UE.............369 CONFigure:LTE:SIGN:NCELl:LTE:THResholds:LOW ..........369 CONFigure:LTE:SIGN:NCELl:GSM:THResholds:LOW ..........369 CONFigure:LTE:SIGN:NCELl:WCDMa:THResholds:LOW ..........370 CONFigure:LTE:SIGN:NCELl:CDMA:THResholds:LOW ..........370 CONFigure:LTE:SIGN:NCELl:EVDO:THResholds:LOW .......... 370 CONFigure:LTE:SIGN:NCELl:TDSCdma:THResholds:LOW ............370 CONFigure:LTE:SIGN:NCELl:ALL:THResholds:LOW...

Page 370 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring Network Settings Firmware/Software: V2.1.30 Manual operation: "Threshold" on page 150 CONFigure:LTE:SIGN:NCELl:CDMA:THResholds:LOW <Low> Configures the reselection threshold value "threshX-Low" for CDMA2000 neighbor cells. Parameters: <Low> Range: 0 to 63 *RST: Example: Configuring Network Settings Firmware/Software: V2.1.30 Manual operation: "Threshold"...

Page 371 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Alternatively to a common threshold you can also use individual thresholds. They are defined per technology via the commands CONFigure:LTE:SIGN:NCELl:<Technology>:THResholds:LOW. The parameter <Valid> selects whether common or individual thresholds are used. Parameters: <Valid> OFF | ON OFF: use individual thresholds defined by separate commands ON: use common threshold defined by this command...

Page 372 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <QOffset> N24 | N22 | N20 | N18 | N16 | N14 | N12 | N10 | N8 | N6 | N5 | N4 | N3 | N2 | N1 | ZERO | P1 | P2 | P3 | P4 | P5 | P6 | P8 | P10 | P12 | P14 | P16 | P18 | P20 | P22 | P24 Corresponds to value "q-OffsetCell"...

Page 373 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <Measurement> OFF | ON Disables / enables neighbor cell measurements for the entry ON is only allowed if also <Enable> = ON *RST: Example: Configuring Network Settings Firmware/Software: V2.1.30 V3.0.50: added <Measurement> Options: R&S CMW-KS510 for neighbor cell measurements Manual operation: "GSM"...

Page 374 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <ScramblingCode> Primary scrambling code Range: #H0 to #H1FF *RST: <Measurement> OFF | ON Disables / enables neighbor cell measurements for the entry ON is only allowed if also <Enable> = ON *RST: Example: Configuring Network Settings Firmware/Software: V2.1.30 V3.0.50: added <Measurement>...

Page 375 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:NCELl:CDMA:CELL<n> <Enable>, <BandClass>, <Channel>, <CellID>[, <Measurement>] CONFigure:LTE:SIGN:NCELl:EVDO:CELL<n> <Enable>, <BandClass>, <Channel>, <CellID>[, <Measurement>] Configure an entry of the neighbor cell list for CDMA2000 (1xRTT) or 1xEV-DO (HRPD). Suffix: <n> 1..4 Number of the entry Parameters: <Enable>...

Page 376 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <Measurement> OFF | ON Disables / enables neighbor cell measurements for the entry ON is only allowed if also <Enable> = ON *RST: Example: Configuring Network Settings Firmware/Software: V2.1.30 V3.0.50: added <Measurement> Options: R&S CMW-KS510 for neighbor cell measurements Manual operation: "CDMA2000, 1xEV-DO"...

Page 377 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Enable> OFF | ON Enables or disables the entry *RST: <Band> OB1 | OB2 | OB3 OB1: Band 1 (F), channel 9400 to 9600 OB2: Band 2 (A), channel 10050 to 10125 OB3: Band 3 (E), channel 11500 to 12000 *RST: <Channel>...

Page 378 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Sintrasearch> Range: 0 dB to 62 dB Increment: 2 dB *RST: 32 dB Default unit: dB Additional parameters: OFF | ON (disables | enables transmis- sion of the information element) Example: Configuring Network Settings Firmware/Software: V3.0.10 V3.2.70: setting configurable Options:...

Page 379 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CELL:RESelection:QUALity:RXLevmin <Qrxlevmin> Defines the level Q . The value divided by 2 is broadcasted to the UE in SIB1. rxlevmin Parameters: <Qrxlevmin> Range: -140 dBm to -44 dBm Increment: 2 dB *RST: -132 dBm Default unit: dBm Example: Configuring Network Settings...

Page 380 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V1.0.15.20 Manual operation: "MNC" on page 153 CONFigure:LTE:SIGN:CELL:MNC:DIGits <NoDigits> Specifies the number of digits of the Mobile Network Code (MNC). For setting the MNC see CONFigure: L TE: S IGN: C ELL: M NC Parameters: <NoDigits>...

Page 381 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.13.4 Security Settings The following commands configure parameters related to the authentication procedure and other security procedures............381 CONFigure:LTE:SIGN:CELL:SECurity:AUTHenticat ..............381 CONFigure:LTE:SIGN:CELL:SECurity:NAS ..............381 CONFigure:LTE:SIGN:CELL:SECurity:AS ............382 CONFigure:LTE:SIGN:CELL:SECurity:IALGorithm ............382 CONFigure:LTE:SIGN:CELL:SECurity:MILenage ..............382 CONFigure:LTE:SIGN:CELL:SECurity:OPC ............... 382 CONFigure:LTE:SIGN:CELL:SECurity:SKEY ............

Page 382 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CELL:SECurity:IALGorithm <Algorithm> Selects an algorithm for integrity protection. Parameters: <Algorithm> NULL | S3G NULL: no integrity protection S3G: SNOW3G (EIA1) algorithm *RST: Example: Configuring Network Settings Firmware/Software: V1.0.15.21 V3.2.50: *RST changed Manual operation: "Integrity Algorithm"...

Page 383 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <SecretKey> Range: #H0 to #HFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF *RST: #H000102030405060708090A0B0C0D0E0F Example: Configuring Network Settings Firmware/Software: V1.0.15.20 Manual operation: "Secret Key" on page 155 CONFigure:LTE:SIGN:CELL:SECurity:RVALue <Mode> Selects whether an even or odd RAND value shall be used. Parameters: <Mode>...

Page 384 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Value> Range: 1 s to 50 s *RST: Default unit: s Example: Configuring Network Settings Firmware/Software: V2.0.10 V2.0.20: maximum changed to 50 s V2.1.30: *RST changed to 5 s Manual operation: "Out of Sync" on page 156 CONFigure:LTE:SIGN:CELL:TOUT:T<no>...

Page 385 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference The time source DATE is configured via the following commands: ● CONFigure: L TE: S IGN: C ELL: T IME: D ATE ● CONFigure: L TE: S IGN: C ELL: T IME: T IME ●...

Page 386 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <Second> Range: 0 to 59 *RST: Example: Sending Date and Time Information to the UE Firmware/Software: V3.0.30 Options: R&S CMW-KS510 Manual operation: "Date / Time (UTC)" on page 157 CONFigure:LTE:SIGN:CELL:TIME:DSTime <Enable> Specifies a Daylight Saving Time (DST) offset for the time source DATE (see on page 384).

Page 387 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Sending Date and Time Information to the UE Firmware/Software: V3.0.30 Options: R&S CMW-KS510 Manual operation: "Send Time" on page 157 2.6.13.8 NAS Signaling Settings The commands in this section configure settings related to NAS signaling messages to be sent to the UE.

Page 388 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring Network Settings Firmware/Software: V3.0.20 V3.2.70: added C13 Manual operation: "Attach Reject Cause, TAU Reject Cause" on page 158 CONFigure:LTE:SIGN:CELL:NAS:EPSNetwork <Enable> Enables or disables sending of the information element "EPS Network Feature Sup- port"...

Page 389 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Support> NSUPported | SUPPorted NSUPported: not supported SUPPorted: supported *RST: NSUP Example: Configuring Network Settings Firmware/Software: V3.2.20 Options: R&S CMW-KS510 Manual operation: "Emergency Bearer Services Indicator" on page 159 CONFigure:LTE:SIGN:CELL:NAS:EPCLcs <Support> Configures the field "Location services indicator in EPC" of the information element "EPS Network Feature Support".

Page 390: Connection Configuration
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.13.9 Synchronization Settings The commands in this section configure the synchronization to other signaling applica- tions and the synchronization of PCC and SCC............390 CONFigure:LTE:SIGN:CELL[:PCC]:SYNC:ZONE ............390 CONFigure:LTE:SIGN:CELL[:PCC]:SYNC:OFFSet ............390 CONFigure:LTE:SIGN:CELL:SCC:SYNC:OFFSet CONFigure:LTE:SIGN:CELL[:PCC]:SYNC:ZONE <Zone> Selects the synchronization zone for the signaling application.

Page 391 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ● Settings......................420 ● User-Defined Channel Settings................423 ● User-Defined TTI-Based Channel Settings............426 ● Fixed CQI Settings....................430 ● Follow WB CQI Settings..................432 ● Follow WB PMI Settings..................434 ● Follow WB CQI-RI Settings...................434 ● Follow WB CQI-PMI-RI Settings................

Page 392 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ............402 CONFigure:LTE:SIGN:CONNection:CSFB:GSM ............402 CONFigure:LTE:SIGN:CONNection:CSFB:WCDMa ............404 CONFigure:LTE:SIGN:CONNection:AMDBearer CONFigure:LTE:SIGN:CONNection:GHOPping <Enable> Enables or disables group hopping. Parameters: <Enable> OFF | ON *RST: Example: Configuring General Connection Settings Firmware/Software: V3.0.30 Options: R&S CMW-KS510 Manual operation: "Group Hopping" on page 162 CONFigure:LTE:SIGN:CONNection:UECategory:MANual <UECatManual>...

Page 393 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring General Connection Settings Firmware/Software: V3.0.10 Manual operation: "UE Category" on page 162 CONFigure:LTE:SIGN:CONNection:DPCYcle <Cycle> Selects the cell-specific default paging cycle. Parameters: <Cycle> P032 | P064 | P128 | P256 32, 64, 128 or 256 radio frames *RST: P064 Example:...

Page 394 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection:CTYPe <Type> Selects the connection type to be applied. Parameters: <Type> TESTmode | DAPPlication TESTmode: for signaling tests not involving the DAU DAPPlication: for data application measurements using the *RST: TEST Example: Configuring General Connection Settings Firmware/Software: V2.0.20 Options: For DAPPlication: installed DAU with R&S CMW-KM050 or...

Page 395 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <ID> Range: 1 to 254 *RST: Example: Configuring General Connection Settings Firmware/Software: V3.2.80 Options: R&S CMW-KA120 Manual operation: "Network Segment, Subnet Node ID" on page 163 CONFigure:LTE:SIGN:CONNection:TMODe <Enable> Specifies whether the UE is forced into a test mode. If enabled, the message "ACTI- VATE TEST MODE"...

Page 396 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <IPversion> IPV4 | IPV6 | IPV46 IPV4: IPV4 only IPV6: IPV6 only IPV46: IPv4 and IPv6 *RST: IPV46 Example: Configuring General Connection Settings Firmware/Software: V3.2.80 Manual operation: "IP Version" on page 164 CONFigure:LTE:SIGN:CONNection:APN <APN>...

Page 397 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.0.20 Manual operation: "SIB Reconfiguration" on page 164 CONFigure:LTE:SIGN:CONNection:KRRC <Enable> Selects whether the RRC connection shall be kept or released after attach. Parameters: <Enable> OFF | ON OFF: the RRC connection is released after the inactivity timer has expired ON: the RRC connection is kept *RST:...

Page 398 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection:DLEinsertion <Value> Configures the rate of transport block errors to be inserted into the downlink data. Parameters: <Value> Range: 0 % to 100 % Increment: 10 % *RST: Default unit: % Example: Configuring General Connection Settings Firmware/Software: V1.0.15.20 Manual operation: "Downlink MAC Error Insertion"...

Page 399 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection:TTIBundling <Enable> Enables or disables TTI bundling for the uplink. Parameters: <Enable> OFF | ON *RST: Example: Configuring General Connection Settings Firmware/Software: V3.2.80 Options: R&S CMW-KS510 Manual operation: "TTI Bundling" on page 172 CONFigure:LTE:SIGN:CONNection:ROHC:ENABle <Enable>...

Page 400 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KS510 Manual operation: "Profile ..." on page 173 CONFigure:LTE:SIGN:CONNection[:PCC]:PDCCh:RPDCch <ReducedPDCCH> CONFigure:LTE:SIGN:CONNection:SCC:PDCCh:RPDCch <ReducedPDCCH> Enables / disables reduction of PDCCH resources for PCC or SCC. Parameters: <ReducedPDCCH> OFF | ON *RST: Example: Configuring General Connection Settings Firmware/Software: V3.0.50 V3.2.50: added SCC command Options:...

Page 401 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring General Connection Settings Usage: Query only Firmware/Software: V3.0.50 V3.2.50: added SCC command Options: R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "PDCCH" on page 173 CONFigure:LTE:SIGN:CONNection:OBCHange <Mode> Selects the mechanism to be used for inter-band handover. Parameters: <Mode>...

Page 402 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.20 Options: R&S CMW-KS510 Manual operation: "CS Fallback (MO)" on page 174 CONFigure:LTE:SIGN:CONNection:CSFB:GSM <Band>, <DLChannel>, <BandIndicator> Configure GSM target for MO CSFB. Parameters: <Band> G085 | G09 | G18 | G19 GSM 850, GSM 900, GSM 1800, GSM 1900 *RST: <DLChannel>...

Page 403 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Band> OB1 | OB2 | OB3 | OB4 | OB5 | OB6 | OB7 | OB8 | OB9 | OB10 | OB11 | OB12 | OB13 | OB14 | OB19 | OB20 | OB21 | OBS1 | OBS2 | OBS3 | OBL1 OB1, ..., OB14: Operating Band I to XIV OB19, ..., OB21: Operating Band XIX to XXI...

Page 404 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Operating Band Channel Number OBS1 5912 to 5987 (step 25), 10912 to 10988 OBS2 10900 to 10950 OBS3 5962, 5987, 10950 to 11000 OBL1 7637 to 7783, 7788 to 7933 CONFigure:LTE:SIGN:CONNection:AMDBearer <Enable> Enables/disables accepting multiple default bearer requests. Parameters: <Enable>...

Page 405 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection[:PCC]:TRANsmission <Mode> CONFigure:LTE:SIGN:CONNection:SCC:TRANsmission <Mode> Selects the LTE transmission mode for PCC or SCC. The value must be compatible to the active scenario, see table 2-2. Parameters: <Mode> TM1 | TM2 | TM3 | TM4 | TM6 | TM7 | TM8 Transmission mode 1, 2, 3, 4, 6, 7, 8 *RST: Example:...

Page 406 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.0.50 V3.2.50: added SCC command Options: R&S CMW-KS520 for TWO R&S CMW-KS520 and R&S CMW-KS521 for FOUR R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Antenna Configuration" on page 167 SENSe:LTE:SIGN:CONNection[:PCC]:TSCHeme? SENSe:LTE:SIGN:CONNection:SCC:TSCHeme? Queries the transmission scheme for PCC or SCC. Return values: <Scheme>...

Page 407 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.0.10 V3.0.50: added PMI2 to PMI15 V3.2.50: added SCC command Options: R&S CMW-KS510, R&S CMW-KS520 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Precoding Matrix" on page 168 CONFigure:LTE:SIGN:CONNection[:PCC]:SCHModel:ENABle <Enable> CONFigure:LTE:SIGN:CONNection:SCC:SCHModel:ENABle <Enable> Enables or disables the MIMO 2x2 static channel model for PCC or SCC. Disabling the static channel model results in an ideal radio channel without any coupling between the downlink signals.

Page 408 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <h21abs> Square of magnitude of h Range: 0 to 1 *RST: <h21phi> Phase of h Range: 0 deg to 345 deg *RST: 0 deg Default unit: deg <h22phi> Phase of h Range: 0 deg to 345 deg *RST: 0 deg Default unit: deg...

Page 409 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <h11phi> Range: 0 deg to 345 deg *RST: 0 deg Default unit: deg <h12abs> Range: 0 to 1 *RST: 0.25 <h12phi> Range: 0 deg to 345 deg *RST: 0 deg Default unit: deg <h13abs>...

Page 410 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KS520 and R&S CMW-KS521 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Static Channel Model" on page 168 CONFigure:LTE:SIGN:CONNection[:PCC]:BEAMforming:MODE <Mode> CONFigure:LTE:SIGN:CONNection:SCC:BEAMforming:MODE <Mode> Enables or disables beamforming, for PCC or SCC. Parameters: <Mode> OFF | ON | TSBF OFF: Beamforming is disabled ON: Beamforming is enabled.

Page 411 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection[:PCC]:BEAMforming:MATRix <h11phi>[, <h12phi>[, <h11abs>, <h12abs>, <h21phi>, <h22phi>[, <h13phi>, <h14phi>[, <h13abs>, <h14abs>, <h23phi>, <h24phi>]]]] CONFigure:LTE:SIGN:CONNection:SCC:BEAMforming:MATRix <h11phi>[, <h12phi>[, <h11abs>, <h12abs>, <h21phi>, <h22phi>[, <h13phi>, <h14phi>[, <h13abs>, <h14abs>, <h23phi>, <h24phi>]]]] Configures the PCC or SCC beamforming matrix coefficients. There are two types of parameters: ●...

Page 412 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <h13abs> Range: 0 to 1 *RST: 0.25 <h14abs> Range: 0 to 1 *RST: 0.25 <h23phi> Range: 0 deg to 345 deg *RST: 0 deg Default unit: deg <h24phi> Range: 0 deg to 345 deg *RST: 0 deg Default unit: deg...

Page 413 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Number> Range: 2 to 4 *RST: Example: Configuring General Connection Settings Firmware/Software: V3.0.50 Manual operation: "Number of HARQ Transmissions" on page 175 CONFigure:LTE:SIGN:CONNection:HARQ:DL:RVCSequence <Sequence> Selects the redundancy version sequence for DL HARQ. Parameters: <Sequence>...

Page 414 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Value1> The first value is currently fixed set to 0. Range: *RST: <Value2> Range: 0 to 3 *RST: <Value3> Range: 0 to 3 *RST: <Value4> Range: 0 to 3 *RST: Example: Configuring General Connection Settings Firmware/Software: V3.0.50 Manual operation: "Redundancy Version Coding Sequence, User-Defined...

Page 415 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection:CDRX:ODTimer <Timer> Configures the onDurationTimer. The value must be smaller than or equal to the long DRX cycle duration. Parameters: <Timer> PSF1 | PSF2 | PSF3 | PSF4 | PSF5 | PSF6 | PSF8 | PSF10 | PSF20 | PSF30 | PSF40 | PSF50 | PSF60 | PSF80 | PSF100 | PSF200 PSFn means n PDCCH subframes...

Page 416 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "Retransmission Timer" on page 178 CONFigure:LTE:SIGN:CONNection:CDRX:LDCYcle <Cycle> Configures the duration of one long DRX cycle. If short DRX cycles are enabled, the long DRX cycle duration must be a multiple of the short DRX cycle duration. Parameters: <Cycle>...

Page 417 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection:CDRX:SDCYcle <Cycle> Configures the duration of one short DRX cycle. The long DRX cycle duration must be a multiple of the short DRX cycle duration. Parameters: <Cycle> SF2 | SF5 | SF8 | SF10 | SF16 | SF20 | SF32 | SF40 | SF64 | SF80 | SF128 | SF160 | SF256 | SF320 | SF512 | SF640 SFn means n subframes If a query returns NAV, short cycles are disabled.

Page 418 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.14.5 Global UL/DL Commands The following commands are related to UL/DL settings and are independent of the scheduling type. Scheduling-type specific commands are described in the subsequent sections............418 CONFigure:LTE:SIGN:CONNection[:PCC]:DLEQual ............418 CONFigure:LTE:SIGN:CONNection:SCC:DLEQual ....418 SENSe:LTE:SIGN:CONNection:ETHRoughput:DL[:PCC]:STReam<Stream>? ....

Page 419 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Throughput> Range: 0 Mbit/s to 99 Mbit/s Default unit: Mbit/s Example: Configuring User-Defined Channels Usage: Query only Firmware/Software: V3.0.20 V3.2.50: added SCC command Options: R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Throughput"...

Page 420 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Throughput> Range: 0 Mbit/s to 99 Mbit/s Default unit: Mbit/s Example: Configuring User-Defined Channels Usage: Query only Firmware/Software: V3.0.20 Manual operation: "Throughput" on page 108 2.6.14.6 RMC Settings The following commands define parameters for the scheduling type "RMC".........420 CONFigure:LTE:SIGN:CONNection[:PCC]:RMC:DL<Stream>...

Page 421 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <TransBlockSizeIdx> ZERO | T1 | T2 | T3 | T4 | T5 | T6 | T11 | T12 | T13 | T14 | T18 | T19 | T21 | T23 | T24 | T25 Transport block size index.

Page 422 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring RMCs Firmware/Software: V1.0.15.20 V2.0.20: additional value ZERO V2.1.20: additional values N17 and T12 V3.0.20: additional values N9, N54 and T18 V3.2.70: additional values N32, N45 and N60 Manual operation: "# Resource Blocks" on page 180 CONFigure:LTE:SIGN:CONNection[:PCC]:RMC:RBPosition:DL<Stream>...

Page 423 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Position> LOW | HIGH | MID | P1 | P2 | P3 | P4 | P7 | P9 | P10 | P11 | P13 | P14 | P15 | P16 | P19 | P25 | P36 | P37 | P39 | P43 | P44 | P48 | P49 | P56 | P74 | P75 | P99 *RST: Example:...

Page 424 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection[:PCC]:UDCHannels:DL<Stream> <NumberRB>, <StartRB>, <Modulation>, <TransBlockSizeIdx> CONFigure:LTE:SIGN:CONNection:SCC:UDCHannels:DL<Stream> <NumberRB>, <StartRB>, <Modulation>, <TransBlockSizeIdx> Configure a user-defined channel for PCC or SCC and the specified downlink stream. The allowed input ranges have dependencies and are described in the background information, see chapter 2.2.13, "User-Defined Channels",...

Page 425 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <StartRB> Position of first resource block *RST: <Modulation> QPSK | Q16 Modulation type QPSK | 16-QAM *RST: QPSK <TransBlockSizeIdx> Transport block size index *RST: Example: Configuring User-Defined Channels Firmware/Software: V1.0.15.21 V2.0.20: 0 allowed for <NumberRB> Options: R&S CMW-KS510 Manual operation:...

Page 426 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring User-Defined Channels Usage: Query only Firmware/Software: V3.0.20 Options: R&S CMW-KS510 Manual operation: "Code Rate" on page 183 2.6.14.8 User-Defined TTI-Based Channel Settings The following commands define parameters for the scheduling type "User-Defined TTI- Based Channels".

Page 427 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <StartRB> Position of first resource block. The same value must be config- ured for all streams of the carrier. *RST: <Modulation> QPSK | Q16 | Q64 Modulation type QPSK | 16-QAM | 64-QAM *RST: QPSK <TransBlockSizeIdx>...

Page 428 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KS510 Manual operation: "UL Configuration Commands" on page 107 CONFigure:LTE:SIGN:CONNection[:PCC]:UDTTibased:UL:ALL <NumberRB>(10), <StartRB>(10), <Modulation>(10), <TransBlockSizeIdx>(10) Configures the uplink channel for all scheduling types with a TTI-based UL definition. The parameters are entered 10 times, so that all subframes are configured by a single command (index = subframe number 0 to 9): <NumberRB>...

Page 429 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring TTI-Based User-Defined Channels Usage: Query only Firmware/Software: V3.0.20 V3.2.50: added SCC command Options: R&S CMW-KS510 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Code Rate" on page 108 SENSe:LTE:SIGN:CONNection[:PCC]:UDTTibased:UL:CRATe:ALL? Queries the code rate for all uplink subframes, applicable to all scheduling types with a TTI-based UL definition.

Page 430 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <StartRB> Position of first resource block. The same value must be config- ured for all streams of the carrier. *RST: <Modulation> QPSK | Q16 | Q64 Modulation type QPSK | 16-QAM | 64-QAM *RST: QPSK <TransBlockSizeIdx>...

Page 431 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <Stream> 1..2 Selects the downlink stream. Can be omitted for transmission schemes with only one downlink stream per carrier. Parameters: <NumberRB> Number of allocated resource blocks. The same value must be configured for all streams of the carrier. *RST: <StartRB>...

Page 432 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <NumberRB> Number of allocated resource blocks. The same value must be configured for all streams of the carrier. *RST: <StartRB> Position of first resource block. The same value must be config- ured for all streams of the carrier. *RST: <CQIIdx>...

Page 433 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <Table> DETermined | UDEFined DETermined: Automatic CQI to MCS mapping table UDEFined: User-defined mapping table *RST: Example: Configuring CQI DL Channels Firmware/Software: V3.0.50 V3.2.70: added SCC command Options: R&S CMW-KS510 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Follow WB CQI"...

Page 434 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.0.50 V3.2.70: added SCC command Options: R&S CMW-KS510 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Follow WB CQI" on page 110 2.6.14.11 Follow WB PMI Settings The following commands define DL settings for the scheduling type "Follow WB PMI". For the UL settings, use the "User-Defined TTI-Based"...

Page 435 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference For the UL settings, use the "User-Defined TTI-Based" commands, see chap- ter 2.6.14.8, "User-Defined TTI-Based Channel Settings", on page 426............435 CONFigure:LTE:SIGN:CONNection[:PCC]:FCRI:DL ............435 CONFigure:LTE:SIGN:CONNection:SCC:FCRI:DL ......435 CONFigure:LTE:SIGN:CONNection[:PCC]:FCRI:DL:MCSTable:UDEFined ....... 435 CONFigure:LTE:SIGN:CONNection:SCC:FCRI:DL:MCSTable:UDEFined ...... 436 SENSe:LTE:SIGN:CONNection[:PCC]:FCRI:DL:MCSTable:DETermined? ......

Page 436 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <MCS> Comma separated list of 15 MCS values, for reported CQI index value 1 to 15 Range: 0 to 28 *RST: 0,1,2,3,5,7,9,12,14,16,19,22,24,27,28 Example: Configuring CQI DL Channels Firmware/Software: V3.2.80 Options: R&S CMW-KS510/-KS512 (without CA/with CA) R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "Follow WB CQI-RI"...

Page 437 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:CONNection[:PCC]:FCPRi:DL <NumberRB>, <StartRB>, <Table> CONFigure:LTE:SIGN:CONNection:SCC:FCPRi:DL <NumberRB>, <StartRB>, <Table> Configures the PCC or SCC downlink for scheduling type "Follow WB CQI-PMI-RI". The allowed input ranges have dependencies and are described in the background information, see chapter 2.2.14, "CQI Channels", on page 53.

Page 438 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference SENSe:LTE:SIGN:CONNection[:PCC]:FCPRi:DL:MCSTable:DETermined? SENSe:LTE:SIGN:CONNection:SCC:FCPRi:DL:MCSTable:DETermined? Queries the automatically determined mapping table for PCC or SCC. The table is used for scheduling type "Follow WB CQI-PMI-RI", if the table mode is set to DETermined. Return values: <MCS> Comma separated list of 15 MCS values, for reported CQI index value 1 to 15 Range:...

Page 439 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference For TDD, the selected value is internally rounded down to a multiple of 10. Example: S128 selected means every 120 subframe. Parameters: <Interval> S10 | S20 | S32 | S40 | S64 | S80 | S128 | S160 | S320 | S640 Every 10 subframe to every 640 subframe...

Page 440 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <NumberRB> Number of allocated resource blocks *RST: <StartRB> Position of first resource block *RST: <Modulation> QPSK | Q16 Modulation type QPSK | 16-QAM *RST: QPSK <TransBlockSizeIdx> Transport block size index *RST: Example: Configuring SPS Firmware/Software: V3.2.80 Options:...

Page 441: Cqi Reporting Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.80 Options: R&S CMW-KS510 Manual operation: "Code Rate" on page 112 2.6.15 CQI Reporting Settings The following commands configure CQI reporting..............441 CONFigure:LTE:SIGN:CQIReporting:ENABle .......... 441 CONFigure:LTE:SIGN:CQIReporting:PRIReporting:ENABle ..........442 CONFigure:LTE:SIGN:CQIReporting[:PCC]:CINDex[:FDD] ..........442 CONFigure:LTE:SIGN:CQIReporting:SCC:CINDex[:FDD] ..........442 CONFigure:LTE:SIGN:CQIReporting[:PCC]:CINDex:TDD ..........

Page 442 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.80 Options: R&S CMW-KS510 for scenarios without carrier aggregation R&S CMW-KS512 for scenarios with carrier aggregation Manual operation: "Enable PMI/RI Reporting (TM8)" on page 185 CONFigure:LTE:SIGN:CQIReporting[:PCC]:CINDex[:FDD] <Index> CONFigure:LTE:SIGN:CQIReporting:SCC:CINDex[:FDD] <Index> Specifies the cqi-pmi-ConfigIndex (I ) for FDD and PCC or SCC.

Page 443: Ue Measurement Report Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V3.0.10 V3.2.70: added SCC command Options: R&S CMW-KS510 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC Manual operation: "CQI/PMI Reporting Period / Offset" on page 185 SENSe:LTE:SIGN:CQIReporting[:PCC]:ROFFset? SENSe:LTE:SIGN:CQIReporting:SCC:ROFFset? Queries the reporting offset N in subframes, resulting from the configured cqi- OFFSET,CQI pmi-ConfigIndex for PCC or SCC.

Page 444 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:UEReport:RINTerval <Interval> Sets the interval between two consecutive measurement reports. Parameters: <Interval> I120 | I240 | I480 | I640 | I1024 | I2048 | I5120 | I10240 Interval in ms, e.g. I240 = 240 ms *RST: I1024 Example:...

Page 445: Messaging (Sms)
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Cycle> OFF | SF160 | SF256 | SF320 | SF512 | SF640 | SF1024 | SF1280 OFF: Do not signal "measCycleSCell" SFn: n subframes *RST: Example: Configuring Measurement Reports Firmware/Software: V3.2.70 Options: R&S CMW-KS502 for FDD / R&S CMW-KS552 for TDD Manual operation: "Measurement Cycle SCell"...

Page 446 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:SMS:OUTGoing:BINary <SMSbinary> Defines the message contents for outgoing 8-bit binary messages. Parameters: <SMSbinary> Message contents as hexadecimal number with up to 280 digits Example: Sending / Receiving a Short Message Firmware/Software: V3.2.70 Manual operation: "Outgoing SMS binary"...

Page 447 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <MessageClass> CL0 | CL1 | CL2 | CL3 | NONE CL0, CL1, CL2, CL3: Class 0 to 3 NONE: Do not send message class *RST: NONE Example: Sending / Receiving a Short Message Firmware/Software: V3.2.70 Manual operation: "Message Class"...

Page 448 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <SourceTime> CMWTime | DATE CMWTime: Current date and time of the operation system DATE: Date and time specified via remote commands *RST: CMWT Example: Sending / Receiving a Short Message Firmware/Software: V3.2.80 Options: R&S CMW-KS510 Manual operation:...

Page 449 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.80 Options: R&S CMW-KS510 Manual operation: "Service Center Time Stamp" on page 189 SENSe:LTE:SIGN:SMS:INComing:INFO:DCODing? Returns the data coding of the last message received from the UE. Return values: <MessageEncoding> Encoding as string, 7-bit ASCII message or 8-bit binary mes- sage Example: Sending / Receiving a Short Message...

Page 450: Message Monitoring Settings
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Example: Sending / Receiving a Short Message Usage: Event Firmware/Software: V2.1.20 Manual operation: "Clear Message Text" on page 190 SENSe:LTE:SIGN:SMS:INFO:LRMessage:RFLag? Queries the "message read" flag for the last received message. The flag is true (ON) in the following cases: ●...

Page 451: Bler Measurement
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:MMONitor:IPADdress <Index> Selects the IP address to which signaling messages shall be sent for message moni- toring. The address pool is configured globally via CONFigure:BASE:MMONitor:IPADdress<n>. A query returns both the current index and the resulting IP address. Parameters: <Index>...

Page 452 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ● ABORt... causes a running measurement to stop immediately; the R&S CMW enters the "OFF" state. Use FETCh...STATe? to query the current measurement state. See also: "Measurement Control" in the R&S CMW user manual, chapter "Remote Control"...

Page 453 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <MainState> OFF | RDY | RUN OFF: measurement switched off, no resources allocated, no results available (when entered after STOP...) RDY: measurement has been terminated, valid results may be available RUN: measurement running (after INITiate..., READ...), synchronization pending or adjusted, resources active or queued *RST: <SyncState>...

Page 454 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference When the measurement has completed the first measurement cycle (first single shot), the statistical depth is reached and the timer is reset. If the first measurement cycle has not been completed when the timer expires, the measurement is stopped.

Page 455 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:SIGN:EBLer:SFRames <Subframes> Defines the number of subframes (= number of transport blocks) to be processed per measurement cycle. For confidence BLER measurements this parameter specifies only the length of the throughput result trace but does not influence the duration of the measurement. Parameters: <Subframes>...

Page 456 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.80 Options: R&S CMW-KS510 Manual operation: "Over All Stop Decision" on page 195 CONFigure:LTE:SIGN:EBLer:CONFidence:MTTime <Time> Specifies a minimum test time for confidence BLER measurements. Parameters: <Time> Minimum number of processed subframes Range: 0 to 500E+3 Increment: 200 *RST:...

Page 457 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference This type of command is only available for selected results. The following commands retrieve the results of the BLER measurement.............. 458 FETCh:LTE:SIGN:EBLer[:PCC]:CONFidence? ...............458 FETCh:LTE:SIGN:EBLer:SCC:CONFidence? ..............458 FETCh:LTE:SIGN:EBLer:ALL:CONFidence? ..........458 FETCh:INTermediate:LTE:SIGN:EBLer[:PCC]:ABSolute? ..........458 FETCh:INTermediate:LTE:SIGN:EBLer:SCC:ABSolute? ..............458 FETCh:LTE:SIGN:EBLer[:PCC]:ABSolute? ..............

Page 458 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:SIGN:EBLer[:PCC]:CONFidence? FETCh:LTE:SIGN:EBLer:SCC:CONFidence? Returns the pass/fail result of a confidence BLER measurement for the PCC or for the SCC. Return values: <Reliability> Reliability Indicator <Confidence> EPASs | EFAil | PASS | FAIL | UNDecided EPASs, EFAil: Early Pass, Early Fail PASS, FAIL: Pass, Fail UNDecided: Undecided...

Page 459 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <2_ACK> Number of received acknowledgments (sum of all downlink streams) Range: 0 to 4E+9 <3_NACK> Number of received negative acknowledgments (sum of all downlink streams) Range: 0 to 4E+9 <4_Subframes> Number of already processed subframes (per downlink stream) Range: 0 to 2E+9 <5_ThroughputAver>...

Page 460 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <2_ACK> Number of received acknowledgments (sum of all downlink streams) Range: 0 to 4E+9 <3_NACK> Number of received negative acknowledgments (sum of all downlink streams) Range: 0 to 4E+9 <4_Subframes> Number of already processed subframes (per downlink stream) Range: 0 to 2E+9 <5_ThroughputAver>...

Page 461 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <3_NACK> Received negative acknowledgments (percentage of sent scheduled subframes) Range: 0 % to 100 % Default unit: % <4_BLER> Block error ratio (percentage of sent scheduled subframes for which no ACK has been received) Range: 0 % to 100 % Default unit: %...

Page 462 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <4_BLER> Block error ratio (percentage of sent scheduled subframes for which no ACK has been received) Range: 0 % to 100 % Default unit: % <5_ThroughputAver> Average DL throughput (as percentage of maximum reachable throughput) Range: 0 % to 100 %...

Page 463 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <6_DTX> Number of sent scheduled subframes for which neither ACK nor NACK has been received Range: 0 to 2E+9 <7_Scheduled> Number of already sent scheduled subframes Range: 0 to 2E+9 <8_MedianCQI> Median value of received CQI indices Range: 0 to 15 Example:...

Page 464 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <BLER> Block error ratio (percentage of sent scheduled subframes for which no ACK has been received) Range: 0 % to 100 % Default unit: % <Throughput> Average DL throughput (percentage of maximum reachable throughput) Range: 0 % to 100 %...

Page 465 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <BLER> Block error ratio (percentage of sent scheduled subframes for which no ACK has been received) Range: 0 % to 100 % Default unit: % <TotalNumber> Total number of received CQI reports Range: 0 to 2E+9 <ExpiredSubframes>...

Page 466 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 V3.2.50: SCC command added Options: R&S CMW-KS520 R&S CMW-KS502/-KS552 (FDD/TDD) for SCC FETCh:LTE:SIGN:EBLer:TRACe:THRoughput[:PCC]? FETCh:LTE:SIGN:EBLer:TRACe:THRoughput:SCC? Returns the throughput trace for the sum of all PCC DL streams or all SCC DL streams. Each value is returned as a pair of X-value and Y-value.

Page 467 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <XValue> Subframe label, 0 = last processed subframe, -1 = previously processed subframe and so on Range: -199800 to 0 <YValue> Throughput value calculated from the BLER result of 200 pro- cessed subframes (the labeled subframe and the previous 199 subframes) Range: 0 kbit/s to 400E+3 kbit/s...

Page 468 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:SIGN:EBLer:TRACe:CQIReporting[:PCC]:STReam<Stream>? FETCh:LTE:SIGN:EBLer:TRACe:CQIReporting:SCC:STReam<Stream>? Returns the Y-values of the CQI index bar graph for one PCC or SCC downlink stream. Suffix: <Stream> 1..2 Selects the downlink stream. Can be omitted for configurations with only one downlink stream per carrier. Return values: <Reliability>...

Page 469 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Reliability> Reliability Indicator <PMI> Comma separated list of values, indicating number of received PMI values The number of results depends on the number of transmit anten- nas and the selected RI: 2 antennas, RI = 1: 4 values for PMI = 0, 1, 2, 3 2 antennas, RI = 2: 2 values for PMI = 0, 1 4 antennas: 16 values for PMI = 0, 1, ..., 15...

Page 470 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.10 V3.2.70: SCC command added Options: R&S CMW-KS502/-KS552 (FDD/TDD) for SCC FETCh:LTE:SIGN:EBLer[:PCC]:HARQ:STReam<Stream>:TRANsmission: RELative? FETCh:LTE:SIGN:EBLer:SCC:HARQ:STReam<Stream>:TRANsmission: RELative? Returns relative HARQ results for one PCC or SCC downlink stream. All columns of the "HARQ per Transmissions" result table are returned: <Reliability>, {<Sent>, <ACK>, <NACK>, <DTX>} , {...} , {...}...

Page 471 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:SIGN:EBLer[:PCC]:HARQ:STReam<Stream>:SUBFrame: ABSolute? FETCh:LTE:SIGN:EBLer:SCC:HARQ:STReam<Stream>:SUBFrame:ABSolute? Returns absolute HARQ results for one PCC or SCC downlink stream. All columns of the "HARQ per Subframe" result table are returned: <Reliability>, {<Sent>, <ACK>, <NACK>, <DTX>} , {...} , ..., {...} column 0 column 1 column 9...

Page 472 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <ACK> Received acknowledgments (percentage of ACK+NACK+DTX in the column) Range: 0 % to 100 % Default unit: % <NACK> Received negative acknowledgments (percentage of ACK +NACK+DTX in the column) Range: 0 % to 100 % Default unit: % <DTX>...

Page 473: Rlc Throughput Measurement
® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference 2.6.20 RLC Throughput Measurement The following sections describe the commands related to the "RLC Throughput" mea- surement. ● Measurement Control and States................. 473 ● Measurement Settings..................475 ● Measurement Results................... 476 2.6.20.1 Measurement Control and States The following commands control the measurement and return the current measure- ment state.

Page 474 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference See also: "Measurement Control" in the R&S CMW user manual, chapter "Remote Control" Return values: <State> OFF | RDY | RUN OFF: measurement switched off, no resources allocated, no results available (when entered after ABORt...) RDY: measurement has been terminated, valid results may be available RUN: measurement running (after INITiate..., READ...),...

Page 475 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference <RessourceState> QUE | ACT | INV QUE: measurement without resources, no results available ("queued") ACT: resources allocated, acquisition of results in progress but not complete ("active") INV: not applicable because <main_state>: OFF or RDY ("inva- lid") Usage: Query only...

Page 476 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Repetition> SINGleshot | CONTinuous SINGleshot: Single-shot measurement CONTinuous: Continuous measurement *RST: SING Example: Configuring an RLC Throughput Measurement Firmware/Software: V3.2.80 Manual operation: "Repetition" on page 198 CONFigure:LTE:SIGN:THRoughput:UPDate <Interval> Configures the number of subframes used to derive a single throughput result. Parameters: <Interval>...

Page 477 ® LTE Signaling R&S CMW-KM5xx/-KS5xx Command Reference ..........478 FETCh:LTE:SIGN:THRoughput:TRACe:DL:PDU:CURRent? ......... 478 FETCh:LTE:SIGN:THRoughput:TRACe:DL:PDU:AVERage? ........... 478 READ:LTE:SIGN:THRoughput:TRACe:DL:PDU:CURRent? ...........478 READ:LTE:SIGN:THRoughput:TRACe:DL:PDU:AVERage? FETCh:LTE:SIGN:THRoughput? READ:LTE:SIGN:THRoughput? Returns the contents of the RLC throughput result table. Return values: <Reliability> Reliability Indicator <CurrDlPDU> Current downlink throughput Default unit: bit/s <AvgDlPDU>...

Page 478: List Of Commands
® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands The number of trace values n depends on the configured update interval and window size: n = integer (<window size> / <update interval>) + 1 Return values: <Reliability> Reliability Indicator <UplinkPDU> Comma-separated list of n throughput values Default unit: bit/s Example: Performing an RLC Throughput Measurement...

Page 479 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:SIGN:CELL:NAS:CSLCs....................389 CONFigure:LTE:SIGN:CELL:NAS:EMCBs....................388 CONFigure:LTE:SIGN:CELL:NAS:EPCLcs....................389 CONFigure:LTE:SIGN:CELL:NAS:EPSNetwork..................388 CONFigure:LTE:SIGN:CELL:NAS:IMSVops.................... 388 CONFigure:LTE:SIGN:CELL:PRACh:LRSindex..................368 CONFigure:LTE:SIGN:CELL:PRACh:NIPRach..................366 CONFigure:LTE:SIGN:CELL:PRACh:NRPReambles................365 CONFigure:LTE:SIGN:CELL:PRACh:PCINdex:FDD................366 CONFigure:LTE:SIGN:CELL:PRACh:PCINdex:TDD................367 CONFigure:LTE:SIGN:CELL:PRACh:PFOFfset..................367 CONFigure:LTE:SIGN:CELL:PRACh:PRSTep..................366 CONFigure:LTE:SIGN:CELL:PRACh:ZCZConfig..................368 CONFigure:LTE:SIGN:CELL:RCAuse:ATTach..................387 CONFigure:LTE:SIGN:CELL:RCAuse:TAU....................387 CONFigure:LTE:SIGN:CELL:RESelection:QUALity:RXLevmin..............379 CONFigure:LTE:SIGN:CELL:RESelection:SEARch:INTRasearch............377 CONFigure:LTE:SIGN:CELL:RESelection:SEARch:NINTrasearch............378 CONFigure:LTE:SIGN:CELL:RESelection:TSLow................... 378 CONFigure:LTE:SIGN:CELL:SCC:CID:EUTRan..................380 CONFigure:LTE:SIGN:CELL:SCC:PCID....................363 CONFigure:LTE:SIGN:CELL:SCC:SYNC:OFFSet................... 390 CONFigure:LTE:SIGN:CELL:SECurity:AS....................381 CONFigure:LTE:SIGN:CELL:SECurity:AUTHenticat................381 CONFigure:LTE:SIGN:CELL:SECurity:IALGorithm..................

Page 480 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:SIGN:CELL[:PCC]:SYNC:ZONE..................390 CONFigure:LTE:SIGN:CONNection:AMDBearer..................404 CONFigure:LTE:SIGN:CONNection:APN....................396 CONFigure:LTE:SIGN:CONNection:ASEMission..................393 CONFigure:LTE:SIGN:CONNection:CDRX:ENABle................414 CONFigure:LTE:SIGN:CONNection:CDRX:ITIMer...................415 CONFigure:LTE:SIGN:CONNection:CDRX:LDCYcle................416 CONFigure:LTE:SIGN:CONNection:CDRX:ODTimer................415 CONFigure:LTE:SIGN:CONNection:CDRX:RTIMer................. 415 CONFigure:LTE:SIGN:CONNection:CDRX:SCENable................416 CONFigure:LTE:SIGN:CONNection:CDRX:SCTimer................417 CONFigure:LTE:SIGN:CONNection:CDRX:SDCYcle................417 CONFigure:LTE:SIGN:CONNection:CDRX:SOFFset................416 CONFigure:LTE:SIGN:CONNection:CDRX:UDSCheduling..............417 CONFigure:LTE:SIGN:CONNection:CSFB:DESTination................. 401 CONFigure:LTE:SIGN:CONNection:CSFB:GSM..................402 CONFigure:LTE:SIGN:CONNection:CSFB:WCDMa................402 CONFigure:LTE:SIGN:CONNection:CTYPe.....................394 CONFigure:LTE:SIGN:CONNection:DEDBearer..................255 CONFigure:LTE:SIGN:CONNection:DLEinsertion..................398 CONFigure:LTE:SIGN:CONNection:DLPadding..................397 CONFigure:LTE:SIGN:CONNection:DPCYcle..................393 CONFigure:LTE:SIGN:CONNection:EDAU:ENABle.................394 CONFigure:LTE:SIGN:CONNection:EDAU:NID..................

Page 481 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:SIGN:CONNection:SCC:FCTTibased:DL<Stream>............430 CONFigure:LTE:SIGN:CONNection:SCC:FCTTibased:DL<Stream>:ALL..........431 CONFigure:LTE:SIGN:CONNection:SCC:FPMI:DL................. 434 CONFigure:LTE:SIGN:CONNection:SCC:FWBCqi:DL................432 CONFigure:LTE:SIGN:CONNection:SCC:FWBCqi:DL:MCSTable:UDEFined......... 433 CONFigure:LTE:SIGN:CONNection:SCC:NENBantennas...............405 CONFigure:LTE:SIGN:CONNection:SCC:PDCCh:RPDCch..............400 CONFigure:LTE:SIGN:CONNection:SCC:PMATrix..................406 CONFigure:LTE:SIGN:CONNection:SCC:RMC:DL<Stream>..............420 CONFigure:LTE:SIGN:CONNection:SCC:RMC:RBPosition:DL<Stream>..........422 CONFigure:LTE:SIGN:CONNection:SCC:RMC:VERSion:DL<Stream>..........423 CONFigure:LTE:SIGN:CONNection:SCC:SCHModel................407 CONFigure:LTE:SIGN:CONNection:SCC:SCHModel:ENABle..............407 CONFigure:LTE:SIGN:CONNection:SCC:SCHModel:MIMO<Mimo>............408 CONFigure:LTE:SIGN:CONNection:SCC:SEXecute................249 CONFigure:LTE:SIGN:CONNection:SCC:STYPe..................398 CONFigure:LTE:SIGN:CONNection:SCC:TRANsmission................405 CONFigure:LTE:SIGN:CONNection:SCC:UDCHannels:DL<Stream>............. 424 CONFigure:LTE:SIGN:CONNection:SCC:UDTTibased:DL<Stream>............429 CONFigure:LTE:SIGN:CONNection:SCC:UDTTibased:DL<Stream>:ALL..........426 CONFigure:LTE:SIGN:CONNection:SDNSpco..................

Page 482 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:SIGN:CONNection[:PCC]:SCHModel:MIMO<Mimo>............ 408 CONFigure:LTE:SIGN:CONNection[:PCC]:SPS:DL.................439 CONFigure:LTE:SIGN:CONNection[:PCC]:SPS:SINTerval..............438 CONFigure:LTE:SIGN:CONNection[:PCC]:SPS:TIConfig................438 CONFigure:LTE:SIGN:CONNection[:PCC]:SPS:UL.................439 CONFigure:LTE:SIGN:CONNection[:PCC]:STYPe.................. 398 CONFigure:LTE:SIGN:CONNection[:PCC]:TRANsmission..............405 CONFigure:LTE:SIGN:CONNection[:PCC]:UDCHannels:DL<Stream>........... 424 CONFigure:LTE:SIGN:CONNection[:PCC]:UDCHannels:UL..............424 CONFigure:LTE:SIGN:CONNection[:PCC]:UDTTibased:DL<Stream>............ 429 CONFigure:LTE:SIGN:CONNection[:PCC]:UDTTibased:DL<Stream>:ALL..........426 CONFigure:LTE:SIGN:CONNection[:PCC]:UDTTibased:UL..............427 CONFigure:LTE:SIGN:CONNection[:PCC]:UDTTibased:UL:ALL............428 CONFigure:LTE:SIGN:CQIReporting:ENABle..................441 CONFigure:LTE:SIGN:CQIReporting:PRIReporting:ENABle..............441 CONFigure:LTE:SIGN:CQIReporting:SCC:CINDex:TDD.................442 CONFigure:LTE:SIGN:CQIReporting:SCC:CINDex[:FDD]...............442 CONFigure:LTE:SIGN:CQIReporting[:PCC]:CINDex:TDD...............442 CONFigure:LTE:SIGN:CQIReporting[:PCC]:CINDex[:FDD]..............442 CONFigure:LTE:SIGN:DL:SCC:AWGN....................352 CONFigure:LTE:SIGN:DL:SCC:OCNG....................351 CONFigure:LTE:SIGN:DL:SCC:PBCH:POFFset..................350 CONFigure:LTE:SIGN:DL:SCC:PCFich:POFFset..................

Page 483 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:SIGN:ESCode........................ 249 CONFigure:LTE:SIGN:FADing:SCC:AWGN:BWIDth:NOISe?..............347 CONFigure:LTE:SIGN:FADing:SCC:AWGN:BWIDth:RATio..............346 CONFigure:LTE:SIGN:FADing:SCC:AWGN:ENABle................346 CONFigure:LTE:SIGN:FADing:SCC:AWGN:SNRatio................347 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:DSHift................344 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:DSHift:MODE............... 344 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:ENABle.................340 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:GLOBal:SEED..............342 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:ILOSs:LOSS..............343 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:ILOSs:MODE............... 343 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:RESTart............... 342 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:RESTart:MODE............341 CONFigure:LTE:SIGN:FADing:SCC:FSIMulator:STANdard..............340 CONFigure:LTE:SIGN:FADing:SCC:POWer:NOISe:TOTal?..............345 CONFigure:LTE:SIGN:FADing:SCC:POWer:NOISe?................345 CONFigure:LTE:SIGN:FADing:SCC:POWer:SUM?................. 345 CONFigure:LTE:SIGN:FADing[:PCC]:AWGN:BWIDth:NOISe?............... 347 CONFigure:LTE:SIGN:FADing[:PCC]:AWGN:BWIDth:RATio..............346 CONFigure:LTE:SIGN:FADing[:PCC]:AWGN:ENABle................

Page 484 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:SIGN:RFSettings:ALL:BWCHannel................329 CONFigure:LTE:SIGN:RFSettings:EDC:INPut..................328 CONFigure:LTE:SIGN:RFSettings:EDC:OUTPut..................328 CONFigure:LTE:SIGN:RFSettings:ENPMode..................333 CONFigure:LTE:SIGN:RFSettings:ENPower................... 334 CONFigure:LTE:SIGN:RFSettings:MLOFfset...................335 CONFigure:LTE:SIGN:RFSettings:SCC:CHANnel:DL................331 CONFigure:LTE:SIGN:RFSettings:SCC:EATTenuation:OUTPut<n>............327 CONFigure:LTE:SIGN:RFSettings:SCC:FOFFset:DL................332 CONFigure:LTE:SIGN:RFSettings:SCC:UDEFined:BINDicator............... 336 CONFigure:LTE:SIGN:RFSettings:SCC:UDEFined:CHANnel:DL:MAXimum.......... 338 CONFigure:LTE:SIGN:RFSettings:SCC:UDEFined:CHANnel:DL:MINimum........... 338 CONFigure:LTE:SIGN:RFSettings:SCC:UDEFined:FREQuency:DL:MAXimum?........339 CONFigure:LTE:SIGN:RFSettings:SCC:UDEFined:FREQuency:DL:MINimum........339 CONFigure:LTE:SIGN:RFSettings:UMARgin................... 334 CONFigure:LTE:SIGN:RFSettings[:PCC]:CHANnel:DL................331 CONFigure:LTE:SIGN:RFSettings[:PCC]:CHANnel:UL................332 CONFigure:LTE:SIGN:RFSettings[:PCC]:EATTenuation:INPut............... 327 CONFigure:LTE:SIGN:RFSettings[:PCC]:EATTenuation:OUTPut<n>.............327 CONFigure:LTE:SIGN:RFSettings[:PCC]:FOFFset:DL................

Page 485 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:SIGN:UEReport:MGPeriod.................... 444 CONFigure:LTE:SIGN:UEReport:RINTerval.................... 444 CONFigure:LTE:SIGN:UEReport:WMQuantity..................444 CONFigure:LTE:SIGN:UL:APPower:EASettings..................353 CONFigure:LTE:SIGN:UL:APPower:PCALpha:ADVanced..............357 CONFigure:LTE:SIGN:UL:APPower:PIRPower:ADVanced..............356 CONFigure:LTE:SIGN:UL:APPower:PNPusch:ADVanced...............356 CONFigure:LTE:SIGN:UL:APPower:RSPower:ADVanced..............356 CONFigure:LTE:SIGN:UL:APPower:TPRRcsetup:ADVanced..............357 CONFigure:LTE:SIGN:UL:OLNPower...................... 354 CONFigure:LTE:SIGN:UL:PMAX......................358 CONFigure:LTE:SIGN:UL:PUSCh:TPC:CLTPower..................360 CONFigure:LTE:SIGN:UL:PUSCh:TPC:PEXecute...................359 CONFigure:LTE:SIGN:UL:PUSCh:TPC:RPControl.................. 360 CONFigure:LTE:SIGN:UL:PUSCh:TPC:SET....................359 CONFigure:LTE:SIGN:UL:PUSCh:TPC:SINGle..................361 CONFigure:LTE:SIGN:UL:PUSCh:TPC:UDPattern..................361 CONFigure:LTE:SIGN[:PCC]:BAND......................331 FETCh:INTermediate:LTE:SIGN:EBLer:ALL:ABSolute?................459 FETCh:INTermediate:LTE:SIGN:EBLer:ALL:RELative?................461 FETCh:INTermediate:LTE:SIGN:EBLer:SCC:ABSolute?.................458 FETCh:INTermediate:LTE:SIGN:EBLer:SCC:RELative?.................

Page 486 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands FETCh:LTE:SIGN:EBLer:TRACe:THRoughput:SCC?................466 FETCh:LTE:SIGN:EBLer:TRACe:THRoughput[:PCC]:MCQI:STReam<Stream>?........467 FETCh:LTE:SIGN:EBLer:TRACe:THRoughput[:PCC]:STReam<Stream>?..........465 FETCh:LTE:SIGN:EBLer:TRACe:THRoughput[:PCC]?................466 FETCh:LTE:SIGN:EBLer:UPLink?......................472 FETCh:LTE:SIGN:EBLer[:PCC]:ABSolute?....................458 FETCh:LTE:SIGN:EBLer[:PCC]:CONFidence?..................458 FETCh:LTE:SIGN:EBLer[:PCC]:CQIReporting:STReam<Stream>?............464 FETCh:LTE:SIGN:EBLer[:PCC]:HARQ:STReam<Stream>:SUBFrame:ABSolute?........ 471 FETCh:LTE:SIGN:EBLer[:PCC]:HARQ:STReam<Stream>:SUBFrame:RELative?.........471 FETCh:LTE:SIGN:EBLer[:PCC]:HARQ:STReam<Stream>:TRANsmission:ABSolute?......469 FETCh:LTE:SIGN:EBLer[:PCC]:HARQ:STReam<Stream>:TRANsmission:RELative?......470 FETCh:LTE:SIGN:EBLer[:PCC]:PMI:RI<no>?..................468 FETCh:LTE:SIGN:EBLer[:PCC]:RELative?....................460 FETCh:LTE:SIGN:EBLer[:PCC]:RI?......................468 FETCh:LTE:SIGN:EBLer[:PCC]:STReam<Stream>:ABSolute?...............462 FETCh:LTE:SIGN:EBLer[:PCC]:STReam<Stream>:RELative?............... 463 FETCh:LTE:SIGN:PSWitched:STATe?....................252 FETCh:LTE:SIGN:SCC:STATe?......................253 FETCh:LTE:SIGN:THRoughput:STATe:ALL?..................474 FETCh:LTE:SIGN:THRoughput:STATe?....................473 FETCh:LTE:SIGN:THRoughput:TRACe:DL:PDU:AVERage?..............

Page 487 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands ROUTe:LTE:SIGN:SCENario:CATRfout....................307 ROUTe:LTE:SIGN:SCENario:FRO......................306 ROUTe:LTE:SIGN:SCENario:IORI......................324 ROUTe:LTE:SIGN:SCENario:MTFading:INTernal................... 317 ROUTe:LTE:SIGN:SCENario:MTFading[:EXTernal]................316 ROUTe:LTE:SIGN:SCENario:SCELl......................304 ROUTe:LTE:SIGN:SCENario:SCFading:INTernal..................310 ROUTe:LTE:SIGN:SCENario:SCFading:INTernal:FFADer..............311 ROUTe:LTE:SIGN:SCENario:SCFading[:EXTernal]................309 ROUTe:LTE:SIGN:SCENario:TRO......................305 ROUTe:LTE:SIGN:SCENario:TROFading:INTernal................. 313 ROUTe:LTE:SIGN:SCENario:TROFading:INTernal:FFADer..............315 ROUTe:LTE:SIGN:SCENario:TROFading[:EXTernal]................312 ROUTe:LTE:SIGN:SCENario?......................... 325 ROUTe:LTE:SIGN?..........................325 SENSe:LTE:SIGN:CONNection:ETHRoughput:DL:ALL?.................419 SENSe:LTE:SIGN:CONNection:ETHRoughput:DL:SCC:STReam<Stream>?.........418 SENSe:LTE:SIGN:CONNection:ETHRoughput:DL:SCC?................419 SENSe:LTE:SIGN:CONNection:ETHRoughput:DL[:PCC]:STReam<Stream>?........418 SENSe:LTE:SIGN:CONNection:ETHRoughput:DL[:PCC]?..............419 SENSe:LTE:SIGN:CONNection:ETHRoughput:UL?................419 SENSe:LTE:SIGN:CONNection:SCC:FCPRi:DL:MCSTable:DETermined?..........438 SENSe:LTE:SIGN:CONNection:SCC:FCRI:DL:MCSTable:DETermined?..........436 SENSe:LTE:SIGN:CONNection:SCC:FWBCqi:DL:MCSTable:DETermined?..........433...

Page 488 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands SENSe:LTE:SIGN:FADing[:PCC]:FSIMulator:ILOSs:CSAMples<path>?..........343 SENSe:LTE:SIGN:IQOut:SCC:PATH<n>?....................328 SENSe:LTE:SIGN:IQOut[:PCC]:PATH<n>?.....................328 SENSe:LTE:SIGN:RRCState?........................251 SENSe:LTE:SIGN:SMS:INComing:INFO:DCODing?................449 SENSe:LTE:SIGN:SMS:INComing:INFO:MLENgth?................449 SENSe:LTE:SIGN:SMS:INComing:INFO:MTEXt?................... 449 SENSe:LTE:SIGN:SMS:INFO:LRMessage:RFLag?................450 SENSe:LTE:SIGN:UECapability:ASRelease?..................272 SENSe:LTE:SIGN:UECapability:CPINdication:FREQuency:INTer?............298 SENSe:LTE:SIGN:UECapability:CPINdication:FREQuency:INTRa?............298 SENSe:LTE:SIGN:UECapability:CPINdication:UTRan?................298 SENSe:LTE:SIGN:UECapability:DTYPe?....................273 SENSe:LTE:SIGN:UECapability:FAUeeutra:FGINdicators:RNADd?............273 SENSe:LTE:SIGN:UECapability:FAUeeutra:FGINdicators:RTEN?............273 SENSe:LTE:SIGN:UECapability:FAUeeutra:FGINdicators?..............272 SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:CXRTt:ECCMob?............297 SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:CXRTt:ECDual?............297 SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:CXRTt:ECSFb?............297 SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:EREDirection:UTDD?..........294 SENSe:LTE:SIGN:UECapability:FAUeeutra:IRAT:EREDirection:UTRA?..........

Page 489 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands SENSe:LTE:SIGN:UECapability:IRAT:GERan:SUPPorted?..............294 SENSe:LTE:SIGN:UECapability:IRAT:UFDD:EREDirection:UTRA?............293 SENSe:LTE:SIGN:UECapability:IRAT:UFDD:SUPPorted?..............293 SENSe:LTE:SIGN:UECapability:IRAT:UTDD128:EREDirection:UTDD?..........294 SENSe:LTE:SIGN:UECapability:IRAT:UTDD128:SUPPorted?..............293 SENSe:LTE:SIGN:UECapability:MEAS:IFNGaps:V<number>?...............287 SENSe:LTE:SIGN:UECapability:MEAS:IFNGaps?.................. 282 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:CHRPd?..............286 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:CXRTt?..............286 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:GERan?..............285 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:UFDD?............... 283 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:UTDD<n>?..............284 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V<number>:CHRPd?..........290 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V<number>:CXRTt?..........291 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V<number>:GERan?..........290 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V<number>:UFDD?........... 288 SENSe:LTE:SIGN:UECapability:MEAS:IRNGaps:V<number>:UTDD<n>?..........289 SENSe:LTE:SIGN:UECapability:NCSacq:FREQuency:INTer?..............299 SENSe:LTE:SIGN:UECapability:NCSacq:FREQuency:INTRa?...............299 SENSe:LTE:SIGN:UECapability:NCSacq:UTRan?..................

Page 490 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands SENSe:LTE:SIGN:UECapability:TAUeeutra:IRAT:GERan:PHGeran?.............294 SENSe:LTE:SIGN:UECapability:TAUeeutra:IRAT:GERan:SUPPorted?..........294 SENSe:LTE:SIGN:UECapability:TAUeeutra:NCSacq:FREQuency:INTer?..........299 SENSe:LTE:SIGN:UECapability:TAUeeutra:NCSacq:FREQuency:INTRa?..........299 SENSe:LTE:SIGN:UECapability:TAUeeutra:NCSacq:UTRan?..............300 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:CCSSupport?............278 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:MCPCsupport?............278 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:NURClist?............. 279 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:PDSupport?............277 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:SPPSupport?............278 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:TAPPsupport?............277 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:TWEFsupport?............277 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:USRSsupport?............276 SENSe:LTE:SIGN:UECapability:TAUeeutra:PLAYer:UTASupported?............ 276 SENSe:LTE:SIGN:UECapability:UBNPmeas:LMIDle?................300 SENSe:LTE:SIGN:UECapability:UBNPmeas:SGLocation?..............300 SENSe:LTE:SIGN:UECapability:UECategory?..................272 SENSe:LTE:SIGN:UEReport:NCELl:CDMA:CELL<no>?.................269 SENSe:LTE:SIGN:UEReport:NCELl:EVDO:CELL<no>?................. 270 SENSe:LTE:SIGN:UEReport:NCELl:GSM:CELL<no>:RANGe?..............267 SENSe:LTE:SIGN:UEReport:NCELl:GSM:CELL<no>?................267 SENSe:LTE:SIGN:UEReport:NCELl:LTE:CELL<no>:RANGe?...............

Page 491 ® LTE Signaling R&S CMW-KM5xx/-KS5xx List of Commands SENSe:LTE:SIGN:UL:APPower:PNPusch:BASic?.................. 355 SENSe:LTE:SIGN:UL:APPower:RSPower:BASic?.................. 354 SENSe:LTE:SIGN:UL:APPower:TPRRcsetup:BASic?................355 SOURce:LTE:SIGN:CELL:STATe......................250 SOURce:LTE:SIGN:CELL:STATe:ALL?....................251 STOP:LTE:SIGN:EBLer..........................451 STOP:LTE:SIGN:THRoughput......................... 473 User Manual 1173.9628.02 ─ 16...

Page 492: Lte Multi Evaluation Measurement
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx What's New in this Revision 3 LTE Multi Evaluation Measurement The "LTE Multi Evaluation" measurement provides quick and flexible TX tests on LTE FDD and TDD uplink signals and an RX test (Block Error Ratio test). The TX tests cover the following UE transmitter properties: ●...

Page 493: General Description
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 3.2 General Description The LTE "Multi Evaluation" measurement captures an uplink (UL) LTE signal and pro- vides the TX measurement results for a configurable UL subframe / range of sub- frames. Both FDD signals (option R&S CMW-KM500) and TDD signals (option R&S CMW- KM550) can be measured.

Page 494 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 3.2.1.2 How to Measure an Uplink LTE Signal After connecting your LTE UE to the R&S CMW, you have to adjust at least the follow- ing analyzer settings to the properties of the analyzed UL LTE signal: ●...

Page 495 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Depending on the measurement, the statistic count is defined in subframes or in slots. Example: Assume the following settings (see chapter 3.3.5, "Measurement Control Settings", on page 546): ● subframe offset = 3 ●...

Page 496 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description ● Spectrum emission mask The following results are measured for both carriers in parallel. There are separate PCC and SCC results. ● Inband emission diagram ● Power monitor ● RB allocation table How to measure an uplink LTE signal with CA The basic measurement procedure is the same as for signals without carrier aggrega- tion.

Page 497 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Whenever the combined signal path scenario is activated or the controlling application is changed, the frame trigger signal provided by the controlling signaling application is selected automatically as trigger source. 3.2.1.6 Trigger Modes The LTE "Multi Evaluation"...

Page 498: Lte Rx Tests
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-2: EVM window definition The EVM window is centered on the cyclic prefix (CP) at the beginning of the SC- FDMA symbol. Its length is specified in the standard, depending on the channel band- width and the cyclic prefix type (see 3GPP TS 36.101, tables F.5.3-1 and F.5.4-1).

Page 499 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 3.2.2.1 Test Setup The downlink RF generator signal of the R&S CMW is fed to the input of the DUT. The R&S CMW measures the uplink signal. Most conveniently, a bi-directional connection with a single coax cable is used.

Page 500: List Mode
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 5. Select "Measurement Control > Measurement Subframe > No. of Subframes: 320". This is the maximum value resulting in maximum measurement speed. And it is a multiple of 10, ensuring that the number of scheduled subframes per radio frame can be evaluated correctly.

Page 501 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 4000 measured subframes; for details see Maximum number of measured subframes. That means, for each measurement you select a range of up to 1000 segments to be measured from the total range of up to 2000 configured segments. In list mode the R&S CMW can measure modulation results (including inband emission and equalizer spectrum flatness results), ACLR, spectrum emission and power monitor results.

Page 502 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description In the example shown below an overflow occurs in the fourth subframe. The samples of this subframe are discarded and subframe number 7 is measured additionally to reach the specified statistical length of 12 slots. Maximum number of measured subframes The limit of 4000 measured subframes comprises mainly measured subframes inclu- ded in a statistical length and subframes measured with the power monitor.

Page 503 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description In "Segment" mode, the retrigger flag of each segment is evaluated. It defines whether the measurement waits for a trigger event before measuring the segment, or not and which trigger source shall be used. For the first segment, the value OFF is interpreted as ON.

Page 504 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 3. Measure the selected segments. 4. Repeat steps 2 and 3 as often as needed. The list mode is essentially a single-shot remote control application. When a measure- ment is initiated in list mode, all defined segments are measured once. Afterwards the results can be retrieved using FETCh commands.

Page 505 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Global and list mode parameters Some settings are available as special list mode settings and as "multi evaluation" set- tings (e.g. duplex mode, cell bandwidth and modulation scheme). In list mode the R&S CMW ignores these "multi evaluation"...

Page 506: Lte Ul Signal Properties
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 3.2.4 LTE UL Signal Properties This section describes the following selected topics related to LTE UL signal proper- ties. ● Resources in Time and Frequency Domain............506 ● Frequency Bands....................508 3.2.4.1 Resources in Time and Frequency Domain The UL radio resources in an LTE system are divided into time-frequency units called resource elements.

Page 507 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Example: For a channel bandwidth of 3 MHz the following values are allowed in the uplink: 1, 2, 3, 4, 5, 6, 8, 9, 10, 12, 15. Not allowed are 7, 11, 13 and 14. In the time domain the additional units radio frame, subframe and slot (containing the SC-FDMA symbols) are defined, see figures below.

Page 508 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 3.2.4.2 Frequency Bands The carrier frequencies for LTE uplink signals are defined in 3GPP TS 36.101. Each operating band contains a number of uplink carrier frequencies identified by channel numbers (EARFCN, E-UTRA Absolute Radio Frequency Channel Number). The assignment between channel numbers N and carrier center frequencies F is defined The tables below provide an overview of all uplink channels for FDD and TDD signals.

Page 509: Limit Settings And Conformance Requirements
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description FDD Band [MHz] Channel No N F [MHz] Offset Offset 1626.5 25700 25700 to 26039 1626.5 to 1660.4 1850 26040 26040 to 26689 1850 to 1914.9 26690 26690 to 27039 814 to 848.9 27040 27040 to 27209 807 to 823.9...

Page 510 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description ● Spectrum Emission Mask..................515 ● ACLR Limits......................516 ● Power Dynamics Limits..................517 3.2.5.1 Modulation Limits All modulation limits can be configured per modulation scheme. Fig. 3-8: One node per modulation scheme The individual modulation limits are described in the following sections.

Page 511 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-10: Frequency error limit settings Characteristics Refer to 3GPP TS 36.521 V10.3.0, section... Specified limit Frequency Error 6.5.1 Frequency Error < 0.1 ppm 6.5.1A Frequency Error for CA 3.2.5.4 I/Q Origin Offset Limits An I/Q origin offset is due to an additive sinusoid waveform at the frequency of the ref- erence signal.

Page 512 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description case the general component, the IQ image component and the IQ offset component have to be added. Then the result has to be compared to the general minimum and the bigger value of both applies. The following table provides an overview of the three components.

Page 513 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description With carrier aggregation, RBs are allocated for the PCC, but not for the SCC. The lim- its apply to both component carriers. The measurement displays inband emission result diagrams for both carriers. Characteristics Refer to 3GPP TS 36.521 V10.3.0, section...

Page 514 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Characteristics Refer to 3GPP TS 36.521 Specified limit, normal / extreme conditions V10.3.0, section... Spectrum Flatness 6.5.2.4 / E.4.4 EVM equalizer max(range 1) - min(range 1) ≤ 5.4 dB / 5.4 dB spectrum flatness max(range 2) - min(range 2) ≤...

Page 515 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-17: OBW limit setting for 1.4 MHz BW With carrier aggregation, it can be set per channel bandwidth combination. Fig. 3-18: OBW limit setting for 20 MHz + 10 MHz Characteristics Refer to 3GPP TS 36.521 V10.3.0, section...

Page 516 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-19: Emission mask settings for 1.4 MHz channel BW, no CA The default settings are suitable to check the 3GPP requirements. Characteristics Refer to 3GPP TS 36.521 V10.3.0, section... General emission mask 6.6.2.1 Spectrum Emission Mask 6.6.2.1A Spectrum Emission Mask for CA Additional emission mask requirements...

Page 517 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description the mean power in the assigned E-UTRA channel divided by the mean power in an adjacent channel) shall be greater than the limits listed in the following table. The ACLR must be evaluated for the first adjacent UTRA channel (UTRA1) and the first adjacent E-UTRA channel (E-UTRA).

Page 518 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description The OFF power shall not exceed -48.5 dBm. The ON power limit shall be within a range depending on the channel bandwidth. The limits can be set in the configuration dialog. Fig.

Page 519: Measurement Results
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Note that you can shift the borders of all OFF power evaluation periods, see "Add. Excl. OFF Power" on page 558. 3.2.6 Measurement Results The results of the LTE multi evaluation measurement are displayed in several different views.

Page 520 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-23: LTE Multi Evaluation: Overview The results to be measured and displayed in the overview can be limited using the hot- key "Assign Views", see chapter 3.3.8, "Additional Softkeys and Hotkeys", on page 564.

Page 521 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-24: LTE Multi Evaluation: Error Vector Magnitude ● Error Vector Magnitude, Magnitude Error and Phase Error (vs symbol) The diagrams (bar graphs) show the average EVM, magnitude error, and phase error for each SC-FDMA symbol in the measured slot.

Page 522 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description ● chapter 3.5.3.17, "Magnitude Error Results (Traces)", on page 657 ● chapter 3.5.3.18, "Phase Error Results (Traces)", on page 657 3.2.6.3 Detailed Views: Inband Emissions The inband emissions are displayed in one diagram per component carrier and as a table of statistical results.

Page 523 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description NRB View Filter Resource blocks are allocated dynamically: Their number and position within the sub- carrier range may vary from one measured slot to another. Use filter settings ("Config... > Measurement Control > View Filter") to restrict the measurement to a definite number of allocated RBs.

Page 524 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description frame". Only a single carrier is analyzed. For signals with carrier aggregation, you can select which carrier is measured (setting "Measurement Carrier"). The results are normalized to the arithmetic mean value of all results. Hence the mea- sured curve is centered around the 0 dB line.

Page 525 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description sured. So the measurement covers a symmetric frequency range around the center frequency of the aggregated bandwidth. Resolution filters with bandwidths of 30 kHz, 100 kHz and 1 MHz are available. Traces for all three resolution bandwidths (RBW) can be displayed in parallel, with the 30 kHz continuous trace at the bottom, the 1 MHz trace on top and the 100 kHz trace in- between.

Page 526 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description The screenshot above shows margin results for the current trace. Corresponding mar- gin results are displayed for all active traces (Current, Average, Maximum). In this con- text, "Average" means "margins for average trace" and not "average values of margins for current trace".

Page 527 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description The displayed absolute limit lines are calculated from the configured relative ACLR lim- its. They are only displayed for adjacent channels with a power level above the config- ured absolute limit. The Adjacent Channel Leakage power Ratios (ACLR) resulting from the measured powers are displayed in the table below the diagram.

Page 528 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description gin, with relative phase angles of 90 deg. The 16QAM and 64QAM modulation schemes produce rectangular patterns with 16 and 64 points, respectively; see exam- ple above. If channel type PUCCH is detected, the constellation diagram shows the SC-FDMA symbols in the frequency domain.

Page 529 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Each table presents the time domain on the X-axis (subframes and SC-FDMA sym- bols) and the frequency domain on the Y-axis (resource blocks). The allocated resource blocks are marked by colored bars. The colors indicate the detected channel type as listed in the legend below the table: Physical Uplink Control Channel (PUCCH) or Physical Uplink Shared Channel (PUSCH).

Page 530 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-32: LTE Multi Evaluation: Power Monitor Each subframe power value is RMS averaged over the entire subframe, excluding 20 μs at each subframe border. The number of subframes to be captured and shown on the X-axis is configurable as well as the offset of subframe 0 relative to the trigger event, see "Measurement Sub- frame"...

Page 531 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-33: LTE Multi Evaluation: Power Dynamics, general time mask The following statements apply also to power dynamics measurements with other time masks. The diagram shows the UE output power vs. time, sampled with 48 T (1.5625 µs).

Page 532 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Mean power in one subframe before the "Measure Subframe" ● "SRS ON/OFF": Mean power in the SRS period at the end of the "Measure Subframe" For the parameters at the bottom of the view, see chapter 3.2.6.14, "Common View Elements", on page 536.

Page 533 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 3-34: LTE Multi Evaluation: Power Dynamics, PUCCH / PUSCH / SRS time mask Fig. 3-35: LTE Multi Evaluation: Power Dynamics, SRS blanking time mask User Manual 1173.9628.02 ─ 16...

Page 534 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description 3.2.6.11 Detailed Views: TX Measurement and BLER This view contains tables of statistical results for the TX and RX measurements. Fig. 3-36: LTE Multi Evaluation: TX Measurement TX Measurement The table provides an overview of statistical values obtained in the measured slot. Except for the OBW result, only a single carrier is analyzed.

Page 535 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description ● Carrier Frequency Error: offset between the measured carrier frequency and the nominal RF frequency of the measured radio channel ● Timing Error: Difference between the actual timing and the expected timing. The timing error measurement requires an "external"...

Page 536 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description For query of the results via remote control, see chapter 3.5.3.31, "BLER Results", on page 682. 3.2.6.12 Selecting and Modifying Views Use the "Display" parameters to select the views and to change the appearance and contents of the views.

Page 537 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx General Description Tables Most detailed views show tables providing a statistical evaluation of results obtained in the measured slot. The statistical values in the tables are calculated as follows: ● Current: Value of the result obtained in the last measurement interval. For some modulation results, the current RMS value (the average over all samples in the measured slot) and the current peak value (the peak of all samples in the mea- sured slot) are available.

Page 538: Gui Reference
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference View Filter Throughput Percentage of measurement intervals where the detected signal configuration was found to correspond to the "View Filter" settings. Only slots which contribute to the "View Filter Throughput" are displayed, counted, and used for the statistical results; other slots are rejected.

Page 539: Accessing Parameters And Settings
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference 3.3.2 Accessing Parameters and Settings The most important settings of the "LTE Multi Evaluation" measurement are displayed at the top of the measurement dialog. All settings are defined via softkeys and hotkeys or using the "LTE Multi Evaluation Configuration"...

Page 540 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference In the Standalone (SA) scenario, this parameter is controlled by the measurement. In the Combined Signal Path (CSP) scenario, it is controlled by the signaling application. Remote command: (SA) CONFigure: L TE: M EAS: D MODe (CSP) CONFigure:...

Page 541 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference RF Routing Selects the input path for the measured RF signal, i.e. the input connector and the RX module to be used. Depending on your hardware configuration there may be dependencies between both parameters.

Page 542: Modulation Scheme
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference ● Select a band and enter a channel number valid for this band. The R&S CMW cal- culates the resulting frequency. In the Standalone (SA) scenario, these parameters are controlled by the measurement. In the Combined Signal Path (CSP) scenario, they are controlled by the signaling appli- cation.

Page 543: Carrier Aggregation Settings
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference In the Standalone (SA) scenario, this parameter is controlled by the measurement. In the Combined Signal Path (CSP) scenario, it is controlled by the signaling application. Remote command: (SA) CONFigure: L TE: M EAS: R FSettings: U MARgin (CSP) CONFigure:...

Page 544 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 3-38: Carrier aggregation settings Configuring the component carrier frequencies To ensure that the component carriers are aggregated contiguously, proceed as fol- lows. 1. Select the PCC channel bandwidth and the SCC channel bandwidth. 2.

Page 545 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference The node "Carrier Aggregation" is hidden and the remainder of this section is irrele- vant. ● Intraband Contiguous (BW Class B & C): The UL signal contains one PCC and one SCC. The two carriers use a continuous spectrum in the same operating band.

Page 546: Measurement Control Settings
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Band / Channel / Frequency The "Frequency" defines the PCC or SCC center frequency. The two component carri- ers must be aggregated contiguously. The correct channel spacing depends on the bandwidths. For easy configuration, proceed as described in "Configuring the compo- nent carrier frequencies"...

Page 547 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference 3.3.5.1 Miscellaneous, Part 1 This section describes the following "Measurement Control" settings. Fig. 3-39: Measurement control settings - part 1 Repetition........................547 Stop Condition......................548 Measurement Mode....................548 Mode........................548 Measure on Exception....................

Page 548 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Stop Condition Specifies the conditions for an early termination of the measurement: ● None: The measurement is performed according to its "Repetition" mode and "Sta- tistic Count", irrespective of the limit check results. ●...

Page 549 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference For each list entry, you can configure a number of subframes and the expected nomi- nal power applicable to these subframes. The resulting reference level is calculated and displayed for information. The first entry is coupled to the standard expected nomi- nal power setting, see "Expected Nominal Power"...

Page 550 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Frame Structure Displays the frame structure of the uplink signal as defined in 3GPP TS 36.211. The value is set implicitly via the Duplex Mode (Type 1 = FDD, Type 2 = TDD). For a TDD signal the additional parameters "Uplink Downlink"...

Page 551: Channel Type
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference The parameter is a common measurement setting, i.e. it has the same value in all measurements (e.g. PRACH measurement and multi evaluation measurement). In the Standalone (SA) scenario, this parameter is controlled by the measurement. In the Combined Signal Path (CSP) scenario, it is controlled by the signaling application.

Page 552 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 3-40: Measurement control settings - part 2 Network Signaled Value....................552 View Filter > NRB......................552 View Filter > Channel Type..................553 Allocation.......................553 Physical Cell ID......................553 Delta Seq. Shift PUSCH....................553 Group Hopping......................554 Measurement Subframe....................554...

Page 553 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference The allowed values for this parameter are restricted by 3GPP TS 36.211. For details chapter 3.2.4.1, "Resources in Time and Frequency Domain", on page 506. Remote command: CONFigure: L TE: M EAS: M EValuation: N VFilter View Filter >...

Page 554 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Group Hopping Specifies whether group hopping is used or not (refer to "group hopping" in 3GPP TS 36.211). Set this parameter according to the measured LTE signal to ensure that the R&S CMW can synchronize to the signal and perform channel estimation.

Page 555: Statistic Count
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 3-41: Measurement control settings - modulation Modulation Scheme....................555 Statistic Count......................555 Sounding RS (SRS)....................556 EVM Window Length....................556 EVM Exclusion Periods....................556 Modulation Scheme Selects one of the three possible modulation schemes (QPSK, 16-QAM, 64-QAM) for LTE uplink signals.

Page 556 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Sounding RS (SRS) Indicates whether the uplink signal may contain a Sounding Reference Signal (SRS) or not. ● Disabled: The uplink signal must not contain an SRS. Otherwise the modulation results will be distorted. ●...

Page 557 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference The "Lagging" time interval is excluded at the end of each subframe; if SRS signals are allowed, at the end of each shortened subframe. Remote command: CONFigure: L TE: M EAS: M EValuation: M ODulation: E EPeriods: P UCCh CONFigure:...

Page 558 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference ACLR > Select ACLR Specifies which adjacent channels shall be evaluated: 1 adjacent UTRA channels, 2 adjacent UTRA channels or 1 adjacent E-UTRA channels. Any combinations are sup- ported, including the activation of all three options in parallel. Remote command: CONFigure:...

Page 559 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference With the default value 0 Ts, the OFF power is measured over the evaluation period defined by 3GPP. The leading value shifts the beginning of the evaluation period, the lagging value shifts the end. Positive values decrease the evaluation period. Negative values increase it.

Page 560: Trigger Settings
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference 3.3.5.6 BLER and List Mode Settings This section describes the following "Measurement Control" settings. Fig. 3-44: Measurement control settings - BLER, list mode BLER > No. of Subframes...................560 BLER > Scheduled Subfr./Frame................560 List Mode >...

Page 561 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 3-45: Trigger settings Trigger Source......................561 Trigger Slope.......................562 Trigger Threshold......................562 Trigger Delay.......................562 Trigger Timeout......................562 Min Trigger Gap......................562 Synchronization Mode....................563 Acquisition Mode......................563 Trigger Source Selects the source of the trigger event. Some of the trigger sources require additional options.

Page 562 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Trigger Slope Qualifies whether the trigger event is generated at the rising or at the falling edge of the trigger pulse. This setting has no influence on "Free Run" measurements and for evaluation of trigger pulses provided by other firmware applications.

Page 563: Limit Settings
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference This parameter can be used to prevent unwanted trigger events due to fast power var- iations. Remote command: TRIGger: L TE: M EAS: M EValuation: M GAP Synchronization Mode Selects the size of the search window for synchronization - normal or enhanced. If the trigger signal is timed accurately, the normal synchronization mode is sufficient and should be used for performance reasons.

Page 564: Additional Softkeys And Hotkeys
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 3-46: Limit settings with and without carrier aggregation For limit configuration via remote commands, refer to the following sections: ● chapter 3.5.3.10, "Limits (Modulation, QPSK)", on page 630 ● chapter 3.5.3.11, "Limits (Modulation, 16-QAM / 64-QAM)", on page 635 ●...

Page 565: Measurement Results
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Multi Evaluation > Assign Views Selects the view types to be displayed in the overview. The R&S CMW does not evalu- ate the results for disabled views. Therefore, limiting the number of assigned views can speed up the measurement.

Page 566 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 3-47: LTE Multi Evaluation: Overview Most of the detailed views show a diagram and a statistical overview of single-slot results. User Manual 1173.9628.02 ─ 16...

Page 567: Programming
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming Fig. 3-48: LTE Multi Evaluation: EVM For a detailed description of all result views, see chapter 3.2.6, "Measurement Results", on page 519. Query of results via remote control All commands for result query start with FETCh, READ or CALCulate and continue with :LTE:MEAS:MEValuation:.

Page 568: General Examples
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming See also: "Remote Control" in the R&S CMW user manual ● General Examples....................568 ● Using LTE List Mode.....................575 3.4.1 General Examples The LTE multi evaluation measurement is programmed as follows: ● The measurement is controlled by SCPI commands with the following syn- tax: ...LTE:MEAS:MEValuation...

Page 569 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming // Query information about the resulting aggregated bandwidth. // Select the PCC for single-carrier mesaurements. // ***************************************************************************** CONFigure:LTE:MEAS:CAGGregation:MODE INTRaband CONFigure:LTE:MEAS:SCC:CBANdwidth B014 CONFigure:LTE:MEAS:CAGGregation:SCC:ACSPacing CONFigure:LTE:MEAS:RFSettings:SCC:FREQuency? CONFigure:LTE:MEAS:CAGGregation:FREQuency:AGGRegated:LOW? CONFigure:LTE:MEAS:CAGGregation:FREQuency:AGGRegated:CENTer? CONFigure:LTE:MEAS:CAGGregation:FREQuency:AGGRegated:HIGH? CONFigure:LTE:MEAS:CAGGregation:CBANdwidth:AGGRegated? CONFigure:LTE:MEAS:CAGGregation:MCARrier PCC // ***************************************************************************** // Set duplex mode TDD and query the resulting frame structure type (T2). // ***************************************************************************** CONFigure:LTE:MEAS:DMODe TDD CONFigure:LTE:MEAS:FSTRucture?

Page 570 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:MEAS:MEValuation:CTYPe PUCCH CONFigure:LTE:MEAS:MEValuation:NSValue NS10 CONFigure:LTE:MEAS:MEValuation:NSValue:CAGGregation NS11 CONFigure:LTE:MEAS:MEValuation:NVFilter 10 CONFigure:LTE:MEAS:MEValuation:CTVFilter PUSCh // ***************************************************************************** // Define the "TPC Mode" list of expected nominal powers. // ***************************************************************************** CONFigure:LTE:MEAS:MEValuation:TMODe:SCOunt 5,8,4,4,1,1,1,1,1,1,1,1,1,1,1,1 CONFigure:LTE:MEAS:MEValuation:TMODe:ENPower 3,9,12,15,0,0,0,0,0,0,0,0,0,0,0,0 CONFigure:LTE:MEAS:MEValuation:TMODe:RLEVel? // ***************************************************************************** // Disable automatic detection of RB configuration and // set the number of resource blocks and the RB offset manually.

Page 571 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:MEAS:MEValuation:SCOunt:SPECtrum:SEMask 30 CONFigure:LTE:MEAS:MEValuation:SPECtrum:SEMask:MFILter GAUSs CONFigure:LTE:MEAS:MEValuation:SPECtrum:ACLR:ENABle ON,ON,ON // ***************************************************************************** // Specify power measurement settings: // time mask, OFF power exclusion, high dynamic mode, statistic count // ***************************************************************************** CONFigure:LTE:MEAS:MEValuation:PDYNamics:TMASk SBLanking CONFigure:LTE:MEAS:MEValuation:PDYNamics:AEOPower:LAGGing -5 CONFigure:LTE:MEAS:MEValuation:PDYNamics:AEOPower:LEADing -5 CONFigure:LTE:MEAS:MEValuation:POWer:HDMode ON CONFigure:LTE:MEAS:MEValuation:SCOunt:POWer 30 // *****************************************************************************...

Page 572 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Define ACLR limits for measurements without carrier aggregation // ***************************************************************************** CONFigure:LTE:MEAS:MEValuation:LIMit:ACLR:UTRA1:CBANdwidth14 35, -50 CONFigure:LTE:MEAS:MEValuation:LIMit:ACLR:EUTRa:CBANdwidth14 32, -50 // ***************************************************************************** // Define ACLR limits for measurements with carrier aggregation // ***************************************************************************** CONF:LTE:MEAS:MEV:LIMit:ACLR:UTRA1:CAGG:CBANdwidth200:CBANdwidth100 35, -50 CONF:LTE:MEAS:MEV:LIMit:ACLR:UTRA1:CAGG:OCOMbination 35, -50 CONF:LTE:MEAS:MEV:LIMit:ACLR:EUTRa:CAGG:CBANdwidth200:CBANdwidth100 32, -50...

Page 573 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming READ:LTE:MEAS:MEValuation:EVMagnitude:AVERage? FETCh:LTE:MEAS:MEValuation:STATe? // ***************************************************************************** // Retrieve detected allocation, modulation scheme and channel type for the // measured slot of modulation measurements. // Query the View Filter Throughput. // ***************************************************************************** FETCh:LTE:MEAS:MEValuation:MODulation:DALLocation? FETCh:LTE:MEAS:MEValuation:MODulation:DMODulation? FETCh:LTE:MEAS:MEValuation:MODulation:DCHType? FETCh:LTE:MEAS:MEValuation:VFTHroughput? // ***************************************************************************** // Query modulation traces, bar graph values and statistical values...

Page 574 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW100:AVERage? FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW1000:MAXimum? FETCh:LTE:MEAS:MEValuation:SEMask:CURRent? FETCh:LTE:MEAS:MEValuation:SEMask:EXTReme? FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:ALL? FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:MINimum:POSitiv? FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:MINimum:NEGativ? // ***************************************************************************** // Query ACLR results. // ***************************************************************************** FETCh:LTE:MEAS:MEValuation:TRACe:ACLR:CURRent? FETCh:LTE:MEAS:MEValuation:TRACe:ACLR:AVERage? FETCh:LTE:MEAS:MEValuation:ACLR:CURRent? FETCh:LTE:MEAS:MEValuation:ACLR:AVERage? // ***************************************************************************** // Query RB allocation table and power monitor results for PCC and SCC. // ***************************************************************************** FETCh:LTE:MEAS:MEValuation:TRACe:RBATable:PCC? FETCh:LTE:MEAS:MEValuation:TRACe:RBATable:SCC?

Page 575: Using Lte List Mode
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming 3.4.1.7 Single-Shot and Continuous Measurements // ***************************************************************************** // Start single-shot measurement, return magnitude error bar graph values. // Return maximum magnitude error and phase bar graph values // (without repeating the measurement). // Query the measurement state (should be "RDY").

Page 576 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming ● There are two groups of FETCh commands. One for result retrieval per segment and one for result retrieval over all segments. Which of the two groups is more effective, depends on the enabled results and on the number of segments. Minimize the number of FETCh commands transmitted for result query.

Page 577 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** CONF:LTE:MEAS:MEV:LIST:SEGM1:SET 10,1,FDD,OB1,2E+9,B030,NORM,AUTO,OFF,0,NS04 CONF:LTE:MEAS:MEV:LIST:SEGM2:SET 10,-19,FDD,OB1,2E+9,B030,NORM,AUTO,OFF,0,NS04 CONFigure:LTE:MEAS:MEValuation:LIST:SEGMent1:RBALlocation OFF, 15, 0 CONFigure:LTE:MEAS:MEValuation:LIST:SEGMent2:RBALlocation OFF, 6, 5 // ***************************************************************************** // Enable modulation results except phase error for both segments. Use // a statistical length of 10 slots and select automatic detection of the // modulation scheme.

Page 578 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming FETCh:LTE:MEAS:MEValuation:LIST:SEGMent1:IEMission:MARGin:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent2:IEMission:MARGin:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent1:IEMission:MARGin:EXTReme:RBINdex? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent2:IEMission:MARGin:EXTReme:RBINdex? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent1:ESFLatness:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent2:ESFLatness:EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent1:MODulation:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent2:MODulation:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent1:ESFLatness:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent2:ESFLatness:AVERage? // ***************************************************************************** // Return average and extreme spectrum emission results. // Return spectrum emission margins: X- and Y-values of minimum margins and // Y-values of all margins.

Page 579 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Return detected allocation, modulation scheme and channel type of the // last slot within the statistical length of the modulation measurement. // ***************************************************************************** FETCh:LTE:MEAS:MEValuation:LIST:SEGMent1:MODulation:DALLocation? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent1:MODulation:DMODulation? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent1:MODulation:DCHType? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent2:MODulation:DALLocation? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent2:MODulation:DMODulation? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent2:MODulation:DCHType? // ***************************************************************************** // Select segment no.

Page 580: Command Reference
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR2:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:SCINdex:MINimum1:CURRent? // ***************************************************************************** // Return selected spectrum emission and ACLR results. // ***************************************************************************** FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:MAXimum? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA5:NEGativ:MINimum? FETCh:LTE:MEAS:MEValuation:LIST:ACLR:EUTRa:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:ACLR:EUTRa:NEGativ:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:ACLR:UTRA2:POSitiv:AVERage? // ***************************************************************************** // Return detected allocation, modulation scheme and channel type of the // last slot within the statistical length of the modulation measurement.

Page 581: See Also: "Statistical Results" In The R&S Cmw User Manual, Chapter "System Over
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The <instance> is relevant for instruments supporting several instances of the same firmware application. It can be omitted if the instrument supports only one instance, or to address the first instance. See also: "Firmware Applications"...

Page 582 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference – "Setting parameters" are only sent with a setting command – "Query parameters" are only sent with a query command (to refine the query) – "Return values" are only returned as the result of a query ●...

Page 583 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference path. The LEDs above the RF connectors indicate whether the input and output paths are active. ● 17 (RF Level not Settled) / 18 (RF Frequency not Settled): The measurement could not be started because the R&S CMW was not yet ready to deliver stable results after a change of the input signal power / the input signal frequency.

Page 584: General Measurement Settings
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The DAU could not establish a connection to internal components. Please restart the instrument. ● 53 (Configuration Error): The current DAU configuration by the user is incomplete or wrong and could not be applied.

Page 585 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference 3.5.2.1 Duplex Mode The following commands select the duplex mode and query the resulting frame struc- ture. CONFigure:LTE:MEAS:DMODe <Mode> Selects the duplex mode of the LTE signal: FDD or TDD. This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure:...

Page 586 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference ...................587 ROUTe:LTE:MEAS:SCENario? ....................587 ROUTe:LTE:MEAS? ............588 CONFigure:LTE:MEAS:RFSettings:EATTenuation ROUTe:LTE:MEAS:SCENario:SALone <RXConnector>, <RFConverter> Activates the standalone scenario and selects the RF input path for the measured RF signal, i.e. the RF connector and the RX module. Depending on the installed hardware and the active sub-instrument or instance ...

Page 587 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference ROUTe:LTE:MEAS:SCENario:MAPRotocol [<Controler>] Activates the Measure@ProtocolTest scenario and optionally selects the controlling protocol test application. The signal routing and analyzer settings are ignored by the measurement application. The corresponding settings have to be configured within the protocol test application used in parallel.

Page 588 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 Manual operation: "Scenario = StandAlone" on page 540 CONFigure:LTE:MEAS:RFSettings:EATTenuation <RFinputExtAtt> Defines an external attenuation (or gain, if the value is negative), to be applied to the RF input connector. This command is only relevant for the standalone scenario.

Page 589 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V3.2.70 Options: R&S CMW-KM502/-KM552 (FDD/TDD) for INTRaband Manual operation: "Carrier Aggregation Mode" on page 544 CONFigure:LTE:MEAS:CAGGregation:FREQuency:AGGRegated:LOW? Queries the lower edge of the aggregated bandwidth. Return values: <FrequencyLow> Range: 70E+6 Hz to 6E+9 Hz Default unit: Hz Example: Specifying General and Common Measurement Settings...

Page 590 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "Aggregated" on page 545 CONFigure:LTE:MEAS:CAGGregation:CBANdwidth:AGGRegated? Queries the width of the aggregated channel bandwidth. Return values: <ChBandwidth> Default unit: Hz Example: Specifying General and Common Measurement Settings Usage: Query only Firmware/Software: V3.2.70 Options: R&S CMW-KM502/-KM552 for FDD/TDD...

Page 591 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure: L TE: S IGN: R FSettings[: P CC]: C HANnel: U L Parameters: <AnalyzerFreq> Range: 70E+6 Hz to 6E+9 Hz *RST:...

Page 592 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:RFSettings:FOFFset <Offset> Specifies a positive or negative frequency offset to be added to the carrier center fre- quency (CONFigure: L TE: M EAS: R FSettings[: P CC]: F REQuency This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure:...

Page 593 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure: L TE: S IGN: R FSettings: U MARgin Parameters: <UserMargin> Range: 0 dB to (55 dB + External Attenuation - Expected Nominal Power) *RST: 0 dB...

Page 594 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KM502/-KM552 for FDD/TDD Manual operation: "Measurement Carrier" on page 545 CONFigure:LTE:MEAS[:PCC]:CBANdwidth <ChannelBW> Selects the channel bandwidth of the PCC. This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure:...

Page 595: Multi Evaluation Measurement Commands
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference 3.5.3 Multi Evaluation Measurement Commands The commands for the LTE "Multi Evaluation" measurement are divided into the groups listed below. The general measurement settings also affect the measurement, chapter 3.5.2, "General Measurement Settings", on page 584.

Page 596 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference INITiate:LTE:MEAS:MEValuation STOP:LTE:MEAS:MEValuation ABORt:LTE:MEAS:MEValuation Starts, stops, or aborts the measurement: ● INITiate... starts or restarts the measurement; the R&S CMW enters the "RUN" state. ● STOP... causes a running measurement to stop after the current evaluation period is terminated and valid results are available;...

Page 597 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:STATe:ALL? Queries the main measurement state and the measurement substates. Both measure- ment substates are relevant for running measurements only. Use FETCh:...:STATe? to query the main measurement state only. Use INITiate..., STOP..., ABORt...

Page 598 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference ............599 CONFigure:LTE:MEAS:MEValuation:RESult:EVMC ............599 CONFigure:LTE:MEAS:MEValuation:RESult:IQ ..........599 CONFigure:LTE:MEAS:MEValuation:RESult:ESFLatness ............599 CONFigure:LTE:MEAS:MEValuation:RESult:TXM ........... 599 CONFigure:LTE:MEAS:MEValuation:RESult:SEMask ............599 CONFigure:LTE:MEAS:MEValuation:RESult:ACLR ..........599 CONFigure:LTE:MEAS:MEValuation:RESult:RBATable ..........599 CONFigure:LTE:MEAS:MEValuation:RESult:PMONitor ............600 CONFigure:LTE:MEAS:MEValuation:RESult:BLER ..........600 CONFigure:LTE:MEAS:MEValuation:RESult:PDYNamics CONFigure:LTE:MEAS:MEValuation:RESult[:ALL] <EVM>, <MagnitudeError>, <PhaseError>, <InbandEmissions>, <EVMversusC>, <IQ>, <EquSpecFlatness>, <TXMeasurement>, <SpecEmMask>, <ACLR>[, <RBAllocTable>, <PowerMonitor>, <BLER>, <PowerDynamics>] Enables or disables the evaluation of results and shows or hides the views in the multi...

Page 599 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <TXMeasurement> OFF | ON TX Measurement Statistical Overview *RST: <SpecEmMask> OFF | ON Spectrum Emission Mask *RST: <ACLR> OFF | ON Adjacent Channel Leakage Power Ratio *RST: <RBAllocTable> OFF | ON Resource Block Allocation Table *RST: <PowerMonitor>...

Page 600 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:RESult:BLER <Enable> CONFigure:LTE:MEAS:MEValuation:RESult:PDYNamics <Enable> Enables or disables the evaluation of results and shows or hides the views in the multi evaluation measurement. The mnemonic after "RESult" denotes the view type: Error Vector Magnitude, Magni- tude Error, Phase Error, Inband Emissions, EVM vs.

Page 601 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference ..............608 CONFigure:LTE:MEAS:MEValuation:PLCid ............609 CONFigure:LTE:MEAS:MEValuation:DSSPusch ............609 CONFigure:LTE:MEAS:MEValuation:GHOPping ............609 CONFigure:LTE:MEAS:MEValuation:MSUBframes CONFigure:LTE:MEAS:MEValuation:TOUT <Timeout> Defines a timeout for the measurement. The timer is started when the measurement is initiated via a READ or INIT command. It is not started if the measurement is initiated manually (ON/OFF key or RESTART/STOP key).

Page 602 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:SCONdition <StopCondition> Qualifies whether the measurement is stopped after a failed limit check or continued. SLFail means that the measurement is stopped and reaches the RDY state as soon as one of the results exceeds the limits. Parameters: <StopCondition>...

Page 603 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:TMODe:ENPower <ExpNomPow>... Defines the expected nominal power values for all entries of the "TPC Mode" list. For definition of the corresponding subframe count values, see CONFigure: L TE: MEAS: M EValuation: T MODe: S COunt Parameters: <ExpNomPow>...

Page 604 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <MeasOnException> OFF | ON OFF: Faulty results are rejected ON: Results are never rejected *RST: Example: Specifying Additional Measurement-Specific Settings Firmware/Software: V1.0.10.1 Manual operation: "Measure on Exception" on page 549 CONFigure:LTE:MEAS:MEValuation:ULDL <UplinkDownlink>...

Page 605 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KM550 Manual operation: "Special Subframe" on page 550 CONFigure:LTE:MEAS:MEValuation:CPRefix <CyclicPrefix> Selects the type of cyclic prefix of the LTE signal. This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure:...

Page 606 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:NSValue <Value> Selects the "network signaled value" for measurements without carrier aggregation. This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure: L TE: S IGN: C ONNection: A SEMission Parameters: <Value>...

Page 607 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <NRBViewFilter> Number of allocated resource blocks Range: 1 to 100 *RST: 1, OFF Additional parameters: OFF | ON (disables | enables the filter) Example: Specifying Additional Measurement-Specific Settings Firmware/Software: V1.0.10.1 Manual operation: "View Filter >...

Page 608 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:RBALlocation:NRB <NoRB> Specifies the number of allocated resource blocks in the measured slot. This setting is only relevant if automatic detection of the RB configuration is disabled (CONFigure: LTE: M EAS: M EValuation: R BALlocation: A UTO For the allowed input range see chapter 3.2.4.1, "Resources in Time and Frequency Domain",...

Page 609 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <PhsLayerCellID> Range: 0 to 503 *RST: Example: Specifying Required Settings Firmware/Software: V1.0.10.1 Manual operation: "Physical Cell ID" on page 553 CONFigure:LTE:MEAS:MEValuation:DSSPusch <DeltaSeqShift> Specifies the delta sequence shift value (Δ ) used to calculate the sequence shift pat- tern for PUSCH.

Page 610 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <SubframeCount> Length of the measured subframe range Range: 1 to 320 *RST: <MeasSubframe> Subframe containing the measured slots for modulation and spectrum results Range: 0 to <SubframeCount>-1 *RST: Example: Specifying Additional Measurement-Specific Settings Firmware/Software: V1.0.15.20 V2.1.10: <SubframeCount>...

Page 611 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:SCOunt:MODulation <StatisticCount> Specifies the statistic count of the measurement. The statistic count is equal to the number of measurement intervals per single shot. Use CONFigure:...:MEAS:...:REPetition SINGleshot | CONTinuous to select either single-shot or continuous measurements. See also: "Statistical Settings"...

Page 612 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <CPnormB014> Length for normal CP, BW = 1.4 MHz Range: 1 to 9 *RST: <CPnormB030> Length for normal CP, BW = 3 MHz Range: 1 to 18 *RST: <CPnormB050> Length for normal CP, BW = 5 MHz Range: 1 to 36 *RST:...

Page 613 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:MODulation:EWLength: CBANdwidth<Band> <CycPrefixNormal>, <CycPrefixExtend> Specifies the EVM window length in samples for a selected channel bandwidth, depending on the cyclic prefix (CP) type. Suffix: <Band> 14,30,50,100,150,200 Channel bandwidth in 0.1 MHz Parameters: <CycPrefixNormal>...

Page 614 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "EVM Exclusion Periods" on page 556 CONFigure:LTE:MEAS:MEValuation:MODulation:EEPeriods:PUSCh:LEADing <Leading> Specifies an EVM exclusion period at the beginning of a subframe (detected channel type "PUSCH"). The specified period is excluded from the calculation of EVM, magni- tude error and phase error results.

Page 615 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:SCOunt:SPECtrum:ACLR <StatisticCount> CONFigure:LTE:MEAS:MEValuation:SCOunt:SPECtrum:SEMask <StatisticCount> Specifies the statistic count of the measurement. The statistic count is equal to the number of measurement intervals per single shot. Use CONFigure:...:MEAS:...:REPetition SINGleshot | CONTinuous to select either single-shot or continuous measurements.

Page 616 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <EUTRA> OFF | ON *RST: Example: Specifying Additional Measurement-Specific Settings Firmware/Software: V1.0.15.0 Manual operation: "ACLR > Select ACLR" on page 558 3.5.3.6 Power Measurement Settings The following commands specify settings for the power measurements..........

Page 617 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:PDYNamics:AEOPower:LAGGing <Lagging> Shifts the end of the evaluation period for OFF power measurements. Parameters: <Lagging> Positive values reduce the evaluation period (ends earlier). Negative values increase the evaluation period (ends later). Range: -1000 Ts to 1000 Ts *RST:...

Page 618 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference 3.5.3.7 BLER Measurement Settings The following commands specify settings for the Block Error Ratio measurement. CONFigure:LTE:MEAS:MEValuation:BLER:SFRames <Subframes>[, <SchedSubfrPerFr>] Specifies the statistic count (number of measured subframes) and the number of scheduled subframes per radio frame for the BLER measurement. BLER is a single shot measurement.

Page 619 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:LIST <Enable> Enables or disables the list mode. Parameters: <Enable> OFF | ON OFF: Disable list mode ON: Enable list mode *RST: Example: Using LTE List Mode Firmware/Software: V2.0.10 Options: R&S CMW-KM012 Manual operation: "Measurement Mode"...

Page 620 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Using LTE List Mode Firmware/Software: V2.0.10 V2.1.25: increased maximum number of segments to 250 V2.1.30: increased maximum number of segments to 512 V3.0.50: increased maximum number of segments to 1000 Options: R&S CMW-KM012 Manual operation:...

Page 621 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Frequency> Center frequency of the RF analyzer for the segment Range: 70E+6 Hz to 6E+9 Hz *RST: 1.95E+9 Hz Default unit: Hz <ChBandwidth> B014 | B030 | B050 | B100 | B150 | B200 Channel bandwidth used in the segment B014: 1.4 MHz B030: 3 MHz...

Page 622 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <NetworkSigValue> NS01 | NS02 | NS03 | NS04 | NS05 | NS06 | NS07 | NS08 | NS09 | NS10 | NS11 | NS12 | NS13 | NS14 | NS15 | NS16 | NS17 | NS18 | NS20 Network signaled value to be used for the segment (NS_01 to NS_18, NS_20)

Page 623 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:LIST:SEGMent<no>:RBALlocation <Auto>, <NoRB>, <Offset> Allows to define the resource block allocation manually for segment <no>. By default, the RB allocation is detected automatically. Suffix: <no> 1..2000 Segment number Parameters: <Auto> OFF | ON OFF: manual definition via <NoRB>...

Page 624 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <ModStatistics> Statistical length in slots Range: 1 to 1000 *RST: <ModEnable> OFF | ON Enable or disable the measurement of modulation results ON: Modulation results are measured according to the other enable flags in this command.

Page 625 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask <SEMstatistics>, <SEenable>, <OBWenable>, <SEMenable> Defines settings for spectrum emission measurements in list mode for segment <no>. Suffix: <no> 1..2000 Segment number Parameters: <SEMstatistics> Statistical length in slots Range: 1 to 1000 *RST: <SEenable>...

Page 626 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <ACLRstatistics> Statistical length in slots Range: 1 to 1000 *RST: <ACLRenable> OFF | ON Enable or disable the measurement of ACLR results ON: ACLR results are measured according to the other enable flags in this command.

Page 627 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference TRIGger:LTE:MEAS:MEValuation:LIST:MODE <Mode> Specifies the trigger mode for list mode measurements. For configuration of retrigger flags, see CONFigure: L TE: M EAS: M EValuation: L IST: S EGMent<no>: S ETup on page 620. Parameters: <Mode>...

Page 628 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference TRIGger:LTE:MEAS:MEValuation:SOURce <Source> Selects the source of the trigger events. Some values are always available in this firm- ware application. They are listed below. Depending on the installed options additional values may be available. A complete list of all supported values can be displayed using TRIGger:...:CATalog:SOURce?.

Page 629 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "Trigger Threshold" on page 562 TRIGger:LTE:MEAS:MEValuation:DELay <Delay> Defines a time delaying the start of the measurement relative to the trigger event. This setting has no influence on "Free Run" measurements. Parameters: <Delay>...

Page 630 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference TRIGger:LTE:MEAS:MEValuation:SMODe <SyncMode> Selects the size of the search window for synchronization - normal or enhanced. Parameters: <SyncMode> NORMal | ENHanced *RST: NORM Example: Configuring the Trigger System Firmware/Software: V2.0.10 Manual operation: "Synchronization Mode"...

Page 631 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <RMS> Range: 0 % to 100 % *RST: 17.5 %, ON Default unit: % Additional parameters: OFF | ON (disables the limit check | ena- bles the limit check using the previous/default limit values) <Peak>...

Page 632 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Peak> Range: 0 deg to 180 deg *RST: 35 deg, OFF Default unit: deg Additional parameters: OFF | ON (disables the limit check | ena- bles the limit check using the previous/default limit values) Example: Specifying Limits Firmware/Software: V1.0.10.1...

Page 633 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Specifying Limits Firmware/Software: V1.0.10.1 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:IBE <Enable>, <Minimum>, <EVM>, <RBPower>, <IQImage> Defines parameters used for calculation of an upper limit for the inband emission (QPSK modulation), see chapter 3.2.5.5, "Inband Emissions Limits", on page 511.

Page 634 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Offset3> Offset for low TX power range Range: -256 dBc to 256 dBc *RST: -9.2 dBc Default unit: dBc Example: Specifying Limits Firmware/Software: V1.0.10.1 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:ESFLatness <Enable>, <Range1>, <Range2>, <Max1Min2>, <Max2Min1>, <EdgeFrequency> Defines limits for the equalizer spectrum flatness (QPSK modulation).

Page 635 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference 3.5.3.11 Limits (Modulation, 16-QAM / 64-QAM) The following commands define limits for results which characterize the modulation accuracy of signals with modulation scheme 16-QAM or 64-QAM..... 635 CONFigure:LTE:MEAS:MEValuation:LIMit:QAM<ModOrder>:EVMagnitude ......635 CONFigure:LTE:MEAS:MEValuation:LIMit:QAM<ModOrder>:MERRor ......636 CONFigure:LTE:MEAS:MEValuation:LIMit:QAM<ModOrder>:PERRor...

Page 636 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <RMS> Range: 0 % to 100 % *RST: 12.5 % (16-QAM) / 7.5 % (64-QAM), OFF Default unit: % Additional parameters: OFF | ON (disables the limit check | ena- bles the limit check using the previous/default limit values) <Peak>...

Page 637 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <FrequencyError> Range: 0 ppm to 1 ppm *RST: 0.1 ppm, ON Default unit: ppm Additional parameters: OFF | ON (disables the limit check | ena- bles the limit check using the previous/default limit values) Example: Specifying Limits Firmware/Software: V1.0.10.1...

Page 638 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:LIMit:QAM<ModOrder>:IBE <Enable>, <Minimum>, <EVM>, <RBPower>, <IQImage> Defines parameters used for calculation of an upper limit for the inband emission (16- QAM or 64-QAM modulation), see chapter 3.2.5.5, "Inband Emissions Limits", on page 511. Suffix: <ModOrder>...

Page 639 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Offset2> Offset for intermediate TX power range Range: -256 dBc to 256 dBc *RST: -19.2 dBc Default unit: dBc <Offset3> Offset for low TX power range Range: -256 dBc to 256 dBc *RST: -9.2 dBc Default unit: dBc...

Page 640 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <EdgeFrequency> Frequency band edge distance of border between range 1 and range 2 Range: 0 MHz to 20 MHz *RST: 3 MHz Default unit: Hz Example: Specifying Limits Firmware/Software: V2.0.10 3.5.3.12 Limits (Spectrum, no Carrier Aggregation) The following commands define ACLR and spectrum emission limits for measurements without carrier aggregation.

Page 641 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:LIMit:ACLR:EUTRa:CBANdwidth<Band> <RelativeLevel>, <AbsoluteLevel> Defines relative and absolute limits for the ACLR measured in an adjacent E-UTRA channel. The settings are defined separately for each channel bandwidth. Suffix: <Band> 14,30,50,100,150,200 Channel bandwidth in 0.1 MHz Parameters: <RelativeLevel>...

Page 642 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>: CBANdwidth<Band> <Enable>, <FrequencyStart>, <FrequencyEnd>, <Level>, <RBW> Defines general requirements for the emission mask area <no>. The activation state, the area borders, an upper limit and the resolution bandwidth must be specified. The emission mask applies to the channel bandwidth <Band>.

Page 643 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Band> Range for <FrequencyStart> and <FrequencyEnd> 0 MHz to 5 MHz 0 MHz to 6 MHz 0 MHz to 10 MHz 0 MHz to 15 MHz 0 MHz to 20 MHz 0 MHz to 25 MHz CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>: ADDitional<Table>:CBANdwidth<Band>...

Page 644 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Level> Upper limit for the area Range: -256 dBm to 256 dBm *RST: depends on channel bandwidth, area number and set of requirements Default unit: dBm <RBW> K030 | K100 | M1 Resolution bandwidth to be used for the area K030: 30 kHz K100: 100 kHz...

Page 645 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:CAGGregation: .....................649 OCOMbination CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:ADDitional<Table>: ........650 CAGGregation:CBANdwidth<Band1>:CBANdwidth<Band2> CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:ADDitional<Table>: ................652 CAGGregation:OCOMbination CONFigure:LTE:MEAS:MEValuation:LIMit:ACLR:UTRA<no>:CAGGregation: CBANdwidth<Band1>:CBANdwidth<Band2> <RelativeLevel>, <AbsoluteLevel> Defines relative and absolute limits for the ACLR measured in the first or second adja- cent UTRA channel, depending on <no>. The settings are defined separately for each channel bandwidth combination of the aggregated channels.

Page 646 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The settings apply to all channel bandwidth combinations that are not supported by CONFigure: L TE: M EAS: M EValuation: L IMit: A CLR: U TRA<no>: CAGGregation: C BANdwidth<Band1>: C BANdwidth<Band2> Suffix: <no>...

Page 647 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <AbsoluteLevel> Range: -256 dBm to 256 dBm *RST: -50 dBm, ON Default unit: dBm Additional parameters: OFF | ON (disables the limit check | ena- bles the limit check using the previous/default limit values) Example: Specifying Limits Firmware/Software: V3.2.70...

Page 648 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Band2> 100,150,200 Second channel bandwidth in 0.1 MHz For <Band1> = 150, only <Band2> = 150 is allowed For <Band1> = 200, all <Band2> values are allowed Parameters: <OBWlimit> Range: 0 MHz to 40 MHz *RST: Depends on the channel bandwidths Default unit: Hz...

Page 649 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Band1> 150,200 First channel bandwidth in 0.1 MHz <Band2> 100,150,200 Second channel bandwidth in 0.1 MHz For <Band1> = 150, only <Band2> = 150 is allowed For <Band1> = 200, all <Band2> values are allowed Parameters: <Enable>...

Page 650 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The settings apply to all channel bandwidth combinations that are not supported by CONFigure: L TE: M EAS: M EValuation: L IMit: S EMask: L IMit<no>: CAGGregation: C BANdwidth<Band1>: C BANdwidth<Band2> Suffix: <no>...

Page 651 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The settings are defined separately for each channel bandwidth combination of the aggregated channels. Suffix: <no> 1..12 Number of emission mask area <Band1> 150,200 First channel bandwidth in 0.1 MHz <Band2> 100,150,200 Second channel bandwidth in 0.1 MHz For <Band1>...

Page 652 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KM502/-KM552 for FDD/TDD CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>: ADDitional<Table>:CAGGregation:OCOMbination <Enable>, <FrequencyStart>, <FrequencyEnd>, <Level>, <RBW> Defines additional requirements for the emission mask area <no>. The activation state, the area borders, an upper limit and the resolution bandwidth must be specified. The settings apply to all channel bandwidth combinations that are not supported by CONFigure:...

Page 653 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Specifying Limits Firmware/Software: V3.2.70 V3.2.80: <no> of areas enhanced to 12 Options: R&S CMW-KM502/-KM552 for FDD/TDD 3.5.3.14 Limits (Power) The following command defines limits for results which characterize the power dynam- ics of the signal.

Page 654 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Band> *RST <OnPowerUpper> *RST <OnPowerLower> 1.9 dBm -13.1 dBm 3.6 dBm -11.4 dBm 4.9 dBm -10.1 dBm 3.5.3.15 Detected Signal Configuration The following commands return the detected allocation, modulation scheme and chan- nel type and the view filter throughput.

Page 655 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <ChannelType> PUSCh | PUCCh PUSCh: slot contains only PUSCH PUCCH: slot contains only PUCCH Example: Performing Single-Shot Measurements Usage: Query only Firmware/Software: V2.0.10: MODulation command V2.0.20: ACLR and SEMask commands added FETCh:LTE:MEAS:MEValuation:MODulation:DALLocation? FETCh:LTE:MEAS:MEValuation:ACLR:DALLocation? FETCh:LTE:MEAS:MEValuation:SEMask:DALLocation?

Page 656 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference 3.5.3.16 EVM Results (Traces) The following commands return the EVM vs SC-FDMA symbol and EVM vs subcarrier results of the multi evaluation measurement..........656 FETCh:LTE:MEAS:MEValuation:EVMagnitude:CURRent? ..........656 FETCh:LTE:MEAS:MEValuation:EVMagnitude:AVERage? ........... 656 FETCh:LTE:MEAS:MEValuation:EVMagnitude:MAXimum? ..........656 READ:LTE:MEAS:MEValuation:EVMagnitude:CURRent?

Page 657 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Reliability> Reliability Indicator <EVM_1> ... n EVM values, one per subcarrier <EVM_n> For not allocated subcarriers NCAP is returned. Range: 0 % to 100 % Default unit: % Example: Performing Single-Shot Measurements Usage: Query only...

Page 658 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:PERRor:CURRent? FETCh:LTE:MEAS:MEValuation:PERRor:AVERage? FETCh:LTE:MEAS:MEValuation:PERRor:MAXimum? READ:LTE:MEAS:MEValuation:PERRor:CURRent? READ:LTE:MEAS:MEValuation:PERRor:AVERage? READ:LTE:MEAS:MEValuation:PERRor:MAXimum? Returns the values of the phase error bar graphs for the SC-FDMA symbols in the measured slot. The results of the current, average and maximum bar graphs can be retrieved.

Page 659 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V2.0.10 3.5.3.20 Spectrum Emission Results (Traces) The following commands return the spectrum emission trace results of the multi evalu- ation measurement. FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:CURRent? FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:AVERage? FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:MAXimum? READ:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:CURRent? READ:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:AVERage? READ:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:MAXimum? Returns the values of the spectrum emission traces.

Page 660 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:TRACe:IQ:LOW? FETCh:LTE:MEAS:MEValuation:TRACe:IQ:HIGH? Returns the results in the I/Q constellation diagram for low and high EVM window posi- tion. See also chapter 3.2.6.7, "Detailed Views: I/Q Constellation Diagram", on page 527 Return values: <Reliability>...

Page 661 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference 3.5.3.23 Inband Emission Results The following commands return the inband emission trace results of the multi evalua- tion measurement...........661 FETCh:LTE:MEAS:MEValuation:TRACe:IEMissions[:PCC]? ........... 661 READ:LTE:MEAS:MEValuation:TRACe:IEMissions[:PCC]? ........661 FETCh:LTE:MEAS:MEValuation:TRACe:IEMissions:SCC<no>? ........661 READ:LTE:MEAS:MEValuation:TRACe:IEMissions:SCC<no>? ......662 FETCh:LTE:MEAS:MEValuation:IEMission[:PCC]:MARGin:CURRent? ......662 FETCh:LTE:MEAS:MEValuation:IEMission[:PCC]:MARGin:AVERage?

Page 662: Outoftolerance
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <no> Only SCC1 supported - suffix can be omitted Return values: <Reliability> Reliability Indicator <Power> n power values, one value per resource block Range: -100 dB to 10 dB Default unit: dB Example: Performing Single-Shot Measurements Usage:...

Page 663 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:EXTReme? FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:SDEViation? Return the limit line margin results for the SCC diagram. The CURRent margin indi- cates the minimum (vertical) distance between the inband emissions limit line and the current trace. A negative result indicates that the limit is exceeded. The AVERage, EXTReme and SDEViation values are calculated from the current mar- gins.

Page 664 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V2.0.10 FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:CURRent: RBINdex? FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:EXTReme: RBINdex? Return resource block indices for SCC inband emission margins. At these RB indices the CURRent and EXTReme margins have been detected (see FETCh:...

Page 665 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:TRACe:ACLR:CURRent? FETCh:LTE:MEAS:MEValuation:TRACe:ACLR:AVERage? READ:LTE:MEAS:MEValuation:TRACe:ACLR:CURRent? READ:LTE:MEAS:MEValuation:TRACe:ACLR:AVERage? Returns the absolute powers as displayed in the ACLR diagram. The current and aver- age values can be retrieved. See also chapter 3.2.6.6, "Detailed Views: Spectrum ACLR", on page 526.

Page 666 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference See also chapter 3.2.6.6, "Detailed Views: Spectrum ACLR", on page 526. The values described below are returned by FETCh and READ commands. CALCulate commands return limit check results instead, one value for each result listed below. Return values: <1_Reliability>...

Page 667: Detected Channel Type
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference For each captured slot, three results are returned: <Reliability>, {<ChannelType>, <OffsetRB>, <NoRB>} , ..., {<ChannelType>, <Off- slot 1 setRB>, <NoRB>} slot n n equals two times the number of captured subframes (see CONFigure:...

Page 668 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <ChannelType> PUSCh | PUCCh | NONE | DL | SSUB Detected channel type for the first captured slot PUSCh: slot contains only PUSCH PUCCH: slot contains only PUCCH NONE: slot contains no allocated RBs at all DL: downlink slot (only relevant for TDD) SSUB: part of special subframe (only relevant for TDD) <OffsetRB>...

Page 669 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:TRACe:PMONitor:SCC<no>? READ:LTE:MEAS:MEValuation:TRACe:PMONitor:SCC<no>? Returns the power monitor results for all captured SCC subframes. The number of sub- frames can be configured, see CONFigure: L TE: M EAS: M EValuation: MSUBframes Suffix: <no> Only SCC1 supported - suffix can be omitted Return values: <Reliability>...

Page 670 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference READ:LTE:MEAS:MEValuation:MODulation:CURRent? READ:LTE:MEAS:MEValuation:MODulation:AVERage? READ:LTE:MEAS:MEValuation:MODulation:SDEViation? CALCulate:LTE:MEAS:MEValuation:MODulation:CURRent? CALCulate:LTE:MEAS:MEValuation:MODulation:AVERage? Return the current, average and standard deviation single value results. The values described below are returned by FETCh and READ commands. CALCulate commands return limit check results instead, one value for each result listed below. The ranges indicated below apply to all results except standard deviation results.

Page 671 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <15_IQoffset> I/Q origin offset Range: -100 dBc to 0 dBc Default unit: dBc <16_FreqError> Carrier frequency error Range: -80000 Hz to 80000 Hz Default unit: Hz <17_TimingError> Transmit time error Range: -32000 Ts to 32000 Ts Default unit: Ts (basic LTE time unit) <18_TXpower>...

Page 672 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:MODulation:EXTReme? READ:LTE:MEAS:MEValuation:MODulation:EXTReme? CALCulate:LTE:MEAS:MEValuation:MODulation:EXTReme? Returns the extreme single value results. The values described below are returned by FETCh and READ commands. CALCulate commands return limit check results instead, one value for each result listed below. The number to the left of each result parameter is provided for easy identification of the parameter position within the result array.

Page 673 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <17_TimingError> Transmit time error Range: -32000 Ts to 32000 Ts Default unit: Ts (basic LTE time unit) <18_TXpowerMin> Minimum and maximum user equipment power <19_TXpowerMax> Range: -100 dBm to 55 dBm Default unit: dBm <20_PeakPowMin>...

Page 674 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference READ:LTE:MEAS:MEValuation:EVMC:PEAK:MAXimum? READ:LTE:MEAS:MEValuation:EVMC:PEAK:SDEViation? The CURRent command returns the maximum value of the EVM vs subcarrier trace. The AVERage, MAXimum and SDEViation values are calculated from the CURRent values. The peak results cannot be displayed at the GUI. Return values: <Reliability>...

Page 675 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The ranges indicated below apply to all results except standard deviation results. The minimum for standard deviation results equals 0. The maximum equals the width of the indicated range divided by two. Exceptions are explicitly stated. The number to the left of each result parameter is provided for easy identification of the parameter position within the result array.

Page 676 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CALCulate:LTE:MEAS:MEValuation:ESFLatness:CURRent? CALCulate:LTE:MEAS:MEValuation:ESFLatness:AVERage? CALCulate:LTE:MEAS:MEValuation:ESFLatness:EXTReme? Return current, average and extreme single value results of the equalizer spectrum flatness measurement. See also chapter 3.2.5.6, "Equalizer Spectrum Flatness Limits", on page 513. The values described below are returned by FETCh and READ commands. CALCulate commands return limit check results instead, one value for each result listed below.

Page 677 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <OutOfTolerance> Out of tolerance result, i.e. percentage of measurement inter- vals of the statistic count for modulation measurements exceed- ing the specified equalizer spectrum flatness limits. Range: 0 % to 100 % <Maximum1>...

Page 678 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Time Mask Power1 Power2 Power3 Power4 General On / Off OFF Power (before) ON Power RMS ON Power Peak OFF Power (after) PUCCH / PUSCH / SRS SRS ON ON Power RMS ON Power Peak ON Power (after) SRS blanking SRS OFF...

Page 679 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference ............ 680 READ:LTE:MEAS:MEValuation:SEMask:EXTReme? ..........680 CALCulate:LTE:MEAS:MEValuation:SEMask:EXTReme? ..........680 FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:ALL? ......681 FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:CURRent:NEGativ? ......681 FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:CURRent:POSitiv? ......681 FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:AVERage:NEGativ? ......681 FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:AVERage:POSitiv? ......681 FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:MINimum:NEGativ? ......681 FETCh:LTE:MEAS:MEValuation:SEMask:MARGin:MINimum:POSitiv? FETCh:LTE:MEAS:MEValuation:SEMask:CURRent? FETCh:LTE:MEAS:MEValuation:SEMask:AVERage? FETCh:LTE:MEAS:MEValuation:SEMask:SDEViation? READ:LTE:MEAS:MEValuation:SEMask:CURRent? READ:LTE:MEAS:MEValuation:SEMask:AVERage? READ:LTE:MEAS:MEValuation:SEMask:SDEViation? CALCulate:LTE:MEAS:MEValuation:SEMask:CURRent? CALCulate:LTE:MEAS:MEValuation:SEMask:AVERage? Return the current, average and standard deviation single value results of the spec- trum emission measurement.

Page 680 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:SEMask:EXTReme? READ:LTE:MEAS:MEValuation:SEMask:EXTReme? CALCulate:LTE:MEAS:MEValuation:SEMask:EXTReme? Return the extreme single value results of the spectrum emission measurement. The values described below are returned by FETCh and READ commands. CALCulate commands return limit check results instead, one value for each result listed below. Return values: <Reliability>...

Page 681 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <2_OutOfTol> Out of tolerance result, i.e. percentage of measurement inter- vals of the statistic count for spectrum emission measurements exceeding the specified spectrum emission mask limits. Range: 0 % to 100 % Default unit: % <3_CurrNeg1>...

Page 682 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <3_MarginX1> X-position of margin for area 1 Range: -35 MHz to 35 MHz Default unit: Hz <4_MarginY1> Y-value of margin for area 1 Range: -160 dB to 160 dB Default unit: dB <5_MarginX2>...

Page 683 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Performing Single-Shot Measurements Usage: Query only Firmware/Software: V1.0.15.21 V3.0.10: added <DTX> For additional information concerning syntax elements and returned values refer to Conventions and General Information. 3.5.3.32 List Mode Results (One Segment) The following commands return the list mode results for a selected segment.

Page 684 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference ..... 694 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:AVERage? ....694 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:SDEViation? ....694 CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:CURRent? ....694 CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:AVERage? .....695 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:EXTReme? ....695 CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:EXTReme? ....696 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin:ALL? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin:CURRent: ......................697 NEGativ? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin:CURRent: ......................697 POSitiv? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin:AVERage: ......................697 NEGativ? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin:AVERage: ......................

Page 685 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The values described below are returned by FETCh commands. The first four values (Reliability to Out of Tolerance result) are also returned by CALCulate commands. The remaining values returned by CALCulate commands are limit check results, one value for each result listed below.

Page 686 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <18_FreqError> Carrier frequency error Range: -80000 Hz to 80000 Hz Default unit: Hz <19_TimingError> Transmit time error Range: -32000 Ts to 32000 Ts Default unit: Ts (basic LTE time unit) <20_TXpower> User equipment power Range: -100 dBm to 55 dBm...

Page 687 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference The values described below are returned by FETCh commands. The first four values (Reliability to Out of Tolerance result) are also returned by CALCulate commands. The remaining values returned by CALCulate commands are limit check results, one value for each result listed below.

Page 688 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <18_FreqError> Carrier frequency error Range: -80000 Hz to 80000 Hz Default unit: Hz <19_TimingError> Transmit time error Range: -32000 Ts to 32000 Ts Default unit: Ts (basic LTE time unit) <20_TXpowerMin> Minimum and maximum user equipment power <21_TXpowerMax>...

Page 689 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:IEMission:MARGin: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:IEMission:MARGin: SDEViation? Return the inband emission limit line margin results for segment <no> in list mode. The CURRent margins indicate the minimum (vertical) distance between the limit line and the current trace. A negative result indicates that the limit is exceeded. The AVERage, EXTReme and SDEViation values are calculated from the current mar- gins.

Page 690 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <no> 1..1000 Return values: <Reliability> Reliability Indicator In list mode, a zero reliability indicator indicates that the results in all measured segments are valid. A non-zero value indicates that an error occurred in at least one of the measured segments. <SegReliability>...

Page 691 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <3_StatistExpired> Reached statistical length in slots Range: 0 to 1000 <4_OutOfTol> Percentage of measured subframes with failed limit check Range: 0 % to 100 % Default unit: % <5_Ripple1> Max (Range 1) - Min (Range 1) Range: 0 dB to 40 dB Default unit: dB...

Page 692 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ESFLatness: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ESFLatness: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ESFLatness: EXTReme? Return equalizer spectrum flatness single value results for segment <no> in list mode. To define the statistical length for AVERage and EXTReme calculation and enable the calculation of the results see CONFigure:...

Page 693 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Using LTE List Mode Usage: Query only Firmware/Software: V2.0.10 V2.0.20: CALCulate commands V2.1.25: increased maximum number of segments to 250 V2.1.30: increased maximum number of segments to 512 V3.0.50: increased maximum number of segments to 1000 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ESFLatness:CURRent:...

Page 694 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 V2.1.25: increased maximum number of segments to 250 V2.1.30: increased maximum number of segments to 512 V3.0.50: increased maximum number of segments to 1000 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:CURRent? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:AVERage?

Page 695 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 V2.0.20: CALCulate commands V2.1.25: increased maximum number of segments to 250 V2.1.30: increased maximum number of segments to 512 V3.0.50: increased maximum number of segments to 1000 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:EXTReme? Return spectrum emission extreme results for segment <no>...

Page 696 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 V2.0.20: CALCulate command V2.1.25: increased maximum number of segments to 250 V2.1.30: increased maximum number of segments to 512 V3.0.50: increased maximum number of segments to 1000 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin:ALL? Return limit line margin values, i.e.

Page 697 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin: CURRent:NEGativ? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin: CURRent:POSitiv? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin: AVERage:NEGativ? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin: AVERage:POSitiv? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin: MINimum:NEGativ? FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:MARGin: MINimum:POSitiv? Return spectrum emission mask margin results for segment <no> in list mode. The individual commands provide results for the CURRent, AVERage and maximum traces (resulting in MINimum margins) for NEGative and POSitive offset frequen- cies.

Page 698 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V2.0.10 V2.1.25: increased maximum number of segments to 250 V2.1.30: increased maximum number of segments to 512 V3.0.50: increased maximum number of segments to 1000 V3.2.80: increased number of areas to 12 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ACLR:CURRent?

Page 699 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <8_EUTRA> Power in the allocated E-UTRA channel Range: -100 dBm to 55 dBm Default unit: dBm <9_EUTRApos> ACLR for the first adjacent E-UTRA channel above the carrier frequency Range: 0 dB to 100 dB Default unit: dB <10_UTRA1pos>...

Page 700 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Power_1> ... n power values, one per subframe, from first to last subframe of <Power_n> the segment For an inactive segment only one INV is returned, independent of the number of configured subframes. Range: -100 dBm to 55 dBm Default unit: dBm...

Page 701 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Using LTE List Mode Usage: Query only Firmware/Software: V2.0.20 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:PMONitor:ARRay: STARt? Returns the offset of the first power monitor result for segment <no> within a result list for all measured segments.

Page 702 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Return values: <Reliability> Reliability Indicator In list mode, a zero reliability indicator indicates that the results in all measured segments are valid. A non-zero value indicates that an error occurred in at least one of the measured segments. <Length>...

Page 703: Qpsk Limits Are Applied In That Case
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.10 V2.1.25: increased maximum number of segments to 250 V2.1.30: increased maximum number of segments to 512 V3.0.50: increased maximum number of segments to 1000 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:MODulation: DMODulation? Return the detected modulation scheme for segment <no>...

Page 704 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <no> 1..1000 Return values: <Reliability> Reliability Indicator In list mode, a zero reliability indicator indicates that the results in all measured segments are valid. A non-zero value indicates that an error occurred in at least one of the measured segments. <SegReliability>...

Page 705 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <SegReliability> Comma separated list of values, one per measured segment The meaning of the returned values is the same as for the com- mon reliability indicator, see previous parameter. Example: Using LTE List Mode Usage: Query only Firmware/Software: V3.0.10...

Page 706 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:LOW:CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH: EXTReme? Return error vector magnitude peak values for low and high EVM window position, for all measured list mode segments.

Page 707 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH: EXTReme? Return error vector magnitude DMRS values for low and high EVM window position, for all measured list mode segments.

Page 708 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH: EXTReme? Return magnitude error RMS values for low and high EVM window position, for all measured list mode segments.

Page 709 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH: EXTReme? Return magnitude error peak values for low and high EVM window position, for all measured list mode segments.

Page 710 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:HIGH: EXTReme? Return magnitude error DMRS values for low and high EVM window position, for all measured list mode segments.

Page 711 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:LOW: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:RMS:HIGH: EXTReme? Return phase error RMS values for low and high EVM window position, for all mea- sured list mode segments.

Page 712 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH: EXTReme? Return phase error peak values for low and high EVM window position, for all mea- sured list mode segments.

Page 713 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW: SDEViation? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH: EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH: SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW: EXTReme? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH: EXTReme? Return phase error DMRS values for low and high EVM window position, for all mea- sured list mode segments.

Page 714 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:IQOFfset:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:IQOFfset:SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:IQOFfset:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:IQOFfset:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:IQOFfset:EXTReme? Return I/Q origin offset values for all measured list mode segments. The values described below are returned by FETCh commands. CALCulate com- mands return limit check results instead, one value for each result listed below. Return values: <Reliability>...

Page 715 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:EXTReme? Return transmit time error values for all measured list mode segments. The values described below are returned by FETCh commands. CALCulate com- mands return limit check results instead, one value for each result listed below. Return values: <Reliability>...

Page 716 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:CURRent? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:MINimum? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:MAXimum? FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:MINimum? CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PPOWer:MAXimum? Return user equipment peak power values for all measured list mode segments. The values described below are returned by FETCh commands. CALCulate com- mands return limit check results instead, one value for each result listed below.

Page 717 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.1.30 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:CURRent? FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:SDEViation? Return the inband emission limit line margin results for all measured list mode seg- ments. The CURRent margins indicate the minimum (vertical) distance between the limit line and the current trace.

Page 718 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:CURRent? FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:EXTReme? Return equalizer spectrum flatness single value results ("Ripple 1" or "Ripple 2") for all measured list mode segments. The values described below are returned by FETCh commands. CALCulate com- mands return limit check results instead, one value for each result listed below.

Page 719 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Suffix: <no> 1..2 DIFFerence1 = Max (Range 1) - Min (Range 2) DIFFerence2 = Max (Range 2) - Min (Range 1) Return values: <Reliability> Reliability Indicator <Difference> Comma separated list of values, one per measured segment Range: -40 dB to 40 dB Default unit: dB...

Page 720 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:EXTReme? Return equalizer spectrum flatness single value results (maximum within a range) for all measured list mode segments. The values described below are returned by FETCh commands. CALCulate com- mands return limit check results instead, one value for each result listed below.

Page 721 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:CURRent? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:AVERage? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:EXTReme? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:SDEViation? CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:OBW:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:OBW:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:OBW:EXTReme? Return the occupied bandwidth for all measured list mode segments. The values described below are returned by FETCh commands. CALCulate com- mands return limit check results instead, one value for each result listed below.

Page 722 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.1.30 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:NEGativ: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:NEGativ: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:NEGativ: MINimum? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:POSitiv: AVERage? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:POSitiv: CURRent? FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:POSitiv: MINimum? Return spectrum emission mask margin positions for all measured list mode segments. The individual commands provide results for the CURRent, AVERage and maximum traces (resulting in MINimum margins) for NEGative and POSitive offset frequen- cies.

Page 723 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:EUTRa:CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:EUTRa:AVERage? Return the power in the allocated E-UTRA channel for all measured list mode seg- ments. The values described below are returned by FETCh commands. CALCulate com- mands return limit check results instead, one value for each result listed below. Return values: <Reliability>...

Page 724 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:POSitiv:CURRent? FETCh:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:POSitiv:AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:NEGativ: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:NEGativ: AVERage? CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:POSitiv: CURRent? CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:POSitiv: AVERage? Return the ACLR for the first or second adjacent UTRA channel above (POSitiv) or below (NEGativ) the carrier frequency for all measured list mode segments. The values described below are returned by FETCh commands.

Page 725 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference <OffsetResBlocks> Offset of the first allocated resource block from the edge of the allocated UL transmission bandwidth Range: 0 to 99 Example: Using LTE List Mode Usage: Query only Firmware/Software: V2.1.30 Options: R&S CMW-KM012 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:DMODulation?

Page 726: Combined Signal Path Commands
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.1.30 Options: R&S CMW-KM012 3.5.4 Combined Signal Path Commands For some settings, the command to be used depends on the active scenario. While the Combined Signal Path (CSP) scenario is active, these settings are configured via com- mands of the signaling application.

Page 727: List Of Commands
® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands Table 3-3: Mapping for multi evaluation measurement commands Setting Commands for SA scenario Commands for CSP scenario Measurement mode Fixed value TMODe CONFigure: L TE: M EAS: M EValuation: MMODe TPC mode settings Automatic configuration CONFigure:...

Page 728 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:NEGativ:CURRent?......... 724 CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:POSitiv:AVERage?........724 CALCulate:LTE:MEAS:MEValuation:LIST:ACLR:UTRA<no>:POSitiv:CURRent?........724 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:DIFFerence<no>:AVERage?......718 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:DIFFerence<no>:CURRent?......718 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:DIFFerence<no>:EXTReme?......718 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:AVERage?........720 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:CURRent?........720 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MAXR<no>:EXTReme?........720 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MINR<no>:AVERage?........719 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MINR<no>:CURRent?........719 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:MINR<no>:EXTReme?........719 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:AVERage?........718 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:CURRent?........718 CALCulate:LTE:MEAS:MEValuation:LIST:ESFLatness:RIPPle<no>:EXTReme?........718 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH:AVERage?......707 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH:CURRent?......707 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH:EXTReme?......707 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW:AVERage?......

Page 729 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW:EXTReme?......709 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH:AVERage?....... 708 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH:CURRent?......708 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH:EXTReme?...... 708 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW:AVERage?......708 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW:CURRent?......708 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW:EXTReme?....... 708 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH:AVERage?..... 713 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH:CURRent?......713 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH:EXTReme?....713 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW:AVERage?...... 713 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW:CURRent?...... 713 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW:EXTReme?..... 713 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH:AVERage?...... 712 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH:CURRent?.......712 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:HIGH:EXTReme?..... 712 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW:AVERage?....... 712 CALCulate:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:PEAK:LOW:CURRent?.......

Page 730 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands CALCulate:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:EXTReme?........695 CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:OBW:AVERage?............. 721 CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:OBW:CURRent?............. 721 CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:OBW:EXTReme?............ 721 CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:AVERage?..........721 CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:CURRent?..........721 CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:MAXimum?..........721 CALCulate:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:MINimum?..........721 CALCulate:LTE:MEAS:MEValuation:MODulation:AVERage?..............670 CALCulate:LTE:MEAS:MEValuation:MODulation:CURRent?..............670 CALCulate:LTE:MEAS:MEValuation:MODulation:EXTReme?..............672 CALCulate:LTE:MEAS:MEValuation:PDYNamics:AVERage?..............677 CALCulate:LTE:MEAS:MEValuation:PDYNamics:CURRent?..............677 CALCulate:LTE:MEAS:MEValuation:PDYNamics:MAXimum?..............677 CALCulate:LTE:MEAS:MEValuation:PDYNamics:MINimum?..............677 CALCulate:LTE:MEAS:MEValuation:SEMask:AVERage?............... 679 CALCulate:LTE:MEAS:MEValuation:SEMask:CURRent?................679 CALCulate:LTE:MEAS:MEValuation:SEMask:EXTReme?..............680 CONFigure:LTE:MEAS:BAND........................

Page 731 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:MEAS:MEValuation:LIMit:QAM<ModOrder>:PERRor........... 636 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:ESFLatness............... 634 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:EVMagnitude............. 630 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:FERRor..............632 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:IBE................633 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:IBE:IQOFfset............. 633 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:IQOFfset..............632 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:MERRor..............631 CONFigure:LTE:MEAS:MEValuation:LIMit:QPSK:PERRor..............631 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:ADDitional<Table>: CAGGregation:CBANdwidth<Band1>:CBANdwidth<Band2>..............650 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:ADDitional<Table>: CAGGregation:OCOMbination........................ 652 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:ADDitional<Table>: CBANdwidth<Band>..........................643 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:CAGGregation: CBANdwidth<Band1>:CBANdwidth<Band2>..................648 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:CAGGregation:OCOMbination....649 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:LIMit<no>:CBANdwidth<Band>......642 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:OBWLimit:CAGGregation: CBANdwidth<Band1>:CBANdwidth<Band2>..................647 CONFigure:LTE:MEAS:MEValuation:LIMit:SEMask:OBWLimit:CAGGregation:OCOMbination....648...

Page 732 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:MEAS:MEValuation:POWer:HDMode................617 CONFigure:LTE:MEAS:MEValuation:RBALlocation:AUTO..............607 CONFigure:LTE:MEAS:MEValuation:RBALlocation:NRB................ 608 CONFigure:LTE:MEAS:MEValuation:RBALlocation:ORB................ 608 CONFigure:LTE:MEAS:MEValuation:REPetition..................601 CONFigure:LTE:MEAS:MEValuation:RESult:ACLR.................599 CONFigure:LTE:MEAS:MEValuation:RESult:BLER................. 600 CONFigure:LTE:MEAS:MEValuation:RESult:ESFLatness...............599 CONFigure:LTE:MEAS:MEValuation:RESult:EVMagnitude..............599 CONFigure:LTE:MEAS:MEValuation:RESult:EVMC................599 CONFigure:LTE:MEAS:MEValuation:RESult:IEMissions................. 599 CONFigure:LTE:MEAS:MEValuation:RESult:IQ..................599 CONFigure:LTE:MEAS:MEValuation:RESult:MERRor................599 CONFigure:LTE:MEAS:MEValuation:RESult:PDYNamics............... 600 CONFigure:LTE:MEAS:MEValuation:RESult:PERRor................599 CONFigure:LTE:MEAS:MEValuation:RESult:PMONitor................599 CONFigure:LTE:MEAS:MEValuation:RESult:RBATable................599 CONFigure:LTE:MEAS:MEValuation:RESult:SEMask................599 CONFigure:LTE:MEAS:MEValuation:RESult:TXM...................599 CONFigure:LTE:MEAS:MEValuation:RESult[:ALL].................. 598 CONFigure:LTE:MEAS:MEValuation:SCONdition..................602 CONFigure:LTE:MEAS:MEValuation:SCOunt:MODulation..............611 CONFigure:LTE:MEAS:MEValuation:SCOunt:POWer................

Page 733 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands FETCh:LTE:MEAS:MEValuation:ESFLatness:CURRent?............... 674 FETCh:LTE:MEAS:MEValuation:ESFLatness:EXTReme?..............674 FETCh:LTE:MEAS:MEValuation:ESFLatness:SDEViation?..............674 FETCh:LTE:MEAS:MEValuation:EVMagnitude:AVERage?..............656 FETCh:LTE:MEAS:MEValuation:EVMagnitude:CURRent?..............656 FETCh:LTE:MEAS:MEValuation:EVMagnitude:MAXimum?..............656 FETCh:LTE:MEAS:MEValuation:EVMC:PEAK:AVERage?..............673 FETCh:LTE:MEAS:MEValuation:EVMC:PEAK:CURRent?..............673 FETCh:LTE:MEAS:MEValuation:EVMC:PEAK:MAXimum?..............673 FETCh:LTE:MEAS:MEValuation:EVMC:PEAK:SDEViation?..............673 FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:AVERage?..........662 FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:CURRent:RBINdex?......664 FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:CURRent?..........662 FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:EXTReme:RBINdex?......664 FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:EXTReme?...........663 FETCh:LTE:MEAS:MEValuation:IEMission:SCC<no>:MARGin:SDEViation?......... 663 FETCh:LTE:MEAS:MEValuation:IEMission[:PCC]:MARGin:AVERage?..........662 FETCh:LTE:MEAS:MEValuation:IEMission[:PCC]:MARGin:CURRent:RBINdex?........663 FETCh:LTE:MEAS:MEValuation:IEMission[:PCC]:MARGin:CURRent?..........662 FETCh:LTE:MEAS:MEValuation:IEMission[:PCC]:MARGin:EXTReme:RBINdex?........663 FETCh:LTE:MEAS:MEValuation:IEMission[:PCC]:MARGin:EXTReme?..........

Page 734 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:SCINdex:MAXimum<no>:CURRent?......720 FETCh:LTE:MEAS:MEValuation:LIST:ESFLatness:SCINdex:MINimum<no>:CURRent?.......720 FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:AVERage?............717 FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:CURRent?............ 717 FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:EXTReme?........... 717 FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:RBINdex:CURRent?........717 FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:RBINdex:EXTReme?........717 FETCh:LTE:MEAS:MEValuation:LIST:IEMission:MARGin:SDEViation?..........717 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:DALLocation?............724 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:DCHType?............... 725 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:DMODulation?............725 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH:AVERage?.........707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH:CURRent?......... 707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH:EXTReme?........707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:HIGH:SDEViation?......707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW:AVERage?......... 707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW:CURRent?........707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW:EXTReme?.........707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:DMRS:LOW:SDEViation?.......707 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH:AVERage?........706 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH:CURRent?........706 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH:EXTReme?.........706 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:EVM:PEAK:HIGH:SDEViation?.......

Page 735 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:DMRS:LOW:SDEViation?......710 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH:AVERage?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH:CURRent?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH:EXTReme?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:HIGH:SDEViation?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW:AVERage?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW:CURRent?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW:EXTReme?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:PEAK:LOW:SDEViation?......709 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH:AVERage?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH:CURRent?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH:EXTReme?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:HIGH:SDEViation?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW:AVERage?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW:CURRent?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW:EXTReme?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:MERRor:RMS:LOW:SDEViation?......708 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH:AVERage?......713 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH:CURRent?......713 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH:EXTReme?......713 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:HIGH:SDEViation?......713 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PERRor:DMRS:LOW:AVERage?......

Page 736 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands FETCh:LTE:MEAS:MEValuation:LIST:MODulation:PSD:SDEViation?............ 716 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:AVERage?..........714 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:CURRent?..........714 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:EXTReme?..........715 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TERRor:SDEViation?..........715 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TPOWer:AVERage?..........715 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TPOWer:CURRent?..........715 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TPOWer:MAXimum?..........715 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TPOWer:MINimum?..........715 FETCh:LTE:MEAS:MEValuation:LIST:MODulation:TPOWer:SDEViation?..........715 FETCh:LTE:MEAS:MEValuation:LIST:PMONitor:PEAK?................ 700 FETCh:LTE:MEAS:MEValuation:LIST:PMONitor:RMS?................700 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ACLR:AVERage?..........698 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ACLR:CURRent?..........698 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ACLR:DALLocation?...........702 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ACLR:DCHType?..........703 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ESFLatness:AVERage?........690 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ESFLatness:CURRent:SCINdex?.......693 FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:ESFLatness:CURRent?........

Page 737 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands FETCh:LTE:MEAS:MEValuation:LIST:SEGMent<no>:SEMask:SDEViation?......... 694 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:DALLocation?..............724 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:DCHType?..............725 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:NEGativ:AVERage?.....722 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:NEGativ:CURRent?..... 722 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:NEGativ:MINimum?..... 722 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:POSitiv:AVERage?...... 722 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:POSitiv:CURRent?...... 722 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:MARGin:AREA<no>:POSitiv:MINimum?...... 722 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:AVERage?............721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:CURRent?............721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:EXTReme?............721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:OBW:SDEViation?............721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:AVERage?.............721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:CURRent?............. 721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:MAXimum?............ 721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:MINimum?............. 721 FETCh:LTE:MEAS:MEValuation:LIST:SEMask:TXPower:SDEViation?..........

Page 738 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands FETCh:LTE:MEAS:MEValuation:STATe:ALL?..................597 FETCh:LTE:MEAS:MEValuation:STATe?....................596 FETCh:LTE:MEAS:MEValuation:TRACe:ACLR:AVERage?..............665 FETCh:LTE:MEAS:MEValuation:TRACe:ACLR:CURRent?..............665 FETCh:LTE:MEAS:MEValuation:TRACe:ESFLatness?................658 FETCh:LTE:MEAS:MEValuation:TRACe:EVMC?..................656 FETCh:LTE:MEAS:MEValuation:TRACe:IEMissions:SCC<no>?............661 FETCh:LTE:MEAS:MEValuation:TRACe:IEMissions[:PCC]?..............661 FETCh:LTE:MEAS:MEValuation:TRACe:IQ:HIGH?.................660 FETCh:LTE:MEAS:MEValuation:TRACe:IQ:LOW?..................660 FETCh:LTE:MEAS:MEValuation:TRACe:PDYNamics:AVERage?............660 FETCh:LTE:MEAS:MEValuation:TRACe:PDYNamics:CURRent?............660 FETCh:LTE:MEAS:MEValuation:TRACe:PDYNamics:MAXimum?............660 FETCh:LTE:MEAS:MEValuation:TRACe:PMONitor:SCC<no>?.............. 669 FETCh:LTE:MEAS:MEValuation:TRACe:PMONitor[:PCC]?..............668 FETCh:LTE:MEAS:MEValuation:TRACe:RBATable:SCC<no>?............. 667 FETCh:LTE:MEAS:MEValuation:TRACe:RBATable[:PCC]?..............666 FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:AVERage?..........659 FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:CURRent?..........659 FETCh:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:MAXimum?..........659 FETCh:LTE:MEAS:MEValuation:VFTHroughput?..................655 INITiate:LTE:MEAS:MEValuation......................

Page 739 ® LTE Multi Evaluation Measurement R&S CMW-KM5xx/-KS5xx List of Commands READ:LTE:MEAS:MEValuation:PERRor:MAXimum?................658 READ:LTE:MEAS:MEValuation:SEMask:AVERage?................679 READ:LTE:MEAS:MEValuation:SEMask:CURRent?................679 READ:LTE:MEAS:MEValuation:SEMask:EXTReme?................680 READ:LTE:MEAS:MEValuation:SEMask:SDEViation?................679 READ:LTE:MEAS:MEValuation:TRACe:ACLR:AVERage?..............665 READ:LTE:MEAS:MEValuation:TRACe:ACLR:CURRent?..............665 READ:LTE:MEAS:MEValuation:TRACe:ESFLatness?................658 READ:LTE:MEAS:MEValuation:TRACe:EVMC?..................656 READ:LTE:MEAS:MEValuation:TRACe:IEMissions:SCC<no>?..............661 READ:LTE:MEAS:MEValuation:TRACe:IEMissions[:PCC]?..............661 READ:LTE:MEAS:MEValuation:TRACe:PDYNamics:AVERage?............660 READ:LTE:MEAS:MEValuation:TRACe:PDYNamics:CURRent?............660 READ:LTE:MEAS:MEValuation:TRACe:PDYNamics:MAXimum?............660 READ:LTE:MEAS:MEValuation:TRACe:PMONitor:SCC<no>?............... 669 READ:LTE:MEAS:MEValuation:TRACe:PMONitor[:PCC]?..............668 READ:LTE:MEAS:MEValuation:TRACe:RBATable:SCC<no>?...............667 READ:LTE:MEAS:MEValuation:TRACe:RBATable[:PCC]?..............666 READ:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:AVERage?..........659 READ:LTE:MEAS:MEValuation:TRACe:SEMask:RBW<kHz>:CURRent?..........

Page 740: Lte Prach Measurement
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx What's New in this Revision 4 LTE PRACH Measurement The "LTE PRACH" measurement provides quick and flexible tests on LTE FDD and TDD random access preambles. The tests cover the following UE transmitter proper- ties: ●...

Page 741: Test Setup
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description 4.2.1 Test Setup The external RF signal source (mobile station, signal generator etc.) is connected to one of the RF input connectors (RF COM) at the front panel of the R&S CMW. No additional cabling and no external trigger is needed.

Page 742: Defining The Scope Of The Measurement
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description The R&S CMW can auto-detect the location of the used resource blocks in the fre- quency domain ("PRACH Frequency Offset"). It can also auto-detect which of the 64 preamble sequences defined by the parameters above is used ("Sequence Index"). Non-matching "Measurement Control"...

Page 743: Parallel Signaling And Measurement
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Example: Statistical evaluation for preambles with constant power Scenario: The EVM shall be measured for 100 preambles, so that the average and the maximum value can be evaluated. Used view: "EVM" Settings: statistic count = 100, number of preambles = 1, repetition = single shot 4.2.4 Parallel Signaling and Measurement The PRACH measurement can be used in parallel to the LTE signaling application (option R&S CMW-KS500/-KS550).

Page 744: Calculation Of Modulation Results
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description For configuration see chapter 4.3.2.5, "Trigger Settings", on page 768. 4.2.6 Calculation of Modulation Results Modulation results are based on a comparison between the measured signal, correc- ted by the average frequency and timing offset for each measured subframe, and an ideal reference waveform.

Page 745: Lte Prach Ul Signal Properties
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description EVM window settings Use the settings in the "Config... > Measurement Control > Modulation > EVM Window Length" section to adjust the length of the EVM window (see "EVM Window Length" on page 767). The minimum value of 1 FFT symbol actually corresponds to a window of zero length so that EVM = EVM Use the setting "Config...

Page 746 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Channel Bandwidth [MHz] Resource Blocks (RB) 4.2.7.2 Preambles in the Time Domain In the time domain a preamble consists of a Cyclic Prefix (CP) and the preamble sequence. Fig. 4-4: Preamble structure The length of CP and preamble sequence depend on the preamble format as shown in = 1/30.72 MHz ≈...

Page 747: Limit Settings And Conformance Requirements
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description mine the physical root sequence number u as defined in table 5.7.2-4 and 5.7.2-5 in 3GPP TS 36.211. From the u root Zadoff-Chu sequence, random access preambles with zero correla- tion zones of length N −1 are generated by cyclic shift.

Page 748 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 4-5: Modulation limit settings Characteristics Refer to 3GPP TS 36.521 V9.3.0, section... Specified Limit EVM (RMS) 6.5.2.1 Error Vector Magnitude (EVM) ≤ 17.5 % 4.2.8.2 Power Dynamics Limits Transmission at excessive uplink power increases interference to other channels while a too low uplink power increases transmission errors.

Page 749: Measurement Results
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 4-7: Power dynamics limit settings Characteristics Refer to 3GPP TS 36.521 V9.3.0, section... Specified Limit ON power 6.3.4.2 PRACH and SRS Time Mask ≥ -8.5 dBm, ≤ 6.5 dBm OFF power 6.3.4.2 PRACH and SRS Time Mask ≤...

Page 750 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 4-8: LTE PRACH: Overview The results to be measured and displayed in the overview can be limited using the hot- key "Assign Views", see chapter 4.3.2.7, "Additional Softkeys and Hotkeys", on page 771. You can enlarge one of the diagrams in the overview and show a detailed view with additional measurement results, see chapter 4.2.9.7, "Selecting and Modifying...

Page 751 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 4-9: LTE PRACH: Error Vector Magnitude The diagram shows the EVM in all preamble subcarriers. For preamble format 0 to 3 there are 839 subcarriers with a spacing of 1.25 kHz. For preamble format 4 there are 139 subcarriers with a spacing of 7.5 kHz.

Page 752 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 4-10: LTE PRACH: EVM vs Preamble The diagram shows results for a configurable number of preambles (up to 16), labeled 1 to n. The preambles are captured within one measurement interval and must have a periodicity of 20 ms, so each 20 ms the start of a preamble is expected.

Page 753 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description For a description of the lower rows see chapter 4.2.9.9, "Common View Elements", on page 757. 4.2.9.4 Detailed Views: I/Q Constellation Diagram This "single preamble" view shows the modulation symbols as points in the I/Q plane. Fig.

Page 754 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 4-12: LTE PRACH: Power Dynamics The diagram shows the UE output power vs. time, sampled with 48 T (1.5625 µs). The trace covers the range from -1100 µs to +2098.4375 µs relative to the start of the pre- amble.

Page 755 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description Signal configuration Ensure that two subframes before and after the preamble are off (OFF OFF preamble OFF OFF). This guarantees that the measured "OFF Power (before)" is not falsified by power contributions of a preceding ON subframe ramped down too slowly, or the "OFF Power (after)"...

Page 756 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description ● Carrier Frequency Error: offset between the measured carrier frequency and the nominal RF frequency of the measured radio channel ● Timing Error: Difference between the actual timing and the expected timing. The timing error measurement requires an "external"...

Page 757: Current: Value Of The Result Obtained In The Last Measurement Interval. For Some
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx General Description See also: "Markers" in the R&S CMW user manual, chapter "System Overview" 4.2.9.9 Common View Elements This section describes elements that are displayed in most views. Tables Most detailed views show tables providing a statistical evaluation of results obtained from the measured preamble.

Page 758: Gui Reference
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Detected Sequence Index The sequence index identifies which of the 64 preamble sequences defined for the cell is used by the UE. It is either detected automatically or selected manually, see "Sequence Index" on page 767.

Page 759: Parameters And Settings
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference 4.3.2 Parameters and Settings The most important settings of the "LTE PRACH" measurement are displayed in the measurement dialog. All settings are defined via softkeys and hotkeys or using the "LTE PRACH Configura- tion"...

Page 760 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Scenario = Combined Signal Path Allows to use an LTE signaling application (option R&S CMW-KS500/-KS550) in paral- lel to the LTE PRACH measurement. The signaling application is selected by the addi- tional parameter "Controlled by". Most parameters described in this section and some parameters described in section Measurement Control Settings display values determined by the signaling application.

Page 761 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference External Attenuation (Input) Defines the value of an external attenuation (or gain, if the value is negative) in the input path. The power readings of the R&S CMW are corrected by the external attenu- ation value.

Page 762 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference In the Standalone (SA) scenario, this parameter is controlled by the measurement. In the Combined Signal Path (CSP) scenario, it is controlled by the signaling application. Remote command: (SA) CONFigure: L TE: M EAS: R FSettings: F OFFset (CSP) CONFigure:...

Page 763 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference In the Standalone (SA) scenario, this parameter is controlled by the measurement. In the Combined Signal Path (CSP) scenario, it is controlled by the signaling application. Remote command: (SA) CONFigure: L TE: M EAS: R FSettings: M LOFfset (CSP) CONFigure:...

Page 764 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Stop Condition Specifies the conditions for an early termination of the measurement: ● None: The measurement is performed according to its "Repetition" mode and "Sta- tistic Count", irrespective of the limit check results. ●...

Page 765 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference In the Standalone (SA) scenario, this parameter is controlled by the measurement. In the Combined Signal Path (CSP) scenario, it is controlled by the signaling application. For background information see chapter 4.2.7, "LTE PRACH UL Signal Properties", on page 745.

Page 766 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 4-16: Modulation settings Statistic Count Defines the number of measurement intervals per measurement cycle (statistics cycle, single-shot measurement). This value is also relevant for continuous measurements, because the averaging procedures depend on the statistic count. For "single preamble"...

Page 767 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference For background information see chapter 4.2.7.3, "Preamble Sequences", on page 746. Remote command: (SA) CONFigure: L TE: M EAS: P RACh: M ODulation: L RSindex (CSP) CONFigure: L TE: S IGN: C ELL: P RACh: L RSindex Zero Correlation Zone Config This parameter determines which N value of an N...

Page 768 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference 4.3.2.4 Power Settings The following parameters configure the power settings of the LTE PRACH measure- ment. Fig. 4-17: Power settings Dynamics > Statistic Count Defines the number of measurement intervals per measurement cycle (statistics cycle, single-shot measurement).

Page 769 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 4-18: Trigger settings Trigger Source Selects the source of the trigger event. Some of the trigger sources require additional options. ● IF Power: The measurement is triggered by the power of the received signal, converted into an IF signal.

Page 770 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference This setting has no influence on "Free Run" measurements. Remote command: TRIGger: L TE: M EAS: P RACh: T OUT Min Trigger Gap Defines a minimum duration of the power-down periods (gaps) between two triggered power pulses.

Page 771 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Limits The limits can be configured via the following remote commands. Remote command: CONFigure: L TE: M EAS: P RACh: L IMit: E VMagnitude CONFigure: L TE: M EAS: P RACh: L IMit: M ERRor CONFigure:...

Page 772: Measurement Results
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference 4.3.3 Measurement Results The results of the LTE PRACH measurement are displayed in several different views. For detailed description see chapter 4.2.9, "Measurement Results", on page 749. The PRACH measurement provides an overview dialog and a detailed view for each diagram in the overview.

Page 773 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Fig. 4-21: LTE PRACH: EVM Traces and Bar Graphs The results can be retrieved via the following remote commands. Remote command: etc. FETCh: L TE: M EAS: P RACh: T RACe: E VM: C URRent? etc.

Page 774: Programming
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Programming Statistical Overviews and other Single Values The results can be retrieved via the following remote commands. Remote command: etc. FETCh: L TE: M EAS: P RACh: M ODulation: C URRent? etc. FETCh: L TE: M EAS: P RACh: M ODulation: E XTReme? etc.

Page 775: Specifying General And Common Measurement Settings
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Programming ● For synchronization and proper decoding, some UE signal settings must be in accordance with the measured signal; see chapter 4.4.3, "Specifying Required PRACH Settings", on page 775. 4.4.2 Specifying General and Common Measurement Settings // ***************************************************************************** // System-Reset // *****************************************************************************...

Page 776: Configuring The Trigger System
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Programming // error handling and number of preambles. Enable high dynamic mode. // ***************************************************************************** CONFigure:LTE:MEAS:PRACh:SCONdition SLFail CONFigure:LTE:MEAS:PRACh:SCOunt:MODulation 20 CONFigure:LTE:MEAS:PRACh:SCOunt:PDYNamics 20 CONFigure:LTE:MEAS:PRACh:MOEXception ON CONFigure:LTE:MEAS:PRACh:TOUT 3600 CONFigure:LTE:MEAS:PRACh:NOPReambles 10 CONFigure:LTE:MEAS:PRACh:POWer:HDMode ON // ***************************************************************************** // Disable automatic detection of the PRACH frequency offset and // specify it manually.

Page 777: Performing Single-Shot Measurements
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Programming CONFigure:LTE:MEAS:PRACh:LIMit:EVMagnitude 20, 40 CONFigure:LTE:MEAS:PRACh:LIMit:MERRor 20, OFF CONFigure:LTE:MEAS:PRACh:LIMit:PERRor 20, OFF CONFigure:LTE:MEAS:PRACh:LIMit:FERRor 150 // ***************************************************************************** // Define power dynamics limits. // ***************************************************************************** CONFigure:LTE:MEAS:PRACh:LIMit:PDYNamics ON,6.8,-8.8,-48.8 4.4.7 Performing Single-Shot Measurements // ***************************************************************************** // Enable all measurements. // ***************************************************************************** CONFigure:LTE:MEAS:PRACh:RESult:ALL ON,ON,ON,ON,ON,ON,ON,ON // ***************************************************************************** // Start single-shot measurement, return average EVM trace.

Page 778: Single-Shot And Continuous Measurements
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Read single value results obtained in the last measurement // without re-starting the measurement. // ***************************************************************************** FETCh:LTE:MEAS:PRACh:MODulation:AVERage? FETCh:LTE:MEAS:PRACh:MODulation:EXTReme? FETCh:LTE:MEAS:PRACh:MODulation:PREamble4? FETCh:LTE:MEAS:PRACh:PDYNamics:AVERage? FETCh:LTE:MEAS:PRACh:PDYNamics:MINimum? FETCh:LTE:MEAS:PRACh:PDYNamics:MAXimum? // ***************************************************************************** // Read limit check results obtained in the last measurement // without re-starting the measurement.

Page 779: Command Reference
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference 4.5 Command Reference The following sections provide detailed reference information on the remote control commands of the "LTE PRACH" measurement. ● Conventions and General Information..............779 ● General Measurement Settings................783 ● PRACH Measurement Commands...............

Page 780 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference 4.5.1.3 Current and Statistical Results The R&S CMW repeats measurements according to the selected statistic count and repetition mode. Consecutive measurement values are stored and used to calculate statistical results, e.g. average, minimum, maximum and standard deviation. See also: "Statistical Results"...

Page 781 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference ● 3 (Overdriven) / 4 (Underdriven): The accuracy of measurement results may be impaired because the input signal level was too high / too low. ● 6 (Trigger Timeout): The measurement could not be started or continued because no trigger event was detected.

Page 782 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference The GPRF External Power Sensor measurement could not be started due to miss- ing power sensor. ● 30 (File not Found): The specified file could not be found. ● 40 (ARB File CRC Error): The ARB file CRC check failed.

Page 783: General Measurement Settings
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference If you get firmware errors even with the properly installed latest software version, please send a problem report including log files to Rohde & Schwarz. ● 102 (Unidentified Error): Indicates an error not covered by other reliability values. For troubleshooting please follow the steps described for "101 (Firmware Error)".

Page 784 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference 4.5.3.1 Measurement Control and States The following commands control the measurement and return the current measure- ment state..................784 INITiate:LTE:MEAS:PRACh ..................784 STOP:LTE:MEAS:PRACh ..................784 ABORt:LTE:MEAS:PRACh ................784 FETCh:LTE:MEAS:PRACh:STATe? ..............785 FETCh:LTE:MEAS:PRACh:STATe:ALL? INITiate:LTE:MEAS:PRACh STOP:LTE:MEAS:PRACh ABORt:LTE:MEAS:PRACh...

Page 785 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Return values: <MeasStatus> OFF | RUN | RDY OFF: measurement switched off, no resources allocated, no results available (when entered after ABORt...) RUN: measurement running (after INITiate..., READ...), synchronization pending or adjusted, resources active or queued RDY: measurement has been terminated, valid results may be available *RST:...

Page 786 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Single-Shot and Continuous Measurements Usage: Query only Firmware/Software: V2.0.10 Manual operation: "PRACH (Softkey)" on page 758 4.5.3.2 Enabling Results and Views The following commands select the evaluated results and the displayed views..............

Page 787 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference <PowerDynamics> OFF | ON Power Dynamics *RST: <TXMeasurement> OFF | ON Statistical Overview *RST: <EVMvsPreamble> OFF | ON Error Vector Magnitude vs Preamble *RST: <PowervsPreamble> OFF | ON Power vs Preamble *RST: Example: Performing Single-Shot Measurements Firmware/Software: V2.0.10...

Page 788 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference 4.5.3.3 Measurement Parameters - General Part The following commands define general measurement control parameters for the PRACH measurement................788 CONFigure:LTE:MEAS:PRACh:TOUT ..............788 CONFigure:LTE:MEAS:PRACh:REPetition ..............789 CONFigure:LTE:MEAS:PRACh:SCONdition ..............789 CONFigure:LTE:MEAS:PRACh:MOEXception ..............789 CONFigure:LTE:MEAS:PRACh:PCINdex ............790 CONFigure:LTE:MEAS:PRACh:NOPReambles ............

Page 789 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Repetition> SINGleshot | CONTinuous SINGleshot: Single-shot measurement CONTinuous: Continuous measurement *RST: SING Example: Single-Shot and Continuous Measurements Firmware/Software: V2.0.10 Manual operation: "Repetition" on page 763 CONFigure:LTE:MEAS:PRACh:SCONdition <StopCondition> Qualifies whether the measurement is stopped after a failed limit check or continued. SLFail means that the measurement is stopped and reaches the RDY state as soon as one of the results exceeds the limits.

Page 790 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference This command is only relevant for the standalone scenario. For the combined signal path scenario, use: ● CONFigure: L TE: S IGN: C ELL: P RACh: P CINdex: F DD ● CONFigure: L TE: S IGN: C ELL: P RACh: P CINdex: T DD Parameters: <PRACHconfIndex>...

Page 791 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <PRACHfreqOffset> Range: 0 to <total RB - 6> depending on channel band- width, see table below *RST: Example: Specifying Additional Measurement-Specific Settings Firmware/Software: V2.0.10 Manual operation: "PRACH Frequency Offset" on page 765 Table 4-4: Maximum input value depending on channel bandwidth Channel Bandwidth [MHz] <total RB-6>...

Page 792 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference This command is only relevant for the standalone scenario. For the combined signal path scenario, use CONFigure: L TE: S IGN: C ELL: P RACh: L RSindex Parameters: <LogRootSeqIndex> Range: preamble format 0,1,2,3: 0 to 837 / preamble format 4: 0 to 137 *RST: Example:...

Page 793 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:PRACh:MODulation:SINDex <SequenceIndex> Specifies the sequence index, i.e. which of the 64 preamble sequences of the cell is used by the UE. This setting is only relevant if automatic detection is disabled, see CONFigure:...

Page 794 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <EVMwindowPos> LOW | HIGH *RST: Example: Specifying Additional Measurement-Specific Settings Firmware/Software: V2.0.10 Manual operation: "EVM Window Position" on page 767 4.5.3.5 Power Measurement Settings The following commands specify settings for power dynamics measurements. CONFigure:LTE:MEAS:PRACh:SCOunt:PDYNamics <StatisticCount>...

Page 795 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference ............795 TRIGger:LTE:MEAS:PRACh:CATalog:SOURce? ................. 795 TRIGger:LTE:MEAS:PRACh:SOURce ................795 TRIGger:LTE:MEAS:PRACh:SLOPe ..............796 TRIGger:LTE:MEAS:PRACh:THReshold ................796 TRIGger:LTE:MEAS:PRACh:TOUT ................796 TRIGger:LTE:MEAS:PRACh:MGAP TRIGger:LTE:MEAS:PRACh:CATalog:SOURce? Lists all trigger source values that can be set using TRIGger: L TE: M EAS: P RACh: SOURce...

Page 796 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Slope> REDGe | FEDGe REDGe: Rising edge FEDGe: Falling edge *RST: REDG Example: Configuring the Trigger System Firmware/Software: V2.0.10 Manual operation: "Trigger Slope" on page 769 TRIGger:LTE:MEAS:PRACh:THReshold <TrigThreshold> Defines the trigger threshold for power trigger sources. Parameters: <TrigThreshold>...

Page 797 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Configuring the Trigger System Firmware/Software: V2.0.10 Manual operation: "Min Trigger Gap" on page 770 4.5.3.7 Limits (Modulation) The following commands define limits for results which characterize the modulation accuracy of the PRACH signal............

Page 798 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference <Peak> Range: 0 % to 100 % *RST: 35 %, OFF Default unit: % Additional parameters: OFF | ON (disables the limit check | ena- bles the limit check using the previous/default limit values) Example: Specifying Limits Firmware/Software: V2.0.10...

Page 799 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference 4.5.3.8 Limits (Power) The following command defines limits for results which characterize the power dynam- ics of the PRACH signal. CONFigure:LTE:MEAS:PRACh:LIMit:PDYNamics <Enable>, <OnPowerUpper>, <OnPowerLower>, <OffPowerUpper> Defines limits for the ON power and OFF power determined with the power dynamics measurement.

Page 800 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:PRACh:MODulation:DPFoffset? Returns the automatically detected or manually configured PRACH frequency offset for "single preamble" measurements. Return values: <Reliability> Reliability Indicator <PRACHfreqOffset> Range: 0 to 94 Example: Performing Single-Shot Measurements Usage: Query only Firmware/Software: V2.0.10 Manual operation: "Statistical Overviews and other Single Values"...

Page 801 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference Manual operation: "Statistical Overviews and other Single Values" on page 774 FETCh:LTE:MEAS:PRACh:MODulation:DPFoffset:PREamble<Number>? Returns the automatically detected or manually configured PRACH frequency offset for a selected preamble of "multi preamble" measurements. Suffix: <Number> 1..16 Number of the preamble for which the results shall be queried Return values:...

Page 802 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference It indicates the correlation between the ideal preamble sequence determined from the parameter settings and the measured preamble sequence. A value of 1 corresponds to perfect correlation. A value much smaller than 1 indicates that the searched preamble sequence was not found.

Page 803 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference For additional information concerning syntax elements and returned values refer to Conventions and General Information. 4.5.3.11 Magnitude Error Results (Traces) The following commands return the magnitude error vs. subcarrier traces of the PRACH measurement.

Page 804 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference See also chapter 4.2.9.2, "Detailed Views: EVM, Magnitude Error, Phase Error", on page 750. Return values: <Reliability> Reliability Indicator <Results> The number of results depends on the preamble format. Format 0 to 3: 839 EVM values, format 4: 139 EVM values Range: 0 deg to 180 deg Default unit: deg...

Page 805 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:PRACh:TRACe:PVPReamble? READ:LTE:MEAS:PRACh:TRACe:PVPReamble? Return the values of the power vs. preamble traces. See also chapter 4.2.9.3, "Detailed Views: EVM vs Preamble, Power vs Preamble", on page 751. Return values: <Reliability> Reliability Indicator <Results> 16 power values, for preamble 1 to 16 (NCAP for not measured preambles) Range:...

Page 806 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference 4.5.3.16 Power Dynamics Results (Traces) The following commands return the results in the power dynamics diagram. FETCh:LTE:MEAS:PRACh:TRACe:PDYNamics:CURRent? FETCh:LTE:MEAS:PRACh:TRACe:PDYNamics:AVERage? FETCh:LTE:MEAS:PRACh:TRACe:PDYNamics:MAXimum? READ:LTE:MEAS:PRACh:TRACe:PDYNamics:CURRent? READ:LTE:MEAS:PRACh:TRACe:PDYNamics:AVERage? READ:LTE:MEAS:PRACh:TRACe:PDYNamics:MAXimum? Return the values of the power dynamics traces. Each value is sampled with 48 T corresponding to 1.5625 µs.

Page 807 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference FETCh:LTE:MEAS:PRACh:MODulation:CURRent? FETCh:LTE:MEAS:PRACh:MODulation:AVERage? FETCh:LTE:MEAS:PRACh:MODulation:SDEViation? READ:LTE:MEAS:PRACh:MODulation:CURRent? READ:LTE:MEAS:PRACh:MODulation:AVERage? READ:LTE:MEAS:PRACh:MODulation:SDEViation? CALCulate:LTE:MEAS:PRACh:MODulation:CURRent? CALCulate:LTE:MEAS:PRACh:MODulation:AVERage? Return the current, average and standard deviation single value results. The values described below are returned by FETCh and READ commands. CALCulate commands return limit check results instead, one value for each result listed below. The ranges indicated below apply to all results except standard deviation results.

Page 808 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference <13_PErrPeakLow> Phase error peak value for low and high EVM window position <14_PErrPeakHigh> Range: -180 deg to 180 deg (AVERage: 0 deg to 180 deg, SDEViation: 0 deg to 90 deg) Default unit: deg <15_FreqError>...

Page 809 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference <3_EVM_RMSlow> Error vector magnitude RMS and peak values for low and high <4_EVM_RMShigh> EVM window position <5_EVMpeakLow> Range: 0 % to 100 % <6_EVMpeakHigh> Default unit: % <7_MErr_RMSlow> Magnitude error RMS value for low and high EVM window posi- <8_MErr_RMShigh>...

Page 810 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference For additional commands see chapter 4.5.3.9, "Detected Signal Configuration", on page 799. FETCh:LTE:MEAS:PRACh:MODulation:PREamble<Number>? READ:LTE:MEAS:PRACh:MODulation:PREamble<Number>? Return the single value results of the "EVM vs Preamble" and "Power vs Preamble" views, for a selected preamble. See also chapter 4.2.9.3, "Detailed Views: EVM vs Preamble, Power vs Preamble",...

Page 811 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference <16_TimingError> Transmit time error Range: -32000 Ts to 32000 Ts Default unit: Ts (basic LTE time unit) <17_TXpower> User equipment power Range: -100 dBm to 55 dBm Default unit: dBm <18_PeakPower> User equipment peak power Range: -100 dBm to 55 dBm Default unit: dBm...

Page 812: Combined Signal Path Commands
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx Command Reference <OutOfTolerance> Out of tolerance result, i.e. percentage of measurement inter- vals of the statistic count (CONFigure: L TE: M EAS: P RACh: ) exceeding the specified power dynamics SCOunt: P DYNamics limits. Range: 0 % to 100 % Default unit: %...

Page 813: List Of Commands
® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx List of Commands Table 4-5: Mapping for PRACH measurement commands Setting Commands for SA scenario Commands for CSP scenario PRACH configuration CONFigure: L TE: M EAS: P RACh: P CINdex CONFigure: L TE: S IGN: C ELL: P RACh: index PCINdex:...

Page 814 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:MEAS:PRACh:RESult:IQ....................787 CONFigure:LTE:MEAS:PRACh:RESult:MERRor..................787 CONFigure:LTE:MEAS:PRACh:RESult:PDYNamics................787 CONFigure:LTE:MEAS:PRACh:RESult:PERRor..................787 CONFigure:LTE:MEAS:PRACh:RESult:PVPReamble................787 CONFigure:LTE:MEAS:PRACh:RESult:TXM................... 787 CONFigure:LTE:MEAS:PRACh:RESult[:ALL]..................786 CONFigure:LTE:MEAS:PRACh:SCONdition.................... 789 CONFigure:LTE:MEAS:PRACh:SCOunt:MODulation................791 CONFigure:LTE:MEAS:PRACh:SCOunt:PDYNamics................794 CONFigure:LTE:MEAS:PRACh:TOUT..................... 788 FETCh:LTE:MEAS:PRACh:MODulation:AVERage?................807 FETCh:LTE:MEAS:PRACh:MODulation:CURRent?................807 FETCh:LTE:MEAS:PRACh:MODulation:DPFoffset:PREamble<Number>?..........801 FETCh:LTE:MEAS:PRACh:MODulation:DPFoffset?................800 FETCh:LTE:MEAS:PRACh:MODulation:DSINdex:PREamble<Number>?..........801 FETCh:LTE:MEAS:PRACh:MODulation:DSINdex?................. 800 FETCh:LTE:MEAS:PRACh:MODulation:EXTReme?................808 FETCh:LTE:MEAS:PRACh:MODulation:PREamble<Number>?..............810 FETCh:LTE:MEAS:PRACh:MODulation:SCORrelation:PREamble<Number>?........

Page 815 ® LTE PRACH Measurement R&S CMW-KM5xx/-KS5xx List of Commands READ:LTE:MEAS:PRACh:PDYNamics:AVERage?................. 811 READ:LTE:MEAS:PRACh:PDYNamics:CURRent?................. 811 READ:LTE:MEAS:PRACh:PDYNamics:MAXimum?................811 READ:LTE:MEAS:PRACh:PDYNamics:MINimum?................. 811 READ:LTE:MEAS:PRACh:PDYNamics:SDEViation?................811 READ:LTE:MEAS:PRACh:TRACe:EVM:AVERage?................802 READ:LTE:MEAS:PRACh:TRACe:EVM:CURRent?................802 READ:LTE:MEAS:PRACh:TRACe:EVM:MAXimum?................802 READ:LTE:MEAS:PRACh:TRACe:EVPReamble?...................804 READ:LTE:MEAS:PRACh:TRACe:MERRor:AVERage?................803 READ:LTE:MEAS:PRACh:TRACe:MERRor:CURRent?................803 READ:LTE:MEAS:PRACh:TRACe:MERRor:MAXimum?................. 803 READ:LTE:MEAS:PRACh:TRACe:PDYNamics:AVERage?..............806 READ:LTE:MEAS:PRACh:TRACe:PDYNamics:CURRent?..............806 READ:LTE:MEAS:PRACh:TRACe:PDYNamics:MAXimum?..............806 READ:LTE:MEAS:PRACh:TRACe:PERRor:AVERage?................803 READ:LTE:MEAS:PRACh:TRACe:PERRor:CURRent?................803 READ:LTE:MEAS:PRACh:TRACe:PERRor:MAXimum?................803 READ:LTE:MEAS:PRACh:TRACe:PVPReamble?...................805 STOP:LTE:MEAS:PRACh........................

Page 816: Lte Srs Measurement
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx What's New in this Revision 5 LTE SRS Measurement The "LTE SRS" measurement provides quick and flexible tests on LTE FDD and TDD sounding reference signals. The tests cover the following UE transmitter properties: ●...

Page 817: How To Measure An Uplink Srs Signal
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx General Description The input level ranges of all RF COM connectors are identical. See also: "RF Connectors" in the R&S CMW user manual, chapter "Getting Started" Fig. 5-1: Connecting an RF transmitter to the instrument 5.2.2 How to Measure an Uplink SRS Signal The measurement expects a pure LTE SRS UL signal.

Page 818: Trigger Modes
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx General Description To configure these settings via remote commands, the commands of the signaling application must be used. For a command mapping table, see chapter 5.5.4, "Com- bined Signal Path Commands", on page 850. The most important signaling parameters not relevant for standalone measurements can nevertheless be configured both in the measurement GUI and in the GUI of the signaling application.

Page 819: Measurement Results
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx General Description bols are only defined for signal configurations with frequency hopping or power change between the two symbols. The measurement assumes that this condition is fulfilled and excludes these transient periods for result calculation. Fig.

Page 820 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx General Description Fig. 5-5: LTE SRS: Power Dynamics, FDD The diagram shows the UE output power vs. time, sampled with 48 T (1.5625 µs). The trace covers the range from -1100 µs to +1298.4375 µs relative to the start of the SRS symbol.

Page 821 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx General Description Statistical Results The statistical values in the table are calculated as follows: ● Current: Value of the result obtained in the last measurement interval. ● Average: Average of all "Current" values referenced to the last statistics cycle. ●...

Page 822: Gui Reference
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Hotkey Description "Ref. Marker ..." Enable or disable the reference marker and select the marker position. If sev- eral traces can be displayed, a trace can also be selected. "Marker 1 /2 ..." Enable or disable marker 1 or 2 and define the marker position (absolute or rel- ative to the reference marker).

Page 823 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference All settings are defined via softkeys and hotkeys or using the "LTE SRS Configuration" dialog. The configuration dialog is described in the following sections. To open the dia- log, select the "SRS" tab and press the "Config" hotkey. 5.3.2.1 Signal Routing and Analyzer Settings The following parameters configure the RF input path.

Page 824 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Most parameters described in this section and some parameters described in section Measurement Control Settings display values determined by the signaling application. The corresponding measurement settings are remembered in the background and dis- played again when switching back to the standalone scenario.

Page 825 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference The external attenuation value is also used in the calculation of the maximum input power that the R&S CMW can measure. If a correction table for frequency-dependent attenuation is active for the chosen con- nector, then the table name and a button are displayed.

Page 826 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Expected Nominal Power Defines the nominal power of the RF signal to be measured. An appropriate value for LTE signals is the peak output power at the DUT during the measurement. The "Ref. Level"...

Page 827 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference 5.3.2.2 Measurement Control Settings The "Measurement Control" parameters configure the scope of the LTE SRS measure- ment. While the combined signal path scenario is active, some of the measurement control parameters display values determined by the controlling signaling application. This is indicated in the parameter description.

Page 828 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Measure on Exception Specifies whether measurement results that the R&S CMW identifies as faulty or inac- curate are rejected. A faulty result occurs e.g. when an overload is detected. In remote control, the cause of the error is indicated by the "reliability indicator". ●...

Page 829 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference In high dynamic mode the dynamic range is increased by measuring the results in two shots. One shot uses the configured settings to measure the ON power. The other shot uses a lower "Expected Nominal Power" value to measure the OFF power results. Disable the high dynamic mode to optimize the measurement speed, e.g.

Page 830 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Trigger Threshold Defines the input signal power where the trigger condition is satisfied and a trigger event is generated. The trigger threshold is valid for power trigger sources. It is a dB value, relative to the reference level minus the external attenuation (<Ref.

Page 831 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference This parameter can be used to prevent unwanted trigger events due to fast power var- iations. Remote command: TRIGger: L TE: M EAS: S RS: M GAP 5.3.2.4 Limit Settings The "Limits" in the "LTE SRS Configuration" dialog define upper limits for the power results.

Page 832: Measurement Results
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx GUI Reference Press the softkey two times (select it and press it again) to switch to the signaling application. Remote command: Use the commands of the signaling application. 5.3.3 Measurement Results All results of the LTE SRS measurement are displayed in a single view. For a detailed description see chapter 5.2.6, "Measurement Results",...

Page 833: Programming
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Programming Single Values The results can be retrieved via the following remote commands. Remote command: etc. FETCh: L TE: M EAS: S RS: P DYNamics: C URRent? etc. FETCh: L TE: M EAS: S RS: P DYNamics: A VERage? etc.

Page 834: Specifying Additional Measurement-Specific Settings
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Programming // ***************************************************************************** // Define signal routing and perform RF and analyzer settings: // Carrier center frequency 1850 MHz, frequency offset 1 kHz, peak power 7 dBm, // 5 dB user margin and 1 dB mixer level offset. // ***************************************************************************** ROUTe:LTE:MEAS:SCENario:SALone RF1C, RX1 CONFigure:LTE:MEAS:RFSettings:EATTenuation 2...

Page 835: Specifying Limits
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Programming 5.4.5 Specifying Limits // ***************************************************************************** // Define power dynamics limits. // ***************************************************************************** CONFigure:LTE:MEAS:SRS:LIMit:PDYNamics ON,5.1,-10.3,-48.8 5.4.6 Performing Single-Shot Measurements // ***************************************************************************** // Start single-shot measurement, return average power dynamics trace. // Query the measurement state (should be "RDY"). // ***************************************************************************** READ:LTE:MEAS:SRS:TRACe:PDYNamics:AVERage? FETCh:LTE:MEAS:SRS:STATe?

Page 836: Command Reference
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference // Query the measurement state (should be "RDY"). // ***************************************************************************** INIT:LTE:MEAS:SRS FETCh:LTE:MEAS:SRS:TRACe:PDYNamics:CURRent? FETCh:LTE:MEAS:SRS:TRACe:PDYNamics:AVERage? FETCh:LTE:MEAS:SRS:STATe? // ***************************************************************************** // Start continuous measurement and wait for 5 ms. // Return average trace. // Query measurement state and substates (should be "RUN,ADJ,ACT"). // ***************************************************************************** CONFigure:LTE:MEAS:SRS:REPetition CONTinuous INIT:LTE:MEAS:SRS...

Page 837 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference 5.5.1.2 FETCh, READ and CALCulate Commands All commands are used to retrieve measurement results: ● FETCh... returns the results of the current measurement cycle (single-shot mea- surement) after they are valid. FETCh... must be used after the measurement has been started (INITiate..., measurement states RUN or RDY).

Page 838 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference 5.5.1.5 Reliability Indicator The first value in the output arrays of FETCh...?, READ...? and CALCulate...? queries indicates the most severe error that has occurred during the measurement. Example for an output array: 0, 10.22, 10.15, 10.01, 10.29, 100 (reliability = 0, followed by 5 numeric measurement values).

Page 839 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference For DAU IMS service: Establishing a voice over IMS call failed. ● 20 (Call Type not Usable): For measurements: The measurement could not be started because the estab- lished signaling connection had wrong properties. For DAU IMS service: The voice over IMS settings could not be applied.

Page 840: General Measurement Settings
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference The individual segments of a list mode measurement with R&S CMWS use differ- ent connector benches. This is not allowed. All segments must use the same bench. Check the "Info" dialog for the relevant segment numbers. ●...

Page 841 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference 5.5.3.1 Measurement Control and States The following commands control the measurement and return the current measure- ment state..................... 841 INITiate:LTE:MEAS:SRS ....................841 STOP:LTE:MEAS:SRS ..................... 841 ABORt:LTE:MEAS:SRS ................841 FETCh:LTE:MEAS:SRS:STATe? ................842 FETCh:LTE:MEAS:SRS:STATe:ALL? INITiate:LTE:MEAS:SRS STOP:LTE:MEAS:SRS ABORt:LTE:MEAS:SRS...

Page 842 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference Return values: <MeasStatus> OFF | RUN | RDY OFF: measurement switched off, no resources allocated, no results available (when entered after ABORt...) RUN: measurement running (after INITiate..., READ...), synchronization pending or adjusted, resources active or queued RDY: measurement has been terminated, valid results may be available *RST:...

Page 843 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference Example: Single-Shot and Continuous Measurements Usage: Query only Firmware/Software: V2.0.20 Manual operation: "SRS (Softkey)" on page 822 5.5.3.2 Measurement Parameters The following commands define measurement control parameters for the SRS mea- surement................

Page 844 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference Parameters: <Repetition> SINGleshot | CONTinuous SINGleshot: Single-shot measurement CONTinuous: Continuous measurement *RST: SING Example: Single-Shot and Continuous Measurements Firmware/Software: V2.0.20 Manual operation: "Repetition" on page 827 CONFigure:LTE:MEAS:SRS:SCONdition <StopCondition> Qualifies whether the measurement is stopped after a failed limit check or continued. SLFail means that the measurement is stopped and reaches the RDY state as soon as one of the results exceeds the limits.

Page 845 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference CONFigure:LTE:MEAS:SRS:SCOunt:PDYNamics <StatisticCount> Specifies the statistic count of the measurement. The statistic count is equal to the number of measurement intervals per single shot. Use CONFigure:...:MEAS:...:REPetition SINGleshot | CONTinuous to select either single-shot or continuous measurements. See also: "Statistical Settings"...

Page 846 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference Usage: Query only Firmware/Software: V2.0.20 Manual operation: "Trigger Source" on page 829 TRIGger:LTE:MEAS:SRS:SOURce <Source> Selects the source of the trigger events. Some values are always available in this firm- ware application. They are listed below. Depending on the installed options additional values may be available.

Page 847 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.20 Manual operation: "Trigger Threshold" on page 830 TRIGger:LTE:MEAS:SRS:TOUT <TriggerTimeOut> Selects the maximum time that the R&S CMW will wait for a trigger event before it stops the measurement in remote control mode or indicates a trigger timeout in manual operation mode.

Page 848 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference <OnPowerUpper> Upper limit for the ON power Range: -256 dBm to 256 dBm *RST: 4.9 dBm Default unit: dBm <OnPowerLower> Lower limit for the ON power Range: -256 dBm to 256 dBm *RST: -10.1 dBm Default unit: dBm...

Page 849 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx Command Reference Firmware/Software: V2.0.20 For additional information concerning syntax elements and returned values refer to Conventions and General Information. 5.5.3.6 Power Dynamics Results (Single Values) The following commands return the statistical results of the power dynamics measure- ment.

Page 850: Combined Signal Path Commands
® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx List of Commands <OnPowerPeak1> ON power peak value for the first SRS symbol Range: -100 dBm to 55 dBm Default unit: dBm <OnPowerRMS2> ON power mean value over the second SRS symbol (NCAP returned for FDD) Range: -100 dBm to 55 dBm Default unit: dBm...

Page 851 ® LTE SRS Measurement R&S CMW-KM5xx/-KS5xx List of Commands CONFigure:LTE:MEAS:SRS:LIMit:PDYNamics..................847 CONFigure:LTE:MEAS:SRS:MOEXception..................... 844 CONFigure:LTE:MEAS:SRS:REPetition....................843 CONFigure:LTE:MEAS:SRS:SCONdition....................844 CONFigure:LTE:MEAS:SRS:SCOunt:PDYNamics.................. 845 CONFigure:LTE:MEAS:SRS:TOUT......................843 FETCh:LTE:MEAS:SRS:PDYNamics:AVERage?..................849 FETCh:LTE:MEAS:SRS:PDYNamics:CURRent?..................849 FETCh:LTE:MEAS:SRS:PDYNamics:MAXimum?................... 849 FETCh:LTE:MEAS:SRS:PDYNamics:MINimum?..................849 FETCh:LTE:MEAS:SRS:PDYNamics:SDEViation?..................849 FETCh:LTE:MEAS:SRS:STATe:ALL?......................842 FETCh:LTE:MEAS:SRS:STATe?......................841 FETCh:LTE:MEAS:SRS:TRACe:PDYNamics:AVERage?............... 848 FETCh:LTE:MEAS:SRS:TRACe:PDYNamics:CURRent?................848 FETCh:LTE:MEAS:SRS:TRACe:PDYNamics:MAXimum?...............848 INITiate:LTE:MEAS:SRS.......................... 841 READ:LTE:MEAS:SRS:PDYNamics:AVERage?..................849 READ:LTE:MEAS:SRS:PDYNamics:CURRent?..................849 READ:LTE:MEAS:SRS:PDYNamics:MAXimum?..................849 READ:LTE:MEAS:SRS:PDYNamics:MINimum?..................849 READ:LTE:MEAS:SRS:PDYNamics:SDEViation?...................

Page 852: Index
® Index R&S CMW-KM5xx/-KS5xx Index Channel Type LTE Multi Evaluation measurement ......551 Accept Multiple Default Bearer Clear LTE signaling ............174 LTE signaling ............190 Add LTE Signaling to logging Coding group LTE signaling ............191 LTE signaling ............189 Add.

Page 853 ® Index R&S CMW-KM5xx/-KS5xx LTE signaling ............126 LTE SRS measurement ..........825 Effective Signal BW Frequency Change LTE Signaling ............134 LTE signaling ............174 Emergency Bearer Service Indicator Frequency Offset LTE signaling ............159 LTE Multi Evaluation measurement ......542 Enable CQI Reporting LTE PRACH measurement ........

Page 854 ® Index R&S CMW-KM5xx/-KS5xx LTE Multi Evaluation measurement Min. Noise/System BW Ratio command reference ..........580 LTE Signaling ............134 GUI reference ............538 Mixer Level Offset limits ................509 LTE Multi Evaluation measurement ......543 measurement description ......... 493 LTE PRACH measurement ........

Page 855 ® Index R&S CMW-KM5xx/-KS5xx PRACH Settings SCC Activation Mode LTE signaling ............147 LTE signaling ............120 Precoding Matrix Scenario LTE signaling ............168 LTE Multi Evaluation measurement ......540 programming LTE PRACH measurement ........759 LTE Multi Evaluation measurement ......567 LTE signaling ............

Page 856 ® Index R&S CMW-KM5xx/-KS5xx Statistic Count (Dynamics) User-Defined Channels LTE PRACH measurement ........768 LTE signaling ............182 Statistic Count (Modulation) User-Defined TTI-Based Channels LTE Multi Evaluation measurement ......555 LTE signaling ..........105, 183, 184 LTE PRACH measurement ........766 Statistic Count (Power) LTE Multi Evaluation measurement ......

This manual is also suitable for:
Cmw-ks5 series Cmw-km500 Cmw-km502 Cmw-km550 Km552 Km012 ... Show all
Ks500 Ks502 Ks510 Ks512 Ks520 Ks521 Ks525 Ks550 Ks552 Cmw-km552 Cmw-km012 Cmw-ks500 Cmw-ks502 Cmw-ks510 Cmw-ks512 Cmw-ks520 Cmw-ks521 Cmw-ks522 Cmw-ks525 Cmw-ks550 Cmw-ks552

R&S CMW-KM5 Series User Manual

Table of Contents

General Description

Gui Reference

Uplink Power Control

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