Anritsu MS2690A Operation Manual
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Anritsu MS2690A Operation Manual

Anritsu MS2690A Operation Manual

Signal analyzer vector signal generator
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Download this manual See also: Operating Manual
MS2690A/MS2691A/MS2692A and
MS2830A/MS2840A
Signal Analyzer
Vector Signal Generator
Operation Manual
Standard Waveform Pattern
10th Edition
• For safety and warning information, please read this
manual before attempting to use the equipment.
• Additional safety and warning information is provided
within the MS2690A/MS2691A/MS2692A Signal
Analyzer Operation Manual (Mainframe Operation),
MS2830A Signal Analyzer Operation Manual
(Mainframe Operation) or MS2840A Signal Analyzer
Operation Manual (Mainframe Operation), and
MS2690A/MS2691A/MS2692A Option 020 Vector Signal
Generator Operation Manual (Operation) or
MS2830A/MS2840A Vector Signal Generator Operation
Manual (Operation). Please also refer to these
documents before using the equipment.
• Keep this manual with the equipment.
ANRITSU CORPORATION
Document No.: M-W2929AE-10.0

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Summary of Contents for Anritsu MS2690A

  • Page 1 Analyzer Operation Manual (Mainframe Operation), MS2830A Signal Analyzer Operation Manual (Mainframe Operation) or MS2840A Signal Analyzer Operation Manual (Mainframe Operation), and MS2690A/MS2691A/MS2692A Option 020 Vector Signal Generator Operation Manual (Operation) or MS2830A/MS2840A Vector Signal Generator Operation Manual (Operation). Please also refer to these documents before using the equipment.

  • Page 2: Safety Symbols

    Ensure that you clearly understand the meanings of the symbols BEFORE using the equipment. Some or all of the following symbols may be used on all Anritsu equipment. In addition, there may be other labels attached to products that are not shown in the diagrams in this manual.
  • Page 3 In addition, this warranty is valid only for the original equipment purchaser. It is not transferable if the equipment is resold. Anritsu Corporation shall assume no liability for injury or financial loss of the customer due to the use of or a failure to be able to use this equipment.
  • Page 4 When you dispose of export-controlled items, the products/manuals need to be broken/shredded so as not to be unlawfully used for military purpose. Trademark and Registered Trademark IQproducer is a registered trademark of Anritsu Corporation.
  • Page 5 Anritsu electronic equipment). By reading this EULA and using this software, you are agreeing to be bound by the terms of its contents and Anritsu Corporation (hereafter Anritsu) hereby grants you the right to use this Software with the Anritsu-specified equipment (hereafter Equipment) for the purposes set out in this EULA.
  • Page 6 Commerce Denied Persons List or Entity otherwise, due to your violation of the terms List. By using this Software, you warrant of this EULA, Anritsu shall have the right to that you are not located in any such country seek proportional damages from you.
  • Page 7 Cautions against computer virus infection • Copying files and data Only files that have been provided directly from Anritsu or generated using Anritsu equipment should be copied to the instrument. All other required files should be transferred by means of USB or CompactFlash media after undergoing a thorough virus check.
  • Page 8 viii...

  • Page 9: About This Manual

    About This Manual  Composition of Operation Manuals The operation manuals for the MS2690A/MS2691A/MS2692A, MS2830A or MS2840A Signal Analyzer are comprised as shown in the figure below. MS2690A/MS2691A/MS2692A Signal Analyzer Operation Manual (Main Frame Operation) MS2830A Signal Analyzer Operation Manual...
  • Page 10  Signal Analyzer Operation Manual (Mainframe Operation)  Signal Analyzer Operation Manual (Mainframe Remote Control) These manuals describe basic operating methods, maintenance procedures, common functions, and common remote control of the signal analyzer mainframe.  Vector Signal Generator Operation Manual (Operation) This manual describes functions, operating methods, and so on of the vector signal generator (option).

  • Page 11: Table Of Contents

    Table of Contents About This Manual........Chapter 1 Overview ........Overview of Product ..........1-2 Chapter 2 How to Use Standard Waveform Pattern ........How to Use Standard Waveform Pattern ....2-2 Configuration of Standard Waveform Pattern Package ..............2-3 Output Level Range of Standard Waveform Pattern .

  • Page 13: Chapter 1 Overview

    Chapter 1 Overview This chapter provides an overview of the standard waveform pattern for the MS2690A/MS2691A/MS2692A or MS2830A/MS2840A Signal Analyzer Vector Signal Generator option. Overview of Product ..........1-2...

  • Page 14: Overview Of Product

    Chapter 1 Overview 1.1 Overview of Product The standard waveform pattern for MS2690A/MS2691A/MS2692A or MS2830A/MS2840A Signal Analyzer Vector Signal Generator (hereinafter, referred to as “standard waveform pattern”) consists of waveform patterns* that are used in a wide range of applications from research and development to manufacturing of the systems, devices, and equipment in the field of digital mobile communications.

  • Page 15: Chapter 2 How To Use Standard Waveform Pattern

    Chapter 2 How to Use Standard Waveform Pattern This chapter describes how to use the standard waveform pattern. How to Use Standard Waveform Pattern ....2-2 Configuration of Standard Waveform Pattern Package ..............2-3 Output Level Range of Standard Waveform Pattern . 2-4...
  • Page 16 Chapter 2 How to Use Standard Waveform Pattern 2.1 How to Use Standard Waveform Pattern The standard waveform pattern is shipped stored in the internal HDD/SSD of the Vector Signal Generator. The waveform pattern stored in the internal HDD/SSD is reproduced by the arbitrary waveform generator integrated in the Vector Signal Generator, and used to perform vector modulation.

  • Page 17: Configuration Of Standard Waveform Pattern Package

    Configuration of Standard Waveform Pattern Package 2.2 Configuration of Standard Waveform Pattern Package The standard waveform patterns are stored in the internal HDD/SSD of the Vector Signal Generator, and classified into packages with the corresponding communication system name. Table 2.2-1 List of packages Package name Contents W-CDMA (UE Rx test)

  • Page 18: Output Level Range Of Standard Waveform Pattern

    Chapter 2 How to Use Standard Waveform Pattern 2.3 Output Level Range of Standard Waveform Pattern Table 2.3-1 shows the guaranteed range of level error (±0.2 dB) for the RF output signal of the Vector Signal Generator, between in vector modulation and CW mode.

  • Page 19: Chapter 3 Details Of Standard Waveform Pattern

    Chapter 3 Details of Standard Waveform Pattern This chapter describes each standard waveform pattern in detail. W-CDMA Waveform Pattern ......... 3-3 3.1.1 UL_RMCxxxkbps ..........3-6 3.1.2 UL_AMR_TFCSx/UL_ISDN/UL_64kbps_ Packet ............. 3-17 3.1.3 UL_Interferer ..........3-25 3.1.4 DL_RMCxxxkbps ..........3-26 3.1.5 DL_AMR_TFCSx/DL_ISDN/DL_384kbps_ Packet .............
  • Page 20 Chapter 3 Details of Standard Waveform Pattern 3.7.2 Enhanced Data Rate packet configuration ... 3-111 3.7.3 Packet configuration for BLE ......3-113 3.7.4 Dirty Transmitter Signal ........ 3-114 GPS Waveform Pattern ..........3-115 3.8.1 Waveform format .......... 3-116 GLONASS Waveform Pattern ........3-118 3.9.1 Waveform format ..........

  • Page 21: W-Cdma Waveform Pattern

    W-CDMA Waveform Pattern 3.1 W-CDMA Waveform Pattern Table 3.1-1 lists the provided W-CDMA waveform patterns. Table 3.1-1 List of W-CDMA waveform patterns (1/3) 3GPP Main Waveform Pattern Name UL/DL Channel Configuration Reference Standard Application UL_RMC_12_2kbps* DPCCH, DPDCH TS25.141 A.2 BS RX test UL_RMC_64kbps* DPCCH, DPDCH TS25.141 A.3...
  • Page 22 Chapter 3 Details of Standard Waveform Pattern Table 3.1-1 List of W-CDMA waveform patterns (2/3) 3GPP Main Waveform Pattern Name UL/DL Channel Configuration Reference Standard Application P-CPICH, P-CCPCH, TS25.141 V11.4.0 BS TX device TestModel_1_4DPCH SCH, PICH, test S-CCPCH, 4 DPCH P-CPICH, P-CCPCH, TS25.141 V11.4.0 BS TX device...
  • Page 23 W-CDMA Waveform Pattern Table 3.1-1 List of W-CDMA waveform patterns (3/3) 3GPP Main Waveform Pattern Name UL/DL Channel Configuration Reference Standard Application P-CPICH, P-CCPCH, TS25.141 V11.4.0 TestModel_ BS TX device SCH, PICH, S-CCPCH, 1_64DPCHx3* test 64 DPCH P-CPICH, P-CCPCH, TS25.141 V11.4.0 TestModel_ BS TX device SCH, PICH, S-CCPCH,...

  • Page 24: Ul_Rmcxxxkbps

    Chapter 3 Details of Standard Waveform Pattern 3.1.1 UL_RMCxxxkbps These waveform patterns execute channel coding, division and spreading to physical channels, and power setting conforming to the UL Reference Measurement Channel standard described in 3GPP TS 25.141 Annex A. Table 3.1.1-1 lists the parameters commonly used by each waveform pattern.
  • Page 25 W-CDMA Waveform Pattern Channel coding parameters for UL_RMC_12_2kbps Table 3.1.1-2 Physical channel parameters for UL reference measurement channel 12.2 kbps Parameter Unit Level Information bit rate kbps 12.2 DPDCH kbps DPCCH kbps DPCCH Slot Format #i  2.69 DPCCH/DPDCH power ratio TFCI ...
  • Page 26 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH Information data Information data CRC12 CRC16 CRC attachment CRC attachment Tail 8 Tail 8 Tail bit attachment Tail bit attachment Conv. Coding R=1/3 Conv. Coding R=1/3 1st interleaving 1st interleaving Radio Frame Segmentation Rate matching SMU#1 SMU#2...
  • Page 27 W-CDMA Waveform Pattern Channel coding parameters for UL_RMC_12_2kbps_TX Table 3.1.1-4 Physical channel parameters for UL reference measurement channel 12.2 kbps for Tx test Parameter Unit Level Information bit rate kbps 12.2 DPDCH kbps DPCCH kbps DPCCH Slot Format #i  DPCCH/DPDCH power ratio –5.46 TFCI...
  • Page 28 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH Information data Information data CRC12 CRC16 CRC attachment CRC attachment Tail 8 Tail 8 Tail bit attachment Tail bit attachment Conv. Coding R=1/3 Conv. Coding R=1/3 1st interleaving 1st interleaving Radio Frame Segmentation Rate matching SMU#1 SMU#2...
  • Page 29 W-CDMA Waveform Pattern Channel coding parameters for UL_RMC_64kbps Table 3.1.1-6 Physical channel parameters for UL reference measurement channel 64 kbps Parameter Unit Level Information bit rate kbps DPDCH kbps DPCCH kbps DPCCH Slot Format #i  5.46 DPCCH/DPDCH power ratio TFCI ...
  • Page 30 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH Information data 2560 Information data CRC12 CRC16 2560 CRC attachment CRC attachment Tail 8 Tail bit attachment Termination 12 7740 Turbo Code R=1/3 Conv. coding R=1/3 1st interleaving 7740 1st interleaving Radio Frame segmentation 107 107 107 107...
  • Page 31 W-CDMA Waveform Pattern Channel coding parameters for UL_RMC_144kbps Table 3.1.1-8 Physical channel parameters for UL reference measurement channel 144 kbps Parameter Unit Level Information bit rate kbps DPDCH kbps DPCCH kbps DPCCH Slot Format #i  9.54 DPCCH/DPDCH power ratio TFCI ...
  • Page 32 Chapter 3 Details of Standard Waveform Pattern DTCH DCCH Information data 2880 2880 Information data CRC16 CRC16 CRC12 2880 2880 CRC attachment CRC attachment Tail 8 5792 Tail bit attachment Termination 2 x 12 17400 Turbo Code R=1/3 Conv. coding R = 1/3 1st interleaving 17400 1st interleaving...
  • Page 33 W-CDMA Waveform Pattern Channel coding parameters for UL_RMC_384kbps Table 3.1.1-10 Physical channel parameters for UL reference measurement channel 384 kbps Parameter Unit Level Information bit rate kbps DPDCH kbps DPCCH kbps DPCCH Slot Format #i  9.54 DPCCH/DPDCH power ratio TFCI ...
  • Page 34 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH 2560 2560 2560 Information data 3840 Information data CRC12 3840 CRC attachment CRC16 CRC attachment Tail 8 15424 Tail bit attachment Termination 4 x 12 46320 Turbo Code R = 1/3 Conv.

  • Page 35: Ul_Amr_Tfcsx/Ul_Isdn/Ul_64Kbps_ Packet

    W-CDMA Waveform Pattern 3.1.2 UL_AMR_TFCSx/UL_ISDN/UL_64kbps_Packet These waveform patterns execute channel coding, division and spreading to physical channels, and power setting conforming to the Channel coding and multiplexing example (Uplink) standard described in 3GPP TS 25.944 Section 4.1.2. Table 3.1.2-1 lists the parameters commonly used by each waveform pattern.
  • Page 36 Chapter 3 Details of Standard Waveform Pattern Channel coding parameters for UL_AMR_TFCSx Table 3.1.2-2 Physical channel parameters for UL_AMR_TFCSx Parameter Unit Level DPDCH kbps DPCCH kbps DPCCH Slot Format #i  DPCCH/DPDCH power ratio 2.69 Table 3.1.2-3 Parameters for 3.4 kbps data (DCCH) 148 bits Transport Block Size 148 bits...
  • Page 37 W-CDMA Waveform Pattern Transport block CRC attachment 1 TrBk TrBk concatenation Tail bit attachment Tail Convolutional coding R = 1/3 interleaving Radio frame segmentation Rate matching 129 + N 129 + N 129 + N 129 + N To TrCh Multiplexing Figure 3.1.2-1 Channel coding and multiplexing for UL_AMR_TFCSx - 1 Table 3.1.2-4 Parameters for 12.2 kbps data (DTCH) Number of TrCHs...
  • Page 38 Chapter 3 Details of Standard Waveform Pattern Transport block TrCh#a TrCh#b TrCh#c TrCHa TrCHb TrCHc CRC attachment Tail bit attachment TrCHa TrCHb TrCHc Tail Tail Tail Convolutional /103 TrCHa TrCHb TrCHb TrCHc TrCHc coding R=1/3, 1/2 3*(N +20) 3*(N +8*N /103) 2*(N +8*N...
  • Page 39 W-CDMA Waveform Pattern Channel coding parameters for UL_ISDN Table 3.1.2-5 Physical channel parameters for UL_ISDN Parameter Unit Level Information bit rate kbps DPDCH kbps DPCCH kbps DPCCH Slot Format #i  DPCCH/DPDCH power ratio 5.46 Table 3.1.2-6 Parameters for 64 kbps data Number of TrChs 640 bits Transport Block Size...
  • Page 40 Chapter 3 Details of Standard Waveform Pattern 3.4 kbps data 64 kbps packet data 64 kbps packet data TrCH multiplexing interleaving Physical channel mapping DPDCH CFN=4N CFN=4N+1 CFN=4N+2 CFN=4N+3 Figure 3.1.2-4 Channel coding and multiplexing for UL_ISDN - 2 3-22...
  • Page 41 W-CDMA Waveform Pattern Channel coding parameters for UL_64kbps_Packet Table 3.1.2-7 Physical channel parameters for UL_64kbps_Packet Parameter Unit Level Information bit rate kbps DPDCH kbps DPCCH kbps DPCCH Slot Format #i  DPCCH/DPDCH power ratio 5.46 Table 3.1.2-8 Parameters for 64 kbps data Number of TrChs 336 bits Transport Block Size...
  • Page 42 Chapter 3 Details of Standard Waveform Pattern Transport block CRC attachment B TrBks TrBk concatenation (B=0, 1, 2, 3, 4, 8, 9) 352* B Turbo coding R=1/3 1056* B Tail bit attachment Tail 1056* B interleaving 12*[B/9] Radio frame 1056* B +12*[B/9] segmentation (1056* B +12*[B/9])/2 (1056* B +12*[B/9])/2...

  • Page 43: Ul_Interferer

    W-CDMA Waveform Pattern 3.1.3 UL_Interferer These waveform patterns execute division and spreading to physical channels, and power setting conforming to the Characteristics of the W-CDMA interference signal standard described in 3GPP TS 25.141 Annex I. Table 3.1.3-1 Parameters for UL_Interferer Parameter Setting Value Scrambling Code...

  • Page 44: Dl_Rmcxxxkbps

    Chapter 3 Details of Standard Waveform Pattern 3.1.4 DL_RMCxxxkbps These waveform patterns execute channel coding conforming to the DL Reference Measurement Channel standard described in 3GPP TS 25.101 Annex A, and execute division and spreading to physical channels in order to generate DPCH.
  • Page 45 W-CDMA Waveform Pattern Table 3.1.4-2 Parameters for OCNS Channelization Code Relative Level Setting DPCH Data at SF = 128 (dB) 1 3 3 5 2 4 The DPCH data for each channelization 8 code shall be in a bit 7 sequence such that...
  • Page 46 Chapter 3 Details of Standard Waveform Pattern Table 3.1.4-5 Physical channel powers for DL_RMCxxxkbps (other than DL_RMC12_2kbps_RX and DL_RMC12_2kbps_MIL) Physical Channel Power ratio P-CPICH P-CPICH_Ec/Ior = –10 dB P-CCPCH P-CCPCH_Ec/Ior = –12 dB SCH_Ec/Ior = –12 dB PICH PICH_Ec/Ior = –15 dB 12.2 kbps DPCH_Ec/Ior = –16.6 dB 64 kbps...
  • Page 47 W-CDMA Waveform Pattern Channel coding parameters for DL_RMC_12_2kbps, DL_RMC_12_2kbps_RX, and DL_RMC_12_2kbps_MIL Table 3.1.4-6 Physical channel parameters for DL reference measurement channel 12.2 kbps Parameter Unit Level Information bit rate kbps 12.2 DPCH ksps Slot Format #i  TFCI  Power offsets PO1, PO2 and PO3 Puncturing 14.7 Table 3.1.4-7 Transport channel parameters for DL reference...
  • Page 48 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH Information data Information data CRC12 CRC16 CRC attachment CRC attachment Tail 8 Termination 12 Tail bit attachment Tail bit attachment Conv. coding R=1/3 Conv. coding R=1/3 Rate matching Rate matching 1st interleaving 1st interleaving #1 77 #2 77 #3 77 #4 77...
  • Page 49 W-CDMA Waveform Pattern Channel coding parameters for DL_RMC_64kbps Table 3.1.4-8 Physical channel parameters for DL reference measurement channel 64 kbps Parameter Unit Level Information bit rate kbps DPCH ksps Slot Format #i  TFCI  Power offsets PO1, PO2 and PO3 Repetition Table 3.1.4-9 Transport channel parameters for DL reference measurement channel 64 kbps...
  • Page 50 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH Information data 1280 Information data CRC12 CRC16 1280 CRC attachment CRC attachment Tail 8 1296 Tail bit attachment Termination 12 3888 Conv. coding Turbo Code R=1/3 R=1/3 4014 Rate matching Rate matching 1st interleaving 4014 1st interleaving...
  • Page 51 W-CDMA Waveform Pattern Channel coding parameters for DL_RMC_144kbps Table 3.1.4-10 Physical channel parameters for DL reference measurement channel 144 kbps Parameter Unit Level Information bit rate kbps DPCH ksps Slot Format #i  TFCI  Power offsets PO1, PO2 and PO3 Puncturing Table 3.1.4-11 Transport channel parameters for DL reference measurement channel 144 kbps...
  • Page 52 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH Information data 2880 Information data CRC12 CRC16 2880 CRC attachment CRC attachment Tail 8 Tail bit attachment Termination 12 8688 Conv. coding R=1/3 Turbo code R=1/3 8464 Rate matching Rate matching 1st interleaving 8464 1st interleaving...
  • Page 53 W-CDMA Waveform Pattern Channel coding parameters for DL_RMC_384kbps Table 3.1.4-12 Physical channel parameters for DL reference measurement channel 384 kbps Parameter Unit Level Information bit rate kbps DPCH ksps Slot Format #i  TFCI  Power offsets PO1, PO2 and PO3 Puncturing Table 3.1.4-13 Transport channel parameters for DL reference measurement channel 384 kbps...
  • Page 54 Chapter 3 Details of Standard Waveform Pattern DCCH DTCH Information data 3840 Information data CRC12 CRC16 3840 CRC attachment CRC attachment Tail 8 3856 Tail bit attachment Termination 12 11568 Conv. coding Turbo code R=1/3 R=1/3 9049 Rate matching Rate matching 9049 1st interleaving 1st interleaving...
  • Page 55 W-CDMA Waveform Pattern 3.1.5 DL_AMR_TFCSx/DL_ISDN/DL_384kbps_Packet These waveform patterns execute channel coding, division and spreading to physical channels, and power setting conforming to the Channel coding and multiplexing example (FDD, Downlink) standard described in 3GPP TS 25.944 Section 4.1.1. Table 3.1.5-1 lists the parameters commonly used by each waveform pattern.
  • Page 56 Chapter 3 Details of Standard Waveform Pattern Channel coding parameters for DL_AMR_TFCSx Table 3.1.5-2 Parameters for 12.2 kbps data The number of TrChs 0, 39 or 81 bits TrCH#a Transport 103 bits TrCH#b Block Size 60 bits TrCH#c = 1*81, N = 1*103, N = 1*60 bits TrCHa...
  • Page 57 W-CDMA Waveform Pattern Table 3.1.5-3 Parameters for 3.4 kbps data Parameter Setting Value Transport Block Size 148 bits Transport Block Set Size 148 bits Rate Matching attribute 16 bits Coding CC, coding rate = 1/3 40 ms Transport block CRC attachment 16 bits TrBk 1 TrBks...
  • Page 58 Chapter 3 Details of Standard Waveform Pattern Table 3.1.5-4 Physical channel parameters for 12.2 kbps and 3.4 kbps data Symbol Rate (ksps) (bits) (bits) (bits) (bits) (bits) pilot TFCI data1 data2 3-40...
  • Page 59 W-CDMA Waveform Pattern Channel coding parameters for DL_ISDN Table 3.1.5-5 Parameters for 64 kbps data Parameter Setting Value Number of TrChs Transport Block Size 640 bits Transport Block Set Size 4*640 bits Rate Matching attribute 16 bits Coding Turbo coding, coding rate = 1/3 40 ms Transport block CRC attachment...
  • Page 60 Chapter 3 Details of Standard Waveform Pattern Table 3.1.5-6 Physical channel parameters for 64 kbps and 3.4 kbps data Symbol Rate No. of Physical (bits) (bits) (bits) (bits) (bits) pilot TFCI data1 data2 (ksps) Channel 3-42...
  • Page 61 W-CDMA Waveform Pattern Channel coding parameters for DL_384kbps_Packet Table 3.1.5-7 Packet data parameters for 384 kbps data Parameter Setting Value Number of TrChs Transport Block Size 336 bits Transport Block Set Size 336*B bits (B = 12) Rate Matching attribute 16 bits Coding Turbo coding, coding rate = 1/3...
  • Page 62 Chapter 3 Details of Standard Waveform Pattern 3.4 kbps data 384 kbps Packet data 384 kbps Packet data TrCH multiplexing Insertion of DTX indication Physical channel segmentation interleaving Physical channel mapping DPDCH slot CFN = 4N CFN = 4N+1 CFN = 4N+2 CFN = 4N+3 Pilot symbol TFCI&TPC...

  • Page 63: Dl_Interferer

    W-CDMA Waveform Pattern 3.1.6 DL_Interferer DL_Interferer is a modulated signal code-multiplexed according to the parameters described in 3GPP TS25.104 Annex C.4 W-CDMA Modulated Interferer. Table 3.1.6-1 Parameters for DL_Interferer Parameter Setting Value Scrambling Code Over sampling rate Table 3.1.6-2 Physical channel parameters for DL_Interferer Channel Spreading Channelization...
  • Page 64 Chapter 3 Details of Standard Waveform Pattern Table 3.1.6-3 Parameters for OCNS Channelization Code Relative Level Setting DPCH Data at SF = 128 (dB) 1 3 3 5 2 4 The DPCH data for each channelization 8 code shall be in a bit 7 sequence such...

  • Page 65: Testmodel_X_Xxdpch

    W-CDMA Waveform Pattern 3.1.7 TestModel_x_xxDPCH TestModel_x_xxDPCH is a downlink multiplexed signal that is code-multiplexed according to the parameters described in 3GPP TS25.141 Section 11.4.0 Test Models. Table 3.1.7-1 List of common parameters Parameter Setting Value Scrambling Code* Over sampling rate *: For the offset frequency (5*N[MHz]) of the multicarrier when the lowest frequency carrier is 0, the Scrambling Code of each carrier is N.
  • Page 66 Chapter 3 Details of Standard Waveform Pattern Table 3.1.7-3 Parameters for DPCH Timing Level settings Level settings Level Settings Level Settings Level Settings Code Offset (dB) (dB) (dB) (dB) (dB) (x256Tchip) (4 codes) (8 codes) (16 codes) (32 codes) (64 codes) –5 –7 10...
  • Page 67 W-CDMA Waveform Pattern Table 3.1.7-3 Parameters for DPCH (Cont’d) Timing Level settings Level settings Level Settings Level Settings Level Settings Code Offset (dB) (dB) (dB) (dB) (dB) (x256Tchip) (4 codes) (8 codes) (16 codes) (32 codes) (64 codes)   17 ...
  • Page 68 Chapter 3 Details of Standard Waveform Pattern Test Model 2 Table 3.1.7-4 Channel configuration of Test Model 2 Number of Fraction of Level Channelization Timing Offset Type Channels Power (%) Setting (dB) Code (x256T chip P-CCPCH+SCH 10 Primary CPICH 10 PICH 13 S-CCPCH...
  • Page 69 W-CDMA Waveform Pattern Table 3.1.7-6 Parameters for Test Model 3 Level settings Level settings Level Settings Level Settings Code offset (dB) (4 codes) (dB) (8 codes) (dB) (16 codes) (dB) (32 codes) –8 –11 14 16 14 16 –11 14 16 14 16...
  • Page 70 Chapter 3 Details of Standard Waveform Pattern Test Model 4 Table 3.1.7-7 Channel configuration of Test Model 4 Number of Fraction of Level Channelization Timing Type Channels Power (%) Setting (dB) Code Offset P-CCPCH+SCH when Primary CPICH is disabled P-CCPCH+SCH when –3 Primary CPICH is enabled Primary CPICH1...

  • Page 71: Testmodel_5_Xdpch

    W-CDMA Waveform Pattern 3.1.8 TestModel_5_xDPCH These waveforms are downlink multiplexed signals that include HS-SCCH and HS-PDSCH equivalent to Test Model 5, which is described in 3GPP TS25.141 Section 6.1. The settings are the same as that shown in Section 3.1.9. Refer to 3.1.9 “TestModel_5_xHSPDSCH”...
  • Page 72 Chapter 3 Details of Standard Waveform Pattern Table 3.1.9-3 Setting for DPCH Code Timing Offset Level Settings Level Settings Level Settings Level settings (SF = 128) (x256Tchip) (dB) (30 codes) (dB) (14 codes) (dB) (6 codes) (dB) (4 codes) 20 17 17 –15...
  • Page 73 W-CDMA Waveform Pattern Table 3.1.9-4 Settings for HS-SCCH Code (SF = 128) Timing Offset (x256Tchip) Level Settings (dB) 15 21 Table 3.1.9-5 Setting for HS-PDSCH Code Timing Offset Level Settings Level Settings Level Settings (SF = 16) (x256Tchip) (dB) (8 codes) (dB) (4 codes) (dB) (2 codes) 11...

  • Page 74: Testmodel_6_Xhspdsch

    Chapter 3 Details of Standard Waveform Pattern 3.1.10 TestModel_6_xHSPDSCH These waveforms are downlink multiplexed signals that include HS-SCCH and HS-PDSCH equivalent to Test Model 6, which is described in 3GPP TS25.141 Section 6.1. Table 3.1.10-1 List of common parameters Parameter Setting Value Scrambling Code Over sampling rate...
  • Page 75 W-CDMA Waveform Pattern Table 3.1.10-3 Setting for DPCH Code Timing Offset Level Settings (dB) Level settings (dB) (SF = 128) (x256Tchip) (30 codes) (4 codes) –17 –13 –17 –15 –18 –9 –19 –12 –21 – –18 – –20 – –22 –...
  • Page 76 Chapter 3 Details of Standard Waveform Pattern Table 3.1.10-4 Settings for HS-SCCH Code (SF = 128) Timing Offset (x256Tchip) Level Settings (dB) –15 –21 Table 3.1.10-5 Setting for HS-PDSCH Code Timing Offset Level Settings (dB) Level settings (dB) (SF = 16) (x256Tchip) (8 codes) (4 codes)

  • Page 77: Gsm Waveform Pattern

    GSM Waveform Pattern 3.2 GSM Waveform Pattern Table 3.2-1 lists the waveform patterns for uplink/downlink, provided as the GSM waveform pattern. Table 3.2-1 List of GSM waveform patterns Waveform Pattern Name Uplink/Downlink Data Output Slot GMSK_PN9 Uplink/Downlink  PN9* 8PSK_PN9 Uplink/Downlink ...

  • Page 78: Details Of Each Pattern

    Chapter 3 Details of Standard Waveform Pattern 3.2.1 Details of each pattern GMSK_PN9, PSK_PN9 PN9 data which doesn’t have slot format is inserted. GMSK_TN0, 8PSK_TN0 PN9 data is inserted to all fields in a slot except the guard field. The PN9 data in each slot has continuity.

  • Page 79: Frame Configuration

    GSM Waveform Pattern DL(UL)_MCS-1(5, 9)_1SLOT(_4SLOT) Supports Packet data block type 5 (MCS-1), 9 (MCS-5), and 13 (MCS-9) of EGPRS PDTCH prescribed in 3GPP TS05.03 Section 5.1. Table 3.2.1-3 Channel coding parameters Raw Data Header Blocks per within Data Code Tail Scheme Code Modulation...
  • Page 80 Chapter 3 Details of Standard Waveform Pattern The slot configuration for those other than GMSK_PN9, 8PSK_PN9, GMSK_TN0, and 8PSK_TN0 is normal burst as shown in the figure below: 8.25 Unit: bit Tail bit (4 bits) Encrypted bit Channel-coded* PN9 pseudo random pattern (continuous between transmitted slots) Stealing bit...

  • Page 81: Cdma2000 1X Waveform Pattern

    CDMA2000 1X Waveform Pattern 3.3 CDMA2000 1X Waveform Pattern Table 3.3-1 lists the provided CDMA2000 1X waveform patterns. Table 3.3-1 List of CDMA2000 1X waveform patterns Waveform Pattern Name Supported System Frame Coding Symbol Data cdma2000 1xRTT RC1 RVS_RC1_FCH Available FCH 9.6 kbps Reverse cdma2000 1xRTT RC2...

  • Page 82: Xrtt Reverse Rc1 (Rvs_Rc1_Fch)

    Chapter 3 Details of Standard Waveform Pattern 3.3.1 1xRTT Reverse RC1 (RVS_RC1_FCH) When the RVS_RC1_FCH waveform pattern is selected, a frame-coded R-FCH signal of 1xRTT Reverse RC1 is output. The frame coding and IQ modulation are performed conforming to 3GPP2 C.S0002-C-1. Table 3.3.1-1 lists the parameters of the output signal.
  • Page 83 CDMA2000 1X Waveform Pattern Channel Add Frame Add 8 Convolutional Block Bits Quality Encoder Encoder Interleaver (PN9fix Indicator Tail bits R = 1/3, K = 9 (576 symbols) 172 bits/20 ms I Channel PN Sequence Signal Point Baseband Mapping Filter 64-ary Orthogonal Modulator...

  • Page 84: Xrtt Reverse Rc2 (Rvs_Rc2_Fch)

    Chapter 3 Details of Standard Waveform Pattern 3.3.2 1xRTT Reverse RC2 (RVS_RC2_FCH) When the RVS_RC2_FCH waveform pattern is selected, a frame-coded R-FCH signal of 1xRTT Reverse RC2 is output. The frame coding and IQ modulation are performed conforming to 3GPP2 C.S0002-C-1. Table 3.3.2-1 lists the parameters of the output signal.
  • Page 85 CDMA2000 1X Waveform Pattern Add One Channel Add Frame Add 8 Convolutional Block Erasure Bits Quality Encoder Encoder Interleaver Indicator (PN9fix Tail bits Indicator R = 1/2, K = 9 (576 symbols) 267 bits/20 ms I Channel PN Sequence Signal Point Baseband Mapping Filter...

  • Page 86: Xrtt Reverse Rc3(1) (Rvs_Rc3_Fch)

    Chapter 3 Details of Standard Waveform Pattern 3.3.3 1xRTT Reverse RC3(1) (RVS_RC3_FCH) When the RVS_RC3_FCH waveform pattern is selected, a frame-coded multiplexed signal of 1xRTT Reverse RC3 is output. The frame coding and IQ modulation are performed conforming to 3GPP2 C.S0002-C-1. The channels to be multiplexed are R-PICH and R-FCH.
  • Page 87 CDMA2000 1X Waveform Pattern Reverse Add Frame Add 8 Convolutional Symbol Block Traffic Quality Encoder Encoder Repetition Interleaver Channel (2  factor) Indicator Tail bits R = 1/4, K = 9 (1536 symbols) Bits (PN9fix 172 bits/20 ms Figure 3.3.3-2 Signal generation block diagram for RVS_RC3_FCH waveform pattern (1 of Reverse Baseband ...
  • Page 88 Chapter 3 Details of Standard Waveform Pattern 3.3.4 1xRTT Reverse RC3(2) (RVS_RC3_FCH_SCH) When the RVS_RC3_FCH_SCH waveform pattern is selected, a frame-coded multiplexed signal of 1xRTT Reverse RC3 is output. The frame coding and IQ modulation are performed conforming to 3GPP2 C.S0002-C-1.
  • Page 89 CDMA2000 1X Waveform Pattern Reverse Add Frame Add 8 Convolutional Symbol Block Traffic Quality Encoder Encoder Repetition Interleaver Channel (2  factor) Indicator Tail bits R = 1/4, K = 9 (1536 symbols) Bits (PN9fix 172 bits/20 ms Figure 3.3.4-2 Signal generation block diagram for RVS_RC3_FCH_SCH waveform pattern (1 of Reverse Baseband ...

  • Page 90: Xrtt Reverse Rc3(3) (Rvs_Rc3_Dcch)

    Chapter 3 Details of Standard Waveform Pattern 3.3.5 1xRTT Reverse RC3(3) (RVS_RC3_DCCH) When the RVS_RC3_DCCH waveform pattern is selected, a frame-coded multiplexed signal of 1xRTT Reverse RC3 is output. The frame coding and IQ modulation are performed conforming to 3GPP2 C.S0002-C-1. The channels to be multiplexed are R-PICH and R-DCCH.
  • Page 91 CDMA2000 1X Waveform Pattern Reverse Dedicated Add Frame Add 8 Convolutional Symbol Block Control Quality Encoder Encoder Repetition Interleaver Channel (2  factor) Indicator Tail bits R = 1/4, K = 9 (1536 symbols) Bits (PN9fix 172 bits/20 ms Figure 3.3.5-2 Signal generation block diagram for RVS_RC3_DCCH waveform pattern (1 of Reverse Pilot All “1”...

  • Page 92: Xrtt Reverse Rc4 (Rvs_Rc4_Fch)

    Chapter 3 Details of Standard Waveform Pattern 3.3.6 1xRTT Reverse RC4 (RVS_RC4_FCH) When the RVS_RC4_FCH waveform pattern is selected, a frame-coded multiplexed signal of 1xRTT Reverse RC4 is output. The frame coding and IQ modulation are performed conforming to 3GPP2 C.S0002-C-1. The channels to be multiplexed are R-PICH and R-FCH.

  • Page 93: Cdma2000 1X Waveform Pattern

    CDMA2000 1X Waveform Pattern Reverse Traffic Add Frame Add 8 Convolutional Symbol Symbol Block Channel Reserved Quality Encoder Encoder Repetition Puncture Interleaver Bits (2  Factor) Indicator Tail bits R = 1/4, K = 9 (8 of 24) (1536 symbols) (PN9fix 267 bits/20 ms Figure 3.3.6-2 Signal generation block diagram for RVS_RC4_FCH waveform pattern (1 of 2)
  • Page 94 Chapter 3 Details of Standard Waveform Pattern 3.3.7 1xRTT Forward RC1, 2 (FWD_RC1-2 9channel) When the FWD_RC1-2 9channel waveform pattern is selected, a multiplexed signal corresponding to 1xRTT Forward RC1 and RC2 that conform to 3GPP2 C.S0002-C-1 is output. The channels to be multiplexed are F-PICH, F-SyncCH, PagingCH, and F-FCH ...
  • Page 95 CDMA2000 1X Waveform Pattern I-Channel Baseband Symbol Data PN Sequence Filter Forward Fundamental Channel (PN9fix Forward Pilot Channel (all 0), Forward Sync Walsh Q-Channel Baseband Channel (PN9fix Function PN Sequence Filter Forward Paging Channel (PN9fix Note: Binary signals “0” and “1” are respectively substituted for 1 and –1. Figure 3.3.7-1 Signal generation block diagram for FWD_RC1-2 9channel waveform pattern *: Since the PN9 generator is initialized every four frames, the same...
  • Page 96 Chapter 3 Details of Standard Waveform Pattern 3.3.8 1xRTT Forward RC3, 4, 5 (FWD_RC3-5 9channel) When the FWD_RC3-5 9channel waveform pattern is selected, a multiplexed signal corresponding to 1xRTT Forward RC3, RC4, and RC5 that conform to 3GPP2 C.S0002-C-1 is output. The channels to be multiplexed are F-PICH, F-SyncCH, PagingCH, and F-FCH ...
  • Page 97 CDMA2000 1X Waveform Pattern Forward Fundamental DEMUX Channel (PN9fix Forward Pilot Channel (all 0), Forward Sync Channel (PN9fix Forward Paging Channel (PN9fix Figure 3.3.8-1 Signal generation block diagram for FWD_RC3-5 9channel (1 of 2) Baseband  Filter  Walsh Function Baseband ...
  • Page 98 Chapter 3 Details of Standard Waveform Pattern *: Since the PN9 generator is initialized every four frames, the same 4-frame length data is repeatedly output. For this reason, continuity of PN9fix is retained within a set of four consecutive frames, but lost with the adjacent sets of four consecutive frames.

  • Page 99: Cdma2000 1Xev-Do Waveform Pattern

    CDMA2000 1xEV-DO Waveform Pattern 3.4 CDMA2000 1xEV-DO Waveform Pattern The following CDMA2000 1xEV-DO waveform patterns are provided. FWD_38_4_16slot/…/FWD_2457_6_1slot When these waveform patterns are selected, a CDMA2000 1xEV-DO forward modulation signal is output after channel coding, time-division multiplexing (TDM), and IQ mapping are performed for that signal, in conformance with 3GPP2 C.S0024.
  • Page 100 Chapter 3 Details of Standard Waveform Pattern Table 3.4-1 List of CDMA2000 1xEV-DO waveform patterns (Cont’d) Waveform Pattern Name Supported System Frame Coding Symbol Data CDMA2000 1xEV-DO FWD_1228_8kbps_2slot IS-95SPEC + EQ PN15fix* Forward CDMA2000 1xEV-DO FWD_2457_6kbps_1slot IS-95SPEC + EQ PN15fix* Forward CDMA2000 1xEV-DO FWD_Idle...
  • Page 101 CDMA2000 1xEV-DO Waveform Pattern 3.4.1 1xEV-DO forward (excluding FWD_Idle) When one of the FWD_38_4kbps_16slot to FWD_2457_6kbps_1slot waveform patterns is selected, a CDMA2000 1xEV-DO forward modulation signal is output after channel coding and IQ mapping are performed for that signal, in conformance with 3GPP2 C.S0024. This output signal has a pilot channel, forward MAC channel, and forward traffic channel multiplexed.
  • Page 102 Chapter 3 Details of Standard Waveform Pattern Forward Traffic Encoder Channel Channel FCS bits R = 1/3 Interleaver MAC Layer or 1/5 Packets Tail bits (PN15fix Scrambler QPSK/ Sequence Symbol 16-ary Walsh Walsh 8-PSK/ Repetition/ DEMUX Walsh Channel Gain Chip Level 16-QAM Symbol 1 to 16...
  • Page 103 CDMA2000 1xEV-DO Waveform Pattern Data Rates of 153.6, 307.2, 614.4, 921.6, 1228.8, 1843.2 and 2457.6 kbps … Preamble Channel- Pilot Channel- Pilot Channel- Coded & MAC Coded & MAC Coded Chips Packet Packet Packet 400 – N Chips Chips Chips Chips Chips Data Rates of 38.4 and 76.8 kbps...
  • Page 104 Chapter 3 Details of Standard Waveform Pattern Table 3.4.1-1 Traffic channel parameters 1xEV-DO Waveform Data Rate Packet Preamble Slot Modulation Type Pattern (kbps) (Bit) (Chip) FWD_38_4kbps_16slot 38.4 1024 1024 QPSK FWD_76_8kbps_8slot 76.8 1024 QPSK FWD_153_6kbps_4slot 153.6 1024 QPSK FWD_307_2kbps_2slot 307.2 1024 QPSK FWD_614_4kbps_1slot...
  • Page 105 CDMA2000 1xEV-DO Waveform Pattern RPC Channel RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit RPCBit MAC Index 5 = Random Random Random Random Random Random Random Random Random Random Random Random Random Random Random Random RPC Channel...
  • Page 106 Chapter 3 Details of Standard Waveform Pattern 3.4.2 1xEV-DO reverse When one of the 1xEV-DO waveform patterns from RVS_9_6kbps_RX to RVS_153_6kbps_TX is selected, a CDMA2000 1xEV-DO reverse modulation signal is output after channel coding and IQ mapping are performed for that signal, in conformance with 3GPP2 C.S0024. This output signal has a pilot, RRI, DRC, ACK, and data channels multiplexed.
  • Page 107 CDMA2000 1xEV-DO Waveform Pattern Pilot Channel Signal Point (All 0's) Mapping 0  +1 RRI Symbol Codeword Puncture Simplex 1  1 One 3-Bit Symbol Repetition Last 3 Encoder per 16-Slot Physical (Factor = 37) Symbols  Layer Packet Baseband Filter Signal Point Channel...
  • Page 108 Chapter 3 Details of Standard Waveform Pattern Table 3.4.2-2 Channel gain of 1xEV-DO Reverse 1xEV-DO Waveform Data Rate Data/Pilot RRI/Pilot DRC/Pilot ACK/Pilot Pattern (kbps) RVS_9_6kbps_RX 3.75 dB 0 dB 3.0 dB 0.0 dB RVS_19_2kbps_RX 19.2 6.75 dB 0 dB 3.0 dB 0.0 dB RVS_38_4kbps_RX 38.4...
  • Page 109 CDMA2000 1xEV-DO Waveform Pattern 3.4.3 1xEV-DO forward idle slot When the FWD_Idle waveform pattern is selected, a CDMA2000 1xEV-DO forward idle slot modulation signal is output after IQ mapping is performed for that signal, in conformance with 3GPP2 C.S0024. This output signal has a pilot channel and forward MAC channel multiplexed.

  • Page 110: Wlan Waveform Pattern

    Chapter 3 Details of Standard Waveform Pattern 3.5 WLAN Waveform Pattern IEEE802.11a, IEEE802.11b, and IEEE802.11g waveform patterns are provided as WLAN waveform patterns. They are listed in Tables 3.5-1, 3.5-2, and 3.5-3, respectively. Table 3.5-1 List of IEE802.11a waveform patterns Coding Bits Coding Bits Data Bits per...
  • Page 111 WLAN Waveform Pattern Table 3.5-2 List of IEE802.11b waveform patterns Waveform Pattern Name Spreading and Coding Modulation 11b_DSSS_1Mbps DSSS, 11 chip Barker Code DBPSK 11b_DSSS_2Mbps DSSS, 11 chip Barker Code DQPSK 11b_DSSS_2Mbps_PN9* DSSS, 11 chip Barker Code DQPSK 11b_CCK_5_5Mbps DQPSK 11b_CCK_11Mbps DQPSK 11b_CCK_11Mbps_PN9*...
  • Page 112 Chapter 3 Details of Standard Waveform Pattern When a WLAN waveform pattern is output, a marker signal shown in Table 3.5-4 is output from the AUX connector on the rear panel. Table 3.5-4 Marker output data Marker Signal Output Data Marker 1 Frame Clock Marker 2...
  • Page 113 WLAN Waveform Pattern 3.5.1 IEEE802.11a The IEEE802.11a waveform patterns conform to the MAC and physical layer specifications defined in IEEE802.11 and IEEE802.11a. Table 3.5.1-1 lists the parameters commonly used by each waveform pattern. Table 3.5.1-1 Common parameters Parameter Setting Value PSDU Length 1000 bytes PSDU Data...
  • Page 114 Chapter 3 Details of Standard Waveform Pattern The frame control field in the MAC header consists of the bits listed in Table 3.5.1-2 and the data below are used. Table 3.5.1-2 Frame control field Field Data Protocol Version B0 and B1 Type B2 and B3 Subtype...
  • Page 115 WLAN Waveform Pattern 3.5.2 IEEE802.11b The IEEE802.11b waveform patterns conform to the MAC and physical layer specifications described in IEEE802.11 and IEEE802.11b. Table 3.5.2-1 lists the parameters commonly used by each waveform pattern. Table 3.5.2-1 Common parameters Parameter Setting Value PSDU Length 1024 bytes PSDU Data...
  • Page 116 Chapter 3 Details of Standard Waveform Pattern 3.5.3 IEEE802.11g The IEEE802.11g waveform patterns conform to the MAC and physical layer specifications described in IEEE802.11 and IEEE802.11g. Table 3.5.3-1 lists the parameters commonly used by each waveform pattern. Table 3.5.3-1 Common parameters Parameter Setting Value PSDU Length...

  • Page 117: Digital Broadcasting Waveform Pattern

    Digital Broadcasting Waveform Pattern 3.6 Digital Broadcasting Waveform Pattern Table 3.6-1 lists the provided digital broadcasting waveform patterns. Table 3.6-1 List of digital broadcasting waveform patterns Waveform Pattern Name Parameter Application Roll-off rate: 0.35 Digital broadcasting BS_1ch Nyquist bandwidth: 28.86 MHz (ISDB-S) physical layer...
  • Page 118 Chapter 3 Details of Standard Waveform Pattern Table 3.6-1 List of digital broadcasting waveform patterns (Cont’d) Waveform Pattern Name Parameter Application Transmission concatenated eight segments consisting of Seg#1 to Seg#5 (1-segment format) and Seg#6 to Seg#8 (3-segment format) ISDBTsb_QPSK_1_2 Mode: 3, GI: 1/8 Layer A: QPSK, CR = 1/2, TI = 0 Layer B: QPSK, CR = 1/2, TI = 0 Transmission...
  • Page 119 Digital Broadcasting Waveform Pattern 3.6.1 Frame configuration BS_1ch, CS_1ch, CATV_AnnexC_1ch Digital BS, Digital CS, and CATV waveform patterns consist of continuous PN23 data, and do not have a frame configuration as shown below. PN23fix Figure 3.6.1-1 Data Configuration of Digital BS, Digital CS and CATV waveform patterns ISDBT_1layer_1ch, ISDBT_2layer_1ch ISDB-T waveform patterns are generated as shown in Figure 3.6.1-2.
  • Page 120 Chapter 3 Details of Standard Waveform Pattern ISDBT_2layer_Coded This waveform pattern is generated as shown below. AV data Information source coding Multiplexing Transmission channel coding Figure 3.6.1-3 ISDB_2layer_Coded waveform pattern generation This waveform pattern is generated through transmission channel coding in conformance with ARIB STD-B31.
  • Page 121 Digital Broadcasting Waveform Pattern ISDBT_QPSK_1_2, ISDBT_QPSK_2_3, ISDBT_16QAM_1_2, and ISDBT_QPSK_2_3_TI4 These waveform patterns are generated through transmission channel coding in conformance with ARIB STD-B31. Tables 3.6.1-3 and 3.6.1-4 list the transmission channel coding parameters for each pattern. Table 3.6.1-3 Transmission parameters for ISDBT_QPSK_1_2 and ISDBT_QPSK_2_3 waveform patterns Pattern Name ISDBT_QPSK_1_2...
  • Page 122 Chapter 3 Details of Standard Waveform Pattern ISDBTsb_QPSK_1_2, ISDBTsb_QPSK_2_3, and ISDBTsb_16QAM_1_2 These waveform patterns are generated through transmission channel coding in conformance with ARIB STD-B29. Tables 3.6.1-5 to 3.6.1-7 list the transmission channel coding parameters for each pattern. Each of these waveform patterns consists of eight segments.
  • Page 123 Digital Broadcasting Waveform Pattern Table 3.6.1-7 Transmission parameters for ISDBTsb_16QAM_1_2 waveform pattern Pattern Name ISDBTsb_16QAM_1_2 Parameter Segment No. Seg#1 Seg#2 Seg#3 Seg#4 Seg#5 Seg#6 to Seg#8 Layer Layer A Layer A Layer A Layer A Layer A Layer A Layer B Mode Mode3 Guard interval...
  • Page 124 Chapter 3 Details of Standard Waveform Pattern ® 3.7 Bluetooth Waveform Pattern Bluetooth Table 3.7-1 lists the provided waveform patterns. Table 3.7-1 List of Bluetooth waveform patterns Data Waveform Pattern Modulation Rate Filter Packet Type Dirty, FM* Name for Payload (Mbits/s) DH1* GFSK*...

  • Page 125: Bluetooth® Waveform Pattern

    Bluetooth® Waveform Pattern Table 3.7-1 List of Bluetooth waveform patterns (Continued) Data Waveform Pattern Modulation Rate Filter Packet Type Dirty, FM* Name for Payload (Mbits/s) DH1_dirty* GFSK* Gaussian* Dirty DH3_dirty * GFSK* Gaussian* Dirty DH5_dirty * GFSK* Gaussian* Dirty 2-DH1_dirty * /4-DQPSK Root Nyquist* 2-DH1...
  • Page 126 Chapter 3 Details of Standard Waveform Pattern Figure 3.7-1 shows a timing chart of the waveform patterns with packet formats. 1Slot Time 2-DH1 3-DH1 POLL 2-DH3 3-DH3 2-DH5 3-DH5 DH3_3SlotOff 2-DH3_3SlotOff 3-DH3_3SlotOff DH5_5SlotOff 2-DH5_5SlotOff 3-DH5_5SlotOff Reference Signal Figure 3.7-1 Timing chart of waveform patterns with packet format Bluetooth When a waveform pattern having a packet configuration is...
  • Page 127 Bluetooth® Waveform Pattern 3.7.1 Basic Rate packet configuration When the DH1, DH3, DH5, DH3_3SlotOff, or DH5_5SlotOff waveform pattern is selected, data is output in the format shown in Figure 3.7.1-1. Table 3.7.1-1 lists the data length of the payload body. Access code Header Payload...
  • Page 128 Chapter 3 Details of Standard Waveform Pattern 3.7.1.2 Header The configuration of the header field is shown below. For HEC, a value calculated conforming to HEC Generation specified in Section 7.1.1 of Bluetooth specification Version 2.0 + EDR [vol3] is assigned. Also, this 18-bit data becomes 54-bit data with FEC CODE: RATE 1/3, which is specified in Section 7.4 of Bluetooth specification Version 2.0 + EDR [vol3].

  • Page 129: Enhanced Data Rate Packet Configuration

    Bluetooth® Waveform Pattern 3.7.2 Enhanced Data Rate packet configuration When the 2-DH1, 2-DH3, 2-DH5, 3-DH1, 3-DH3, 3-DH5, 2-DH3_3SlotOff, 2-DH5_5SlotOff, 3-DH3_3SlotOff, or 3-DH5_5SlotOff waveform pattern is selected, data is output in the format shown in Figure 3.7.2-1. Table 3.7.2-1 lists the number of bits of Payload Body. Access code Header GUARD...
  • Page 130 Chapter 3 Details of Standard Waveform Pattern 3.7.2.3 Payload The configuration of the payload field is the same as described in Section 3.7.1.3. Table 3.7.2.3-1 lists the data length and setting value of LENGTH. Table 3.7.2.3-1 Value LENGTH for EDR packet Packet Type Data Length Value...

  • Page 131: Packet Configuration For Ble

    Bluetooth® Waveform Pattern 3.7.3 Packet configuration for BLE When waveform patterns of BLE, BLE_dirty, BLE_Dirty_withFM, and BLE_CRC_corrupted of Bluetooth Low Energy (BLE) waveform pattern are selected, the data is output in the format shown in Figure 3.7.3-1. Table 3.7.3-1 shows the payload body data length. Packet Interval is 1. 25 ms.

  • Page 132: Dirty Transmitter Signal

    Bluetooth wordmark and logo are properties of Bluetooth SIG, Inc. and Anritsu uses them under a license agreement with Bluetooth SIG, Inc. Other trademarks and tradenames belong to their respective owners. 3-114...

  • Page 133: Gps Waveform Pattern

    GPS Waveform Pattern 3.8 GPS Waveform Pattern Table 3.8-1 lists the provided GPS waveform patterns. Table 3.8-1 List of GPS waveform patterns Waveform Pattern Name Main Use Data Summary Consists of TLM, HOW, and default navigation data, formatted according to the subframe configuration that Sensitivity is prescribed in GLOBAL POSITIONING SYSTEM test...

  • Page 134: Waveform Format

    Chapter 3 Details of Standard Waveform Pattern 3.8.1 Waveform format The following figures show the formats of the waveforms listed in Table 3.8-1 above. Each data is spread by the C/A code with Satellite ID Number 1. See Figure 3.8.1-1 for the C/A code generation. SYNC_ADJ,TLM Navigation Data :Telemetry...
  • Page 135 GPS Waveform Pattern PARITY ……… 1 Word 10 Word :Data 24 bits :Parity Bit 6 bits PN9fix data is allocated to the Data part. Adjacent Word PN data is contiguous but the PN data is discontiguous at the 10th Word and the 1st Word of the next cycle.

  • Page 136: Glonass Waveform Pattern

    Chapter 3 Details of Standard Waveform Pattern 3.9 GLONASS Waveform Pattern The GLONASS waveform patterns shown in Table 3.9-1 are provided. Table 3.9-1 GLONASS waveform patterns Waveform Pattern Name Main Use Data Summary Sensitivity It has String Navigation bit structure specified in test GLOBAL NAVIGATION...

  • Page 137: Waveform Format

    GLONASS Waveform Pattern 3.9.1 Waveform format The following figures show the formats of the waveforms listed in Table 3.9-1 above. Idle Data … Idle Data 1 String 1 Frame = 15 Strings Idle: Idle chip 1 bit [50 bps] Random data * Data:...

  • Page 138: Qzss Waveform Pattern

    Chapter 3 Details of Standard Waveform Pattern 3.10 QZSS Waveform Pattern The QZSS waveform patterns shown in Table 3.10-1 are provided. Table 3.10-1 List of QZSS waveform patterns Waveform Pattern Name Main Use Data Summary Consists of TLM, HOW, and default navigation data, formatted according to the subframe configuration that Sensitivity DefaultNavData...

  • Page 139: Waveform Format

    3.10 QZSS Waveform Pattern 3.10.1 Waveform format The following figures show the formats of the waveforms listed in Table 3.10-1 above. Each data is spread by the C/A code with Satellite ID Number 193. See Figure 3.10.1-1 for the C/A code generation. Data :Telemetry 30 bits...
  • Page 140 Chapter 3 Details of Standard Waveform Pattern PARITY, ENC ……… 1Word 10Word :Data 24 bits :Parity Bit 6 bits PN9fix data or Random data is allocated to the Data part. Adjacent Word PN data is contiguous but the PN data is discontiguous at the 10th Word and the 1st Word of the next cycle in PARITY waveform.

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