Page 1 Option UN8 hardware Revision C. If the functions and display of the signal generator differ from this manual, a ﬁrmware/hardware upgrade may be needed. Serial Number Preﬁxes (Afﬁx Label Here) Part Number E4400-90327 Printed in USA June 2001 Supersedes June 2000 © Copyright 1999-2001 Agilent Technologies...
Page 3: Table Of Contents
Contents 1. Overview of Modulation Formats APCO 25 ..............1-2 Bluetooth.
Page 4 Contents Creating a User-Deﬁned FIR Filter by Entering Values ......2-26 Modifying an Existing FIR Filter with the FIR Table Editor..... . . 2-30 Storing User-Deﬁned Files to Memory .
Page 5 Contents A ................3-19 A ﬁeld .
Page 6 Contents Conﬁgure Dn Custom Disc ..........3-33 Conﬁgure Dn Normal Cont.
Page 7 Contents Data Format Pattern Framed ..........3-68 Data Clk Out .
Page 8 Contents Down TCH All ............3-81 Dummy .
Page 9 Contents Filter Factor N/A ............3-95 Filter Symbols .
Page 10 Contents Insert 0’s ............. . . 3-108 Insert Row .
Page 11 Contents None ..............3-119 Normal .
Page 12 Contents QPSK ..............3-139 QPSK and OQPSK .
Page 13 Contents SS ..............3-153 SSB .
Page 14 Contents Uplink MCS-1 ............3-168 Uplink MCS-5 .
Page 15 Contents External Frame Trigger Conﬁguration - Delay Bits, Delay State, Type ....4-33 Frame Repeat.............4-34 Frame Transmission Rate .
Page 16 Contents Unique Word Field ............4-86 User FSK Files .
Page 17 ESG Family Signal Generators Options UN8 and 202 Overview of Modulation Formats This manual describes the digital modulation capability provided by the Real-Time I/Q Baseband Generator with TDMA formats (Option UN8 and includes Option 202). Overviews are provided in this chapter, as well as the operating and programming information and examples in the following chapters.
Page 18: Overview Of Modulation Formats
Overview of Modulation Formats ESG Family Signal Generators APCO 25 Options UN8 and 202 APCO 25 The Association of Public-Safety Communications Ofﬁcial-International, Inc., Project 25 (APCO 25) is a standard setting initiative for public-safety communications. The primary objectives of the APCO Project 25 standards process are to provide digital narrowband radios optimum performance, meet all public-safety user needs, and achieve maximum interoperability.
Page 19: Bluetooth
ESG Family Signal Generators Overview of Modulation Formats Options UN8 and 202 Bluetooth Bluetooth Bluetooth is a global speciﬁcation for wireless communication. It provides limited range RF connectivity for voice and data transmissions between electronic devices without the use of cables. Promoted by the Bluetooth Special Interest Group (SIG), Bluetooth operates in a globally available unlicensed 2.4 GHz Industrial, Scientiﬁc, and Medical (ISM) radio band.
Page 20: Cdpd
Overview of Modulation Formats ESG Family Signal Generators CDPD Options UN8 and 202 CDPD Cellular Digital Packet Data (CDPD) is a speciﬁcation for supporting wireless communications. CDPD is designed to work over Advanced Mobile Phone System (AMPS) or as a protocol for Time Division Multiple Access (TDMA). CDPD is a transparent overlay on an existing AMPS system.
Page 21: Custom
ESG Family Signal Generators Overview of Modulation Formats Options UN8 and 202 Custom Custom The Real-Time I/Q Baseband Generator enables you to shape the characteristics of a digitally modulated signal. You can use it to create time-domain multiple access signals. You can choose from a variety of modulation types, including QPSK, offset QPSK, BPSK, π/4DQPSK, 4-, 16-, 32-, 64-, and 256-QAM, as well as deﬁne your own MSK, FSK, and I/Q modulation types.
Page 22: Dect
Overview of Modulation Formats ESG Family Signal Generators DECT Options UN8 and 202 DECT The Digital European Cordless Telecommunications, (DECT) digital communications standard deﬁnes an access technology for existing and future networks including PSTN, ISDN and GSM for public applications and PBXs and X.25 for private networking. Because DECT can be used to access any network, a wide range of cordless communications systems are being developed using the DECT standard.
Page 23: Edge (Option 202 Only)
ESG Family Signal Generators Overview of Modulation Formats Options UN8 and 202 EDGE (Option 202 Only) EDGE (Option 202 Only) The Enhanced Data Rates for GSM Evolution (EDGE) digital communications standard deﬁnes a voice and data over-air interface between a mobile radio and the system infrastructure.
Page 24: Gsm
Overview of Modulation Formats ESG Family Signal Generators Options UN8 and 202 The Global System for Mobile Communication (GSM) digital communications standard deﬁnes a voice and data over-air interface between a mobile radio and the system infrastructure. This standard was designed as the basis for a private radio communications system.
Page 25: Nadc
ESG Family Signal Generators Overview of Modulation Formats Options UN8 and 202 NADC NADC The North American Digital Cellular digital communications standard deﬁnes a voice and data over-air interface between a mobile radio and the system infrastructure. This standard was designed as the basis for a private radio communications system. A central control center is linked to multiple base station sites which provide the required coverage.
Page 26: Pdc
Overview of Modulation Formats ESG Family Signal Generators Options UN8 and 202 The Personal Digital Cellular (PDC) digital communications standard deﬁnes a voice and data over-air interface between a mobile radio and the system infrastructure. A central control center is linked to multiple base station sites which provide the required coverage. The PDC digital communications standard employs a 6:1 Time Division Multiple Access (TDMA) allowing six channels to use one carrier frequency simultaneously.
Page 27: Phs
ESG Family Signal Generators Overview of Modulation Formats Options UN8 and 202 The Personal Handy Phone System (PHS) digital communications standard deﬁnes a voice and data over-air interface between a mobile radio and a base station/network interface. A central control center is linked to multiple base station sites which provide the required coverage.
Page 28: Tetra
Overview of Modulation Formats ESG Family Signal Generators TETRA Options UN8 and 202 TETRA The Trans European Trunked Radio or TETRA digital communications standard deﬁnes a voice and data over-air interface between a mobile radio and the system infrastructure. This standard was designed as the basis for a private radio communications system. A central control center is linked to multiple base station sites which provide the required coverage.
Page 29 HP ESG Family Signal Generators Options UN8 and 202 Using Functions This chapter contains procedures that show you how to use some of the major functions of real-time I/Q baseband signal generation (Option UN8 and the EDGE format Option 202): •...
Page 30: Using Functions
Using Functions HP ESG Family Signal Generators Setting Up Framed Digital Modulation Options UN8 and 202 Setting Up Framed Digital Modulation Use the following procedure to conﬁgure the signal generator to output a framed digitally-modulated signal. The basic steps to the procedure are to: •...
Page 31: Selecting The Desired Format
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Setting Up Framed Digital Modulation Selecting the Desired Format Press the front panel key and press > (if it appears) > Mode TDMA Real Time I/Q BaseBand to select the communication standard that you want. desired format Setting Up the First Timeslot 1.
Page 32: Setting Up The Second Timeslot
Using Functions HP ESG Family Signal Generators Setting Up Framed Digital Modulation Options UN8 and 202 Setting Up the Second Timeslot Return to the Conﬁgure Timeslots menu and set the following conditions: Timeslot # Timeslot Type Format Timeslot On/Off Data Pattern DECT Trafﬁc Bearer EDGE...
Page 33: Using Custom Format
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Using Custom Format Using Custom Format The Custom format enables you to create a unique, unframed digital modulation. The following ﬁgure shows the Custom menu ( > (if it appears) > Mode Real Time I/Q BaseBand ), and the default values for this format.
Page 34: Turning On A Format And The Modulation
Using Functions HP ESG Family Signal Generators Turning On a Format and the Modulation Options UN8 and 202 Turning On a Format and the Modulation Once you have the modulation set up as you want, use the following steps to apply it to a carrier.
Page 35: Customizing The Burst Shape
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Customizing the Burst Shape Customizing the Burst Shape The default burst shape of each format is implemented according to the standards of the format selected. You can, however, modify the following aspects of the burst shape: •...
Page 36: Changing Rise And Fall Times And Adding Delay
Using Functions HP ESG Family Signal Generators Customizing the Burst Shape Options UN8 and 202 Changing Rise and Fall Times and Adding Delay 1. Press the front panel hardkey. Mode 2. In the softkey menu, press (if it appears) > >...
Page 37: Defining The Shape Of The Burst Curve
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Customizing the Burst Shape Deﬁning the Shape of the Burst Curve You can adjust the shape of the rise time curve and the fall time curve using the rise shape and fall shape editors.
Page 38 Using Functions HP ESG Family Signal Generators Customizing the Burst Shape Options UN8 and 202 5. Press to view a graphical representation of the waveform’s rise and Display Burst Shape fall characteristics, as shown. 6. To use the new burst shape, ﬁrst store the ﬁle, then load it. For help in executing these store and load functions, refer to “Storing User-Deﬁned Files to Memory”...
Page 39: Mapping Custom Differential Encoding
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Mapping Custom Differential Encoding Mapping Custom Differential Encoding Differential encoding is a digital-encoding technique that denotes a binary value by a signal change rather than a particular signal state. The signal generator has an editor that enables you to manipulate the differential state map associated with user-deﬁned I/Q and user-deﬁned FSK modulations.
Page 40 Using Functions HP ESG Family Signal Generators Mapping Custom Differential Encoding Options UN8 and 202 2. Press . This opens the differential state map editor. You Conﬁgure Differential Encoding are now prepared to create a custom differential encoding for the user-deﬁned default 4QAM I/Q modulation.
Page 41 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Mapping Custom Differential Encoding Notice that (UNSTORED) appears next to Differential State Map on the NOTE signal generator’s display. Differential state maps are associated with the user-deﬁned modulation for which they were created. In order to save a custom differential state map, you must store the user-deﬁned modulation for which it was designed.
Page 42 Using Functions HP ESG Family Signal Generators Mapping Custom Differential Encoding Options UN8 and 202 Applying the Custom Differential Encoding To apply a custom differential encoding to a user-deﬁned modulation, press until is highlighted. The user-deﬁned modulation will now Differential Encoding Off On be differentially encoded.
Page 43: Mapping Symbol Positions With The I/Q Table Editor
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Mapping Symbol Positions with the I/Q Table Editor Mapping Symbol Positions with the I/Q Table Editor In modulation schemes deﬁned by standards (such as TDMA and CDMA), symbols appear in default positions in the I/Q plane.
Page 44: Creating A Symbol Map
Using Functions HP ESG Family Signal Generators Mapping Symbol Positions with the I/Q Table Editor Options UN8 and 202 Creating a Symbol Map Use the following procedure to create and store a 4-symbol unbalanced QPSK. Accessing the I/Q Table Editor 1.
Page 45 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Mapping Symbol Positions with the I/Q Table Editor Entering I and Q Values Next you will enter the coordinates of each symbol. The position of a symbol is deﬁned by a pair of values (one representing I and the other representing Q).
Page 46 Using Functions HP ESG Family Signal Generators Mapping Symbol Positions with the I/Q Table Editor Options UN8 and 202 1. Note that the entry under I Value is highlighted. Use the numeric keypad to type the ﬁrst I value from the table on page 2-17.
Page 47: Moving An I/Q Symbol
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Mapping Symbol Positions with the I/Q Table Editor Moving an I/Q Symbol You can manipulate symbol locations to simulate magnitude and phase errors. In this example, you will edit a 4QAM constellation to move one symbol closer to the origin. Loading the 4QAM I/Q Map 1.
Page 48 Using Functions HP ESG Family Signal Generators Mapping Symbol Positions with the I/Q Table Editor Options UN8 and 202 Editing I and Q Values The following ﬁgure summarizes the process of editing values in the I/Q table editor. Detailed steps begin after the ﬁgure. 1.
Page 49: Globally Replacing An I/Q Value
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Mapping Symbol Positions with the I/Q Table Editor Globally Replacing an I/Q Value When you want to change an I/Q value throughout the entire table, you can change the value once and have all occurrences of that value change to the new value.
Page 50: Building A Customized Fsk Modulation With The Fsk Table Editor
Using Functions HP ESG Family Signal Generators Building a Customized FSK Modulation with the FSK Table Editor Options UN8 and 202 Building a Customized FSK Modulation with the FSK Table Editor Use this procedure to create, store, and apply a customized, continuous 4-level FSK signal. You will learn to do the following: •...
Page 51: Creating A Unique Fsk File Of Frequency Deviations
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Building a Customized FSK Modulation with the FSK Table Editor Creating a Unique FSK File of Frequency Deviations There are two ways to create a custom FSK ﬁle. You can either deﬁne the frequency deviations using completely original data (see "Using Original Data"...
Page 52: Modifying A Default Fsk Pattern
Using Functions HP ESG Family Signal Generators Building a Customized FSK Modulation with the FSK Table Editor Options UN8 and 202 2. Enter the remaining frequency deviation values: • Data row 0001: +1.8 kHz • Data row 0010: -600 Hz •...
Page 53 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Building a Customized FSK Modulation with the FSK Table Editor 3. Press the softkey. You will see the FSK table editor with the default 4-Lvl FSK Frequency Values displayed. See the following ﬁgure. Default frequency values 4.
Page 54: Creating User-Defined Fir Filters
Using Functions HP ESG Family Signal Generators Creating User-Deﬁned FIR Filters Options UN8 and 202 Creating User-Deﬁned FIR Filters You can use the FIR table editor to create a customized FIR ﬁlter either by entering coefﬁcient values, or by modifying the values of an existing ﬁlter (see page 2-30).
Page 55 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Creating User-Deﬁned FIR Filters 2. Note that the coefﬁcient 0 Value ﬁeld is highlighted. Use the numeric keypad to type the ﬁrst value from the list. As you press the numeric keys, the numbers appear in the active entry area.
Page 56 Using Functions HP ESG Family Signal Generators Creating User-Deﬁned FIR Filters Options UN8 and 202 Duplicating the First 16 Coefﬁcients using Mirror Table In a windowed sinc function ﬁlter, the second half of the coefﬁcients are identical to the ﬁrst half in reverse order. The signal generator provides a mirror table function that automatically duplicates the existing coefﬁcient values in the reverse order.
Page 57 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Creating User-Deﬁned FIR Filters Displaying a Graphical Representation of the Filter The signal generator has the capability of graphically displaying the ﬁlter in both time and frequency dimensions. 1. To view the ﬁlter frequency response (calculated using a fast Fourier transform), press >...
Page 58: Modifying An Existing Fir Filter With The Fir Table Editor
Using Functions HP ESG Family Signal Generators Creating User-Deﬁned FIR Filters Options UN8 and 202 Modifying an Existing FIR Filter with the FIR Table Editor FIR ﬁlters stored in signal generator memory can easily be modiﬁed using the FIR table editor.
Page 59 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Creating User-Deﬁned FIR Filters Modifying the Coefﬁcients 1. The value for coefﬁcient 0 should be highlighted. Use the front panel knob to scroll down until coefﬁcient 15 is highlighted. 2.
Page 60 Using Functions HP ESG Family Signal Generators Creating User-Deﬁned FIR Filters Options UN8 and 202 Using Windowing to Modify Default FIR Filters 1. Access the Load Default FIR menu again and select the Nyquist ﬁlter. 2. Add Kaiser windowing by pressing >...
Page 61: Storing User-Defined Files To Memory
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Storing User-Deﬁned Files to Memory Storing User-Deﬁned Files to Memory While the setup of each type of ﬁle may be different, the process of storing a conﬁguration for later recall and use is the same: use the softkey to store the current Store To File conﬁguration to a ﬁle in non-volatile memory.
Page 62 Using Functions HP ESG Family Signal Generators Storing User-Deﬁned Files to Memory Options UN8 and 202 4. To name the ﬁle, press the softkey containing the desired character, then select the softkey with that character from the subsequent menu. For example, to begin naming the ﬁle NEW4QAM, ﬁrst press the softkey, and then press the softkey.
Page 63: Selecting Stored Files
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Selecting Stored Files Selecting Stored Files Once you have created and stored a customized ﬁle, you can use that information with a customized modulation state, as described in this section. Applying a Stored I/Q Map 1.
Page 64: Applying A User-Defined Fir Filter
Using Functions HP ESG Family Signal Generators Selecting Stored Files Options UN8 and 202 Applying a User-Deﬁned FIR Filter 1. Preset the signal generator to normal preset conditions. 2. Press the front panel key. Mode 3. In the softkey menu, press (if it appears) >...
Page 65: Selecting A Custom Fsk File
HP ESG Family Signal Generators Using Functions Options UN8 and 202 Selecting Stored Files Selecting a Custom FSK File Once you have created and stored a custom FSK modulation to a ﬁle, you can apply its unique characteristics for your custom modulation by selecting it: 1.
Page 66: Using The Bit File Editor
Using Functions HP ESG Family Signal Generators Using the Bit File Editor Options UN8 and 202 Using the Bit File Editor The Bit File Editor enables you to create user ﬁles from scratch or manipulate user ﬁles downloaded from a remote computer. In turn, the ﬁles can be used as the transmitted data within a framed TDMA modulation, transmitted as a continuous unframed data stream according to the protocol of the active TDMA format, or transmitted as the data for a custom modulation format.
Page 67 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Using the Bit File Editor 4. Enter bit data using the numeric keypad. Bit data is entered into the table editor in 1-bit format. The current hexadecimal value of the binary data is shown in the Hex Data column, and the cursor position (in hexadecimal) is shown in the Position indicator.
Page 68: Modifying An Existing User File
Using Functions HP ESG Family Signal Generators Using the Bit File Editor Options UN8 and 202 6. Using the alpha softkeys and numeric keypad, enter USER1 and press . The user Enter ﬁle has now been copied to the Bit memory catalog with the name USER1. The ﬁle name indicator reﬂects the change.
Page 69 HP ESG Family Signal Generators Using Functions Options UN8 and 202 Using the Bit File Editor 4. Press to open a submenu that allows quick navigation to any point within the Goto table. To move the cursor to a speciﬁc bit, enter the hexadecimal position of the bit and press Enter Press...
Page 70 Using Functions HP ESG Family Signal Generators Using the Bit File Editor Options UN8 and 202 6. To change the name of the ﬁle: • Press > . This opens the ﬁle naming menu. More (1 of 2) Rename • Press >...
Page 71: Softkey Reference
ESG Family Signal Generators Options UN8 and 202 Softkey Reference This chapter lists the softkeys available with Options UN8 and 202, in alphanumeric order. The SCPI commands that duplicate these softkeys remotely are provided in Chapter 4, “Programming Commands and Examples.”...
Page 72: Symbols
Softkey Reference ESG Family Signal Generators Symbols Options UN8 and 202 Symbols Press this softkey to indicate acceptance of the edited I/Q Scaling value (1.0 to 9999.0%). Softkey Location: > > > > Mode Custom Conﬁgure Hardware I/Q Scaling (this softkey appears after you edit the I/Q Scaling value) π/4 DQPSK This softkey appears in two different situations, enabling you to either...
Page 73: Numerics
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics Numerics 2–Lvl FSK This softkey appears in two different situations, enabling you to either select a modulation, or load a default pattern into the FSK table editor. Selecting a 2–Level FSK Modulation Press this softkey to select 2–level FSK (frequency shift keying) for modulating a continuous stream of the selected data pattern.
Page 74: 1'S & 4 0'S
Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 4 1’s & 4 0’s Use this softkey to select a binary data pattern that consists of four ones followed by four zeroes. This selection is available either as a data pattern (not framed) or for use with framed data transmissions.
Page 75: 4-Lvl Fsk
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics Down TCH, Up Custom, and Down Custom menus. PHS: > > > > Mode TDMA Data Format Pattern Framed > > > > Conﬁgure Timeslots Conﬁgure TCH Other Patterns 4 1’s &...
Page 76: 4Qam
Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 4QAM This softkey appears in two different situations, enabling you to either select a modulation, or load a default I/Q map into the I/Q table editor. Selecting a 4QAM Modulation Press this softkey to select 4QAM (4-state quadrature amplitude modulation) to modulate a continuous stream of the selected data pattern.
Page 77 ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics Selecting 8 1’s & 8 0’s in a Framed Data Transmission When you select in a framed data transmission, both the 8 1’s & 8 0’s and the softkeys show this selection. Also, the B B ﬁeld Other Patterns ﬁeld (located near the bottom of the text area of the display) indicates...
Page 78: 8-Lvl Fsk
Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 8-Lvl FSK This softkey appears in two different situations, enabling you to either select a modulation, or load a default pattern into the FSK table editor. Selecting an 8-level FSK Modulation Press this softkey to select 8–level FSK (frequency shift keying) for modulating a continuous stream of the selected data pattern.
Page 79: 8Psk
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics 8PSK This softkey appears in two different situations, enabling you to either select a modulation, or load a default I/Q map into the I/Q table editor. Selecting an 8PSK Modulation Press this softkey to select 8PSK (8-state phase shift keying) to modulate a continuous stream of the selected data pattern.
Page 80 Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 Selecting 16 1’s & 16 0’s in a Framed Data Transmission When you select in a framed data transmission, both the 16 1’s & 16 0’s and the softkeys show this selection. Also, the B B ﬁeld Other Patterns ﬁeld (located near the bottom of the text area of the display) indicates...
Page 81: 16-Lvl Fsk
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics 16–Lvl FSK This softkey appears in two different situations, enabling you to either select a modulation, or load a default pattern into the FSK table editor. Selecting a 16–level FSK Modulation Press this softkey to select 16–level FSK (frequency shift keying) for modulating a continuous stream of the selected data pattern.
Page 82: 16Qam
Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 Loading an 16PSK I/Q Map into the I/Q Table Editor Press this softkey to load a 16PSK (16-state phase shift keying) I/Q map into the I/Q table editor. For details on editing I/Q maps, see “Mapping Symbol Positions with the I/Q Table Editor”...
Page 83: 32 1'S & 32 0'S
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics 32 1’s & 32 0’s Use this softkey to select a binary data pattern that consists of 32 ones followed by 32 zeroes. This selection is available either as a data pattern (not framed) or for use with framed data transmissions.
Page 84: 32Qam
Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 PDC: > > > > Mode TDMA Data Format Pattern Framed > > > > Conﬁgure Timeslots Conﬁgure Up TCH Other Patterns 32 1’s & 32 0’s is also located in the Other Patterns menus found in 32 1’s &...
Page 85: 64 1'S & 64 0'S
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics Softkey Locations Custom: > > > > Mode Custom Modulation Type Deﬁne User I/Q > > Load Default I/Q Map 32QAM Other Formats: > > > > Mode TDMA desired format Modify Standard >...
Page 86: 64Qam
Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 NADC: > > > > Mode TDMA NADC Data Format Pattern Framed > > > > Conﬁgure Timeslots Conﬁgure Up TCH Data Other Patterns 64 1’s & 64 0’s is also located in the Other Patterns menus found in 64 1’s &...
Page 87: 256Qam
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Numerics Softkey Locations Custom: > > > > Mode Custom Modulation Type Deﬁne User I/Q > > Load Default I/Q Map 64QAM Other Formats: > > > > Mode TDMA desired format Modify Standard >...
Page 88: 800 Mhz Mobile
Softkey Reference ESG Family Signal Generators Numerics Options UN8 and 202 800 MHz Mobile Pressing this softkey selects 800 MHz Mobile as the frequency band for PDC. The 800 MHz Mobile contains channels 1 through 320. Softkey Location: > > >...
Page 89: A Field
ESG Family Signal Generators Softkey Reference Options UN8 and 202 A ﬁeld Press this softkey to make the hexadecimal value of the 64-bit A ﬁeld the active function; the current value appears in the A ﬁeld near the bottom of the text area of the display. The preset value (when normal preset is selected) reﬂects the DECT format, but you can enter a new hexadecimal value.
Page 90: Apco 25 C4Fm
Softkey Reference ESG Family Signal Generators Options UN8 and 202 APCO 25 C4FM This key selects an Association of Public-safety Communications Ofﬁcials (APCO) 25 speciﬁed C4FM ﬁlter in the (ﬁlter) menu. Select This is a Nyquist ﬁlter with an alpha of 0.2 that is combined with a shaping ﬁlter.
Page 91: B Field
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Press this softkey to make the hexadecimal 30-bit broadcast bits (B) the active function. The current value for broadcast bits is displayed in the B ﬁeld near the bottom of the text area of the display. Default Value: 00000000 Softkey Location: >...
Page 92: Base
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Press this softkey to make the hexadecimal 16-bit broadcast bits (B2) the active function. The current value for broadcast bits is displayed in the B2 ﬁeld near the bottom of the text area of the display. Default Value: 0000 Softkey Location: >...
Page 93: Begin Pattern
ESG Family Signal Generators Softkey Reference Options UN8 and 202 • Any combination of a PN15 data pattern and either external data or user’s ﬁles generates a discontinuous PN15 pattern, which consists of as many complete frames of PN15 data as can be generated. The remaining bits that do not completely ﬁll a frame are truncated.
Page 94: Beta
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Beta This softkey is activated automatically when the Kaiser windowing function is selected. The default Beta factor provides a good compromise for optimizing out of band performance (ACP) without seriously compromising passband performance (EVM). Changing the Beta factor adjusts the trade-off between ACP and EVM.
Page 95: Burst Shape
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Softkey Locations Custom: > > > > > Mode Custom Modulation Type Select BPSK Other Formats: > > > > desired format Mode TDMA Modify Standard > > > Modulation Type Select BPSK Loading a BPSK I/Q Map into the I/Q Table Editor...
Page 96: Bus
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Press this softkey to use the GPIB as the pattern trigger for a single output of an unframed data pattern or as the frame trigger for a single output of framed data. Once selected, you can trigger a single event at any time by sending a trigger command over GPIB (*TRG) or by asserting the GPIB GET (group execute trigger) line.
Page 97: C4Fm
ESG Family Signal Generators Softkey Reference Options UN8 and 202 C4FM This softkey appears in two different situations, to either select a modulation or load a default pattern into the FSK table editor. Selecting a C4FM FSK Modulation Press this softkey to select C4FM to modulate a continuous stream of the selected data pattern.
Page 98: Cdpd
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Press this softkey make the 8-bit color code (CC) the active function. The preset hexadecimal value (when normal preset is selected) for CC reﬂects the PDC format; the current value for CC is displayed in the CC ﬁeld near the bottom line of the text area of the display.
Page 99: Channel Number
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Channel Number Pressing this softkey makes channel numbers (the frame carrier frequency) the active function based on frequency channels deﬁned in the active format. The output frequency depends on both the channel band and channel number selections.
Page 100: Configure Custom
Softkey Reference ESG Family Signal Generators Options UN8 and 202 • E: shows the data selection (encryption bits) for this timeslot (PN9). softkey makes this value the active function. Other selections allowed include PN15, ﬁxed 4-bit patterns, ﬁxed patterns of ones and zeroes, user ﬁles, or external data.
Page 101: Configure Differential Encoding
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Softkey Location (DECT, EDGE, GSM, and PHS only): > > Mode TDMA > > > desired format Data Format Pattern Framed Conﬁgure Timeslots > > Timeslot Type Custom Conﬁgure Custom softkey also appears in DECT portable part, and Conﬁgure Custom PHS uplink Timeslot Type menus.
Page 102: Configure Dn Custom Cont
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Dn Custom Cont Pressing this softkey displays a menu of softkeys where you can select the data pattern for a continuous downlink custom timeslot. The following ﬁgure shows an example of the display graphics for a continuous downlink custom timeslot.
Page 103: Configure Dn Custom Disc
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Dn Custom Disc Pressing this softkey displays a menu of softkeys where you can select the data pattern for a discontinuous downlink custom timeslot. The following ﬁgure shows an example of the display for a discontinuous downlink custom timeslot.
Page 104: Configure Dn Normal Cont
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Dn Normal Cont Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as a downlink continuous normal timeslot. The display in the following ﬁgure shows each ﬁeld of the timeslot as it is deﬁned by the TETRA format.
Page 105: Configure Dn Normal Disc
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Dn Normal Disc Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as a downlink discontinuous normal timeslot. The following ﬁgure shows each ﬁeld of the timeslot as it is deﬁned by the TETRA format.
Page 106: Configure Dn Sync Cont
Softkey Reference ESG Family Signal Generators Options UN8 and 202 • G: guard time is an 8-bit ﬁeld. The grey text in this ﬁeld indicates that you cannot change its value. Softkey Location: > > > > Mode TDMA TETRA Data Format Pattern Framed >...
Page 107: Configure Dn Sync Disc
ESG Family Signal Generators Softkey Reference Options UN8 and 202 • Data: shows the data selection (PN9) for the 216-bit data ﬁeld. Other selections include PN15, ﬁxed 4-bit patterns, ﬁxed patterns of ones and zeroes, user ﬁles, or external data. •...
Page 108: Configure Down Custom
Softkey Reference ESG Family Signal Generators Options UN8 and 202 • STS: shows the contents (hexadecimal 30673A7067) of the 38-bit synchronization training sequence ﬁeld. The softkey makes this the active function. • B: shows the contents (hexadecimal 00000000) of the 30-bit broadcast bits ﬁeld.
Page 109: Configure Down Tch
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Down TCH In either the NADC or PDC format, pressing this softkey opens a menu of softkeys where you can conﬁgure a timeslot as a downlink trafﬁc channel. The following sections describe each ﬁeld of the timeslot as deﬁned by NADC and PDC formats.
Page 110 Softkey Reference ESG Family Signal Generators Options UN8 and 202 In the PDC Format • R: ramp time is a 4-bit ﬁeld. The grey text indicates that you cannot change the contents of this ﬁeld. • P: preamble is a 2-bit ﬁeld. The grey text indicates that you cannot change the contents of this ﬁeld.
Page 111: Configure Dummy
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Dummy Pressing this softkey opens a menu of softkeys where you can conﬁgure a dummy timeslot. The following ﬁgure shows an example of a dummy timeslot. • T: shows that both of the 3-bit tail ﬁelds always contain hexadecimal zero.
Page 112: Configure Dummy Bearer 1
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Dummy Bearer 1 Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as a dummy bearer 1 burst. The following ﬁgure shows an example of the display for a dummy bearer 1 timeslot. In this conﬁguration, the dummy bearer occupies the ﬁrst half of a full slot.
Page 113: Configure Dummy Bearer 2
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Dummy Bearer 2 Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as a dummy bearer 2 burst. The following ﬁgure shows an example of the display for a dummy bearer 2 timeslot. In this conﬁguration, the dummy bearer occupies the ﬁrst half of a full slot.
Page 114: Configure Fcorr
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure FCorr Pressing this softkey accesses a menu of softkeys for conﬁguring a frequency correction timeslot. The following ﬁgure shows an example of the display graphics for a frequency correction timeslot. The visual representation of the timeslot shows each ﬁeld of the frequency correction timeslot.
Page 115: Configure Frame
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Frame Pressing this softkey displays a menu of softkeys where you can control the entire selected frame. These frame-wide functions include scramble operating state, scramble seed data, secondary frame operating state, recalling and saving secondary frame states, and secondary frame state triggering options.
Page 116: Configure Low Capacity With Z Field
Softkey Reference ESG Family Signal Generators Options UN8 and 202 • S: shows the value (hexadecimal E98A) of the 16-bit synchronization word. The softkey makes this the active function. • A: shows the contents (hexadecimal 0000FFFF0000FFFF) of the A ﬁeld. The softkey makes this the active function.
Page 117: Configure Normal
ESG Family Signal Generators Softkey Reference Options UN8 and 202 • S: shows the value (hexadecimal E98A) of the 16-bit synchronization word. The softkey makes this the active function. • A: shows the contents (hexadecimal 0000FFFF0000FFFF) of the A ﬁeld. The softkey makes this the active function.
Page 118 Softkey Reference ESG Family Signal Generators Options UN8 and 202 In this example: • T1: shows the value (hexadecimal 1FF) for the 9-bit tail ﬁeld. You can edit this value by pressing the softkey. However, if the guard time symbols of the previous timeslot do not match the T1 symbols of the current timeslot, the burst shape may not be smooth (even if the previous timeslot is turned off).
Page 119 ESG Family Signal Generators Softkey Reference Options UN8 and 202 In the GSM Format The following ﬁgure shows an example of a normal timeslot as it is deﬁned by the GSM format. • T: shows the contents (hexadecimal zero) of the 3-bit tail ﬁeld. The text in this ﬁeld is grey, indicating that you cannot change the value for the tail bit ﬁeld.
Page 120: Configure Sync
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Sync In either the GSM or PHS format, pressing this softkey displays a menu of softkeys where you can conﬁgure a synchronization timeslot. In the GSM Format The following ﬁgure shows an example of a synchronization timeslot as it is deﬁned by the GSM format.
Page 121 ESG Family Signal Generators Softkey Reference Options UN8 and 202 Softkey Location: > > > > Mode TDMA Data Format Pattern Framed > > > Conﬁgure Timeslots Timeslot Type Sync Conﬁgure Sync In the PHS Format The following ﬁgure shows an example of a downlink synchronization burst timeslot as it is deﬁned by the PHS format.
Page 122: Configure Tch
Softkey Reference ESG Family Signal Generators Options UN8 and 202 • CRC: indicates that a cyclic redundancy check is performed on the channel identiﬁer (CI), the cell station identiﬁcation code (CSID), the personal station identiﬁcation code (PSID), and the idle bit ﬁelds (IDLE).
Page 123: Configure Timeslots
ESG Family Signal Generators Softkey Reference Options UN8 and 202 • CI: the channel identiﬁer is a 4-bit ﬁeld. The grey text indicates that you cannot change the contents of this ﬁeld. • SA: shows the contents (hexadecimal 8000) of the slow associated control channel.
Page 124: Configure Traffic Bearer
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Trafﬁc Bearer Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as a trafﬁc bearer. The following ﬁgure shows an example of a radio ﬁxed part trafﬁc bearer timeslot. The portable part trafﬁc bearer timeslot is identical except for the preset values.
Page 125: Configure Traffic Bearer With Z Field
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Trafﬁc Bearer with Z Field Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as a trafﬁc bearer with Z ﬁeld. The following ﬁgure shows an example of a radio ﬁxed part trafﬁc bearer with Z ﬁeld timeslot.
Page 126: Configure Up Control 1
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Up Control 1 Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as an uplink subslot 1 control timeslot. Up control 1 is half of a timeslot in length. Either subslot 1 or subslot 2 can be ﬁlled, but not both.
Page 127: Configure Up Control 2
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Up Control 2 Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as an uplink subslot 2 control timeslot. Up control 2 is half of a timeslot in length. Either subslot 1 or subslot 2 can be ﬁlled, but not both.
Page 128: Configure Up Custom
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Up Custom Pressing this softkey displays a menu of softkeys where you can select the data pattern for an uplink custom timeslot. The following ﬁgure shows an example of a custom timeslot in the NADC format. •...
Page 129: Configure Up Normal
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Conﬁgure Up Normal Pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as an uplink normal timeslot. The following ﬁgure shows an uplink normal timeslot as it is deﬁned by the TETRA format. •...
Page 130: Configure Up Tch
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Up TCH In either the NADC or the PDC format, pressing this softkey displays a menu of softkeys where you can conﬁgure a timeslot as an uplink trafﬁc channel. In the NADC Format The following ﬁgure shows an uplink trafﬁc channel timeslot as deﬁned by the NADC format.
Page 131 ESG Family Signal Generators Softkey Reference Options UN8 and 202 In the PDC Format The following ﬁgure shows an uplink trafﬁc channel timeslot as deﬁned by the PDC format. • R: ramp time is a 4-bit ﬁeld. The grey text indicates that you cannot change the content of this ﬁeld.
Page 132: Configure Up Vox
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Conﬁgure Up VOX Pressing this softkey displays a menu of softkeys where you can conﬁgure an uplink VOX trafﬁc channel. The following ﬁgure shows an uplink VOX timeslot as it is deﬁned by the PDC format. •...
Page 133: Control Channel Dnlink Uplink
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Control Channel Dnlink Uplink Press this softkey to toggle between conﬁguring uplink and downlink channels. To select downlink timeslots 1 through 4, choose downlink; to select uplink timeslots 1 through 4, choose uplink. Any changes made to timeslots effect the timeslots that are turned on.
Page 134: Custom
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Custom This softkey appears in two different situations, enabling you to either create a custom digital modulation, or create a custom timeslot type. Creating Custom Digital Modulation Pressing this softkey displays a menu of softkeys where you can create custom digital modulation.
Page 135: Custom Ts
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Custom TS Press this softkey to edit the selected training sequence code. The hexadecimal value for the training sequence will be displayed in the active entry area. Once modiﬁed, the new value will survive a power cycle, but at preset the default value will be restored.
Page 136: D8Psk
Softkey Reference ESG Family Signal Generators Options UN8 and 202 D8PSK This softkey appears in two different situations, enabling you to either select a modulation, or load a default I/Q map into the I/Q table editor. Selecting a D8PSK Modulation Press this softkey to select D8PSK (differential 8-state phase shift keying) for modulating a continuous stream of the selected data pattern.
Page 137 ESG Family Signal Generators Softkey Reference Options UN8 and 202 Default Values Custom: PN23 EDGE: PN9 Other Formats: PN23 Softkey Locations Custom: > > Mode Custom Data Other Formats: > > > Mode TDMA desired format Data For Framed Data Transmission Press this softkey to display a menu of choices for internal data generation (pseudorandom bit patterns, ﬁxed 4-bit repeating sequences, set patterns of ones and zeroes, standard-speciﬁc patterns) for framed...
Page 138: Data Format Pattern Framed
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Data Format Pattern Framed Press this softkey to toggle the data between pattern and framed mode. transmits a continuous stream of the selected data Data Format Pattern pattern (for information on selecting patterns, see “Data” on page 3-66). transmits a framed data pattern in the current Data Format Framed format.
Page 139: Data Clk Out
ESG Family Signal Generators Softkey Reference Options UN8 and 202 • Nxt Frame: indicates the next triggered frame. When secondary frame is on, after the primary frame triggers, this ﬁeld changes to Nxt Frame: Secondary. In this example this ﬁeld is grey, indicating that the secondary frame state is off.
Page 140: Data Out
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Data Out Press this key to access a menu from which you can modify the output at the DATA OUT rear panel BNC/SMB connector. Softkey Location: > > > Mode TDMA EDGE (Rev 8.3.0Release 1999) >...
Page 141: Define User Burst Shape
ESG Family Signal Generators Softkey Reference Options UN8 and 202 pattern of 1, 0, 1, 0... followed by 64 ones, 64 zeroes, and 64 bits: repetitive pattern of 1, 0, 1, 0... • FDEV2_FS - (frequency deviation, full slot) 128 bits: repetitive pattern of 1, 0, 1, 0...
Page 142: Define User Fsk
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Other Formats: > > > > desired format Mode TDMA Modify Standard > Filter Deﬁne User FIR Deﬁne User FSK Pressing this softkey displays the FSK table editor, where you can deﬁne custom asymmetric (or symmetric) FSK modulation patterns.
Page 143: Delete Bits
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Delete Bits Press this softkey to delete the speciﬁed number of bits from the currently highlighted position. is located in the Bit File Editor menus. Delete Bits Delete Row Press this softkey to delete the highlighted row in a table editor. is located in the table editor menus.
Page 144: Display Burst Shape
Softkey Reference ESG Family Signal Generators Options UN8 and 202 > > > > Mode Custom Modulation Type Deﬁne User FSK Differential Encoding Off On Other Formats: > > > > desired format Mode TDMA Modify Standard > > Modulation Type Deﬁne User I/Q Differential Encoding Off On >...
Page 145: Display Impulse Response
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Display Impulse Response Press this softkey to display a graphical representation of the ﬁlter impulse response in time. The following is an example of the impulse response of a Root Nyquist ﬁlter with an oversample ratio of 4. Softkey Locations Custom: >...
Page 146: Dm0
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Press this softkey to select a binary data pattern that consists of all zeroes. This internally-generated data pattern is available for framed transmissions only. When is selected, both the and the B ﬁeld softkeys show this selection, and DM0 appears in the B Dect Patterns...
Page 147: Dn Custom Disc
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Dn Custom Disc Press this softkey to select a downlink discontinuous custom timeslot type for the active timeslot, which is conﬁgured using an internally-generated data pattern, a downloaded sequence of bits stored in a user ﬁle, or by supplying external data.
Page 148: Dn Normal Disc
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Dn Normal Disc Press this softkey to select downlink discontinuous normal as the timeslot type for the active timeslot. You cannot mix downlink and uplink timeslots. If a timeslot is designated as uplink, it changes to downlink if any other timeslot is designated as downlink.
Page 149: Dn Sync Disc
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Dn Sync Disc Press this softkey to select downlink discontinuous synchronization as the timeslot type for the active timeslot. You cannot mix downlink and uplink timeslots. When a timeslot is designated as uplink, it changes to downlink if any other timeslot is designated as downlink.
Page 150: Downlink Mcs-1
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Downlink MCS-1 Press this softkey to select a downlink packet data trafﬁc channel with block type 5 that is in compliance with GSM 05.03. Softkey Location: > > > > Mode TDMA Data Format Pattern Framed...
Page 151: Down Tch All
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Down TCH All Press this softkey to select downlink trafﬁc channel (base station to mobile) as the timeslot type for all timeslots. When you select , the frame pattern is output with continuous RF power. Down TCH All Power is on during off timeslots (according to the standard) and a continuous pattern of binary ones is sent during off timeslots.
Page 152: E Field Data
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Pressing this softkey displays a menu of data generation choices for conﬁguring the EDGE or GSM timeslot encryption bit ﬁelds: • Internal data (PN9, PN15, ﬁxed, 4-bit repeating sequences, set patterns of ones and zeroes).
Page 153: E-Tch/F43.2
ESG Family Signal Generators Softkey Reference Options UN8 and 202 E-TCH/F43.2 This key selects an enhanced circuit switched full rate trafﬁc channel for 43.2 kbits/s user data per GSM 05.03. The length of the RLC data block for this channel is 640 bits. Softkey Location: >...
Page 154: Edit Fall Shape
Softkey Reference ESG Family Signal Generators Options UN8 and 202 menu: is set to is set to . You can I/Q Off On I/Q Source Int I/Q override these selections in the I/Q menu. Default Value: Off Softkey Location: > >...
Page 155: Edit Item
ESG Family Signal Generators Softkey Reference Options UN8 and 202 > > Edit File Copy File Editing Keys is also located under Editing Keys Rename Edit Item Press this softkey to select the highlighted value for editing in the current table editor. After you select the item this way, you can use the front panel RPG and arrow keys to edit the value.
Page 156: Ext
Softkey Reference ESG Family Signal Generators Options UN8 and 202 This softkey appears in several places: in the Data menu, in the Pattern Trigger menu, and in the Frame Trigger Menu. Pattern Repeat and Pattern Trigger functions are not available if you NOTE use either a PN data sequence, or an external data source.
Page 157: Ext Data Clock Normal Symbol
ESG Family Signal Generators Softkey Reference Options UN8 and 202 PDC: > > > > Mode TDMA Data > > > > Mode TDMA Data Format Pattern Framed > > > Conﬁgure Timeslots Conﬁgure Up TCH is also located in the Conﬁgure Up Custom menu, the Conﬁgure Down custom menu, and the TCH menu found in the Conﬁgure Down TCH menu.
Page 158: Ext Delay Bits
Softkey Reference ESG Family Signal Generators Options UN8 and 202 edges of the SYMBOL SYNC signal. Default Value: Normal Softkey Locations Custom: > > > Mode Custom Conﬁgure Hardware Ext Data Clock Normal Symbol Other Formats: > > > > desired format Mode TDMA...
Page 159: Ext Delay Off On
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Ext Delay Off On This softkey is inactive until the trigger selection is set to . Press this softkey to toggle the external trigger delay on and off. When this function is on, the transmission of the triggered data is delayed after the external trigger event by the number of bits speciﬁed using the softkey.
Page 160: Facc
Softkey Reference ESG Family Signal Generators Options UN8 and 202 FACC Press this softkey to select a binary data pattern (frequency accuracy) that consists of a repetitive pattern of 4 ones followed by 4 zeroes. This internally-generated data pattern is available for framed transmissions only.
Page 161: Fall Time
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Fall Time Press this softkey to make the burst shape fall time the active function. Range: depends on the modulation type and the symbol rate Default Values Custom: 5.470 NADC: 5.470 DECT: 11.529 PDC: 3.830 EDGE: 10.300...
Page 162: Fdev1_Fs
Softkey Reference ESG Family Signal Generators Options UN8 and 202 FDEV1_FS Press this softkey to select a binary data pattern (frequency deviation, full-slot) that consists of 128 bits: repetitive pattern of 1, 0, 1, 0... followed by 64 ones, 64 zeroes, and 64 bits: repetitive pattern of 1, 0, 1, 0...
Page 163: Filter Alpha
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Filter Press this softkey to access menus where you can: • Select a ﬁlter type • Restore the default ﬁlter • Deﬁne a unique FIR ﬁlter • Adjust ﬁlter alpha (for Nyquist or Root Nyquist ﬁlters) •...
Page 164: Filter Bbt
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Range: 0.000 through 1.00 Default Value: 0.350 Softkey Locations Custom: > > > > > Mode Custom Filter Deﬁne User FIR Load Default FIR ) > Root Nyquist Nyquist Filter Alpha Other Formats: >...
Page 165: Filter Factor N/A
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Softkey Locations Custom: > > > > > Mode Custom Filter Deﬁne User FIR Load Default FIR > Gaussian Filter BbT Other Formats: > > > Mode TDMA desired format Modify Standard >...
Page 166: Fix4
Softkey Reference ESG Family Signal Generators Options UN8 and 202 FIX4 Press this softkey to select a 4-bit repeating sequence data pattern and make it the active function. Enter the desired 4-bit pattern. When you select as a data pattern for modulated transmissions FIX4 that are not framed ( is set to...
Page 167 ESG Family Signal Generators Softkey Reference Options UN8 and 202 NADC: > > > > Mode TDMA NADC Data Format Pattern Framed > > > Conﬁgure Timeslots Conﬁgure Up TCH Data FIX4 is also located in the Conﬁgure Down Custom and Conﬁgure Up FIX4 Custom menus, and in the Data menu found in the Conﬁgure Down TCH menu.
Page 168: Frame Repeat Single Cont
Softkey Reference ESG Family Signal Generators Options UN8 and 202 • PN15 - A single frame is generated. The data ﬁelds are ﬁlled with the leading bits of the PN15 sequence. A trigger causes the frame to be transmitted. The data ﬁelds of this frame are then ﬁlled sequentially with the next series of PN15 data bits.
Page 169: Freq Channels
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Edge Menu This softkey enables the output signal of the EVENT 1 rear panel BNC/SMB connector. The frame trigger signal is one clock pulse at every ﬁrst cycle of a frame to indicate the beginning of a frame. Softkey Location: >...
Page 170: Fsk
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Default Values DECT: 288 kHz Other Formats: 400.00 Hz Softkey Locations Custom: > > > > > Mode Custom Modulation Type Select Freq Dev Other Formats: > > > > desired format Mode TDMA...
Page 171: Gated
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Press this softkey to change the hexadecimal value for the guard time ﬁeld. Guard time appears in the visual representation of the timeslot as a 24.75-bit ﬁeld. In the actual implementation, the guard time ﬁeld in timeslots 0 and 4 are 27 bits long and the remaining timeslots contain 24-bit ﬁelds.
Page 172: Gated Clock
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Gated Clock Use this softkey to select a gated clock signal for the output at the rear panel DATA CLK OUT port. The gated clock has the same clock rate as the bit clock, however it is only active with E-ﬁeld data.
Page 173: Globally Replace Selected Item
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Globally Replace Selected Item Press this softkey, found in the Deﬁne User I/Q menu, to globally replace the selected value throughout the data table. For instance, if you have deﬁned a Q Value of -1, and wish to change it to +1, highlight the -1 value and select Globally Replace Selected Item.
Page 174: Gray Coded Qpsk
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Gray Coded QPSK This softkey appears in two different situations, enabling you to either select a modulation, or load an I/Q map into the I/Q table editor. Selecting a Gray Coded QPSK Modulation Press this softkey to select Gray Coded QPSK (quadrature phase shift keying) to modulate a continuous stream of the selected data pattern.
Page 175: Gsm 450 Mobile
ESG Family Signal Generators Softkey Reference Options UN8 and 202 GSM 450 Mobile This key selects GSM 450 Mobile as the frequency band for GSM or EDGE. GSM 450 Mobile contains channels from 259 to 293. Softkey Location: > > >...
Page 176: Gsm 850 Mobile
Softkey Reference ESG Family Signal Generators Options UN8 and 202 GSM 850 Mobile This key selects GSM 850 Mobile as the frequency band for GSM or EDGE. GSM 850 Mobile contains channels from 128 to 251. Softkey Location: > > >...
Page 177: Hamming
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Hamming Press this softkey to apply the Hamming windowing function to the selected ﬁlter. Windowing can be applied to any default FIR ﬁlter that you load into the Deﬁne User FIR table. Windowing improves out of band performance (ACP), but simultaneously degrades passband performance (EVM), by smoothing the ﬁlter’s transition to zero.
Page 178: Idle
Softkey Reference ESG Family Signal Generators Options UN8 and 202 IDLE Press this softkey to make the 34-bit idle message (IDLE) the active function. The preset hexadecimal value (when normal preset is selected) for IDLE reﬂects the PHS format. The current value for IDLE is displayed in the IDLE ﬁeld near the bottom of the text area of the display.
Page 179: I/Q Scaling
ESG Family Signal Generators Softkey Reference Options UN8 and 202 I/Q Scaling Use this softkey to adjust the amplitude of the I/Q outputs (for better ACP). This adjustment is not available if you are using MSK or FSK modulation. Range: 1 through 10000% Default Value Custom: 70% TETRA: 65%...
Page 180: Is-95 W/Eq
Softkey Reference ESG Family Signal Generators Options UN8 and 202 IS-95 w/EQ This key selects the standard IS-95 ﬁlter with the equalizer for phase compensation required by a base station. Softkey Locations Custom: > > > > > Mode Custom Filter Select IS-95 and IS-2000...
Page 181: Is95 Qpsk
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Loading an OIS95 OQPSK I/Q Map into the Table Editor Press this softkey to load an IS95 OQPSK (offset quadrature phase shift keying) I/Q map into the I/Q table editor. For details on editing I/Q maps, see “Mapping Symbol Positions with the I/Q Table Editor”...
Page 182: Kaiser
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Kaiser Press this softkey to apply the Kaiser windowing function to the selected ﬁlter. Windowing can be applied to any default FIR ﬁlter that you load into the Deﬁne User FIR table. Windowing improves out of band performance (ACP), but simultaneously degrades passband performance (EVM), by smoothing the ﬁlter’s transition to zero.
Page 183: Load Default Fir
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Load Default FIR Press this softkey to access a menu for automatically ﬁlling the FIR table editor with coefﬁcient values from pre-deﬁned ﬁlters such as Root Nyquist, Nyquist, Gaussian and Rectangle. The default ﬁlter parameters can also be selected in this menu allowing you to choose the ﬁlter alpha or BbT and the number of ﬁlter symbols.
Page 184: Load Mirror Image Of Fall Shape
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Load Mirror Image of Fall Shape When editing a burst shape, press this softkey to load the Rise Shape Editor with a mirror image of the Fall Shape Editor. Note that this softkey is available when the Rise Shape Editor is the active function;...
Page 185: Low Capacity
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Low Capacity Press this softkey to select low capacity as the timeslot type for the active timeslot; the visual representation of the timeslot type on the display updates to show the conﬁguration. Softkey Location: >...
Page 186: Manual Reset & Run
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Manual Reset & Run Press this softkey to select Manual Reset & Run External Frame Trigger mode. In Manual Reset & Run External Frame Trigger mode, the pattern is reset immediately (without running to the end) and restarts and runs repeatedly until next trigger transition to active.
Page 187: Modulation Type
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Modulation Type Pressing this softkey accesses a menu that enables you to customize the current modulation type. You can deﬁne the modulation format, build a symbol mapping, or change the symbol table offset. Default Values Custom, PDC, PHS, NADC, and TETRA: π/4 DQPSK DECT: 2-Lvl FSK...
Page 188: Multiframe Channel
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Multiframe Channel Press this softkey to display a menu of softkeys used to conﬁgure the data ﬁeld (E) with a multiframe pseudorandom bit pattern. Softkey Location: > > > Mode TDMA desired format >...
Page 189: Nadc
ESG Family Signal Generators Softkey Reference Options UN8 and 202 NADC Pressing this softkey displays a menu of softkeys where you can generate a data pattern formatted into either a framed structure (where the data bits are located in ﬁelds deﬁned by the NADC protocol), or a sequence that can be output one or more times.
Page 190: Normal
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Normal Press this softkey to select normal as the timeslot type for the active timeslot for both EDGE or GSM. When you select for a timeslot, the visual representation of the Normal timeslot pattern updates.
Page 191 ESG Family Signal Generators Softkey Reference Options UN8 and 202 In the Load Default FIR Menu In this menu, pressing the softkey followed by loads Nyquist Generate the FIR table editor with the coefﬁcient values for the ﬁlter. The ﬁlter alpha and number of ﬁlter symbols are deﬁned with the softkeys in this menu.
Page 192: Offset Q Off On
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Offset Q Off On Press this softkey to change the operational state of the user I/Q offset Q, which deﬁnes whether the Q output is delayed by 1/2 symbol from the I output. Default Value: Off Softkey Locations Custom:...
Page 193: Oqpsk
ESG Family Signal Generators Softkey Reference Options UN8 and 202 OQPSK This softkey appears in two different situations, enabling you to either select a modulation, or load an I/Q map into the I/Q table editor. Selecting an OQPSK Modulation Press this softkey to select OQPSK (offset quadrature phase shift keying) for modulating a continuous stream of the selected data pattern.
Page 194: Other Patterns
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Other Patterns Pressing this softkey displays a menu of data pattern selections; each is a pattern of equal quantities of ones and zeroes. The selected pattern appears in the softkey and in the softkey.
Page 195: Oversample Ratio
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Oversample Ratio Press this softkey to specify the oversample ratio for a user-deﬁned FIR ﬁlter. Range Acceptable values range from 1 to 32. When the ﬁlter is selected for use, the signal generator may resample the ﬁlter with an OSR between 4 and 16, based on the number of symbols, the symbol rate, and the number of bits per symbol of the modulation type.
Page 196: Page Down
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Page Down Pressing this softkey displays the next page of entries. Page Down located in the table editor menus and in the catalogs of ﬁles. Page Up Pressing this softkey displays the previous page of entries. Page Up located in the table editor menus and in the catalogs of ﬁles.
Page 197: Pcs Base
ESG Family Signal Generators Softkey Reference Options UN8 and 202 PCS Base Pressing this softkey selects PCS 1900 Base as the channel band for EDGE or GSM. PCS 1900 Base contains channels 512 through 810. Softkey Location: > > > >...
Page 198: Phs
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Pressing this softkey displays a menu of softkeys where you can generate a data pattern formatted into either a framed structure (where the data bits are located in ﬁelds deﬁned by the PHS protocol) or a sequence that can be output one or more times.
Page 199: Pn9
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Press this softkey to select an internally-generated PN9 pseudorandom bit pattern. For unframed transmissions, PN9 appears in the Data ﬁeld in the top line of the text area of the display. For framed timeslot data ﬁelds, PN9 appears in the Data ﬁeld or the B ﬁeld, both of which are located near the bottom of the text area of the display.
Page 200: Pn11
Softkey Reference ESG Family Signal Generators Options UN8 and 202 PHS: > > > > Mode TDMA Data Format Pattern Framed > > > > Conﬁgure Timeslots Conﬁgure TCH PN Sequence is also located in the Data menu found in the uplink Conﬁgure TCH menu, and in the downlink and uplink Conﬁgure Custom menus.
Page 201: Pn15
ESG Family Signal Generators Softkey Reference Options UN8 and 202 NADC: > > > > Mode TDMA NADC Data Format Pattern Framed > > > > Conﬁgure Timeslots Conﬁgure Up TCH Data PN Sequence PN11 is also located in the Conﬁgure Down Custom and Conﬁgure PN11 Up Custom menus, and in the Data menu found in the Conﬁgure Down TCH menu.
Page 202 Softkey Reference ESG Family Signal Generators Options UN8 and 202 Softkey Locations Custom: > > > > Mode Custom Data PN Sequence PN15 Other Formats: > > > > > desired format Mode TDMA Data PN Sequence PN15 DECT: > >...
Page 203: Pn20
ESG Family Signal Generators Softkey Reference Options UN8 and 202 PN20 Press this softkey to select an internally-generated PN20 pseudorandom bit pattern. For unframed transmissions, PN20 appears in the Data ﬁeld in the top line of the text area of the display. For framed timeslot data ﬁelds, PN20 appears in the Data ﬁeld or the B ﬁeld, both of which are located near the bottom of the text area of the display.
Page 204: Pn23
Softkey Reference ESG Family Signal Generators Options UN8 and 202 PHS: > > > > Mode TDMA Data Format Pattern Framed > > > > Conﬁgure Timeslots Conﬁgure TCH PN Sequence PN20 is also located in the Data menu found in the uplink Conﬁgure PN20 TCH menu, and in the downlink and uplink Conﬁgure Custom menus.
Page 205: Pn Sequence
ESG Family Signal Generators Softkey Reference Options UN8 and 202 is also located in the Conﬁgure Down Custom and Conﬁgure PN23 Up Custom menus, and in the Data menu found in the Conﬁgure Down TCH menu. PDC: > > > >...
Page 206: Predefined Mode
Softkey Reference ESG Family Signal Generators Options UN8 and 202 is also located in the Conﬁgure Custom menu, and in PN Sequence the E menus found in the Conﬁgure Sync and Conﬁgure Access menus. NADC: > > > > Mode TDMA NADC Data Format Pattern Framed...
Page 207: Psk
ESG Family Signal Generators Softkey Reference Options UN8 and 202 This softkey appears in two different situations, enabling you to either select a modulation, or load an I/Q map into the I/Q table editor. Selecting a PSK Modulation Pressing this softkey displays a menu of PSK (phase shift keying) modulation types to modulate a continuous stream of the selected data pattern.
Page 208: Qam
Softkey Reference ESG Family Signal Generators Options UN8 and 202 This softkey appears in two different situations, enabling you to either select a modulation, or load a default I/Q map into the I/Q table editor. Selecting a QAM Modulation Pressing this softkey displays a menu of QAM (quadrature amplitude modulation) modulation types to modulate a continuous stream of the selected data pattern.
Page 209: Qpsk
ESG Family Signal Generators Softkey Reference Options UN8 and 202 QPSK This softkey appears in two different situations, enabling you to either select a modulation, or load a default I/Q map into the I/Q table editor (see “Loading a QPSK I/Q Map into the I/Q Table Editor,” on the next page).
Page 210: Qpsk And Oqpsk
Softkey Reference ESG Family Signal Generators Options UN8 and 202 QPSK and OQPSK This softkey appears in two different situations, enabling you to either select a modulation, or load a default I/Q map into the I/Q table editor. Selecting a QPSK and OQPSK Modulation Pressing this softkey displays a menu of QPSK (quadrature phase shift keying) and OQPSK (offset quadrature phase shift keying) modulation types to modulate a continuous stream of the selected data pattern.
Page 211: Rate Full Half
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Rate Full Half Press this softkey to toggle between NADC full- or half-rate. When you select full-rate, timeslots 1, 2, and 3 are paired with timeslots 4, 5, and 6, respectively. Select half-rate for 6 individual timeslots. Notice that your selection, either full-rate or half-rate, is shown on the display directly above the timeslot pattern visual representation.
Page 212: Rename
Softkey Reference ESG Family Signal Generators Options UN8 and 202 In the Load Default FIR Menu In this menu, pressing the softkey followed by loads Rectangle Generate the FIR table editor with the coefﬁcient values for the ﬁlter. The number of ﬁlter symbols are deﬁned in this menu. If you change a parameter after loading the ﬁlter coefﬁcients, press the Generate softkey again to reload the FIR table.
Page 213: Restore Default Burst Shape
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Restore Default Burst Shape Press this softkey to reset the burst parameters to their default values. You can also use other keys in this menu to change each of the burst characteristics individually.
Page 214: Restore Default Modulation Type
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Softkey Locations Custom: > > > Mode Custom Filter Restore Default Filter Other Formats: > > > > desired format Mode TDMA Modify Standard > Filter Restore Default Filter Restore Default Modulation Type Press this softkey to restore the default modulation type for the format currently selected.
Page 215: Restore Edge Factory Default
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Restore EDGE Factory Default Press this softkey to reset EDGE conﬁguration to the factory default values. Softkey Location: > > > Mode TDMA EDGE (Rev 8.3.0 Release 1999) Restore EDGE Factory Default Restore GSM Factory Default Press this softkey to reset GMS conﬁguration to the factory default values.
Page 216: R-Gsm Mobile
Softkey Reference ESG Family Signal Generators Options UN8 and 202 R-GSM Mobile Pressing this softkey selects R-GSM 900 Mobile as the channel band for EDGE and GSM. R-GSM 900 Mobile contains channels 0 through 124 and 955 through 1023. Softkey Location: >...
Page 217: Root Nyquist
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Root Nyquist Press this softkey to select the Root Nyquist (root-raised cosine) pre-modulation ﬁlter in either the Select (ﬁlter) menu or the Load Default FIR menu. • “Display FFT” on page 3 -74 See Also •...
Page 218 Softkey Reference ESG Family Signal Generators Options UN8 and 202 DECT Format Press this softkey to make the 16-bit synchronization word (S) the active function. The preset hexadecimal value (when normal preset is selected) for synchronization reﬂects the DECT format. The current value for S appears in the S ﬁeld near the bottom of the text area of the display.
Page 219: Sacch
ESG Family Signal Generators Softkey Reference Options UN8 and 202 SACCH Press this softkey to make the 12-bit slow associated control channel (SACCH) the active function. The preset hexadecimal value (when normal preset is selected) for SACCH reﬂects the NADC or PDC format, displayed in the SACCH ﬁeld near the bottom of the text area of the display.
Page 220: Scramble Seed
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Scramble Seed Press this softkey to make scramble seed the active function. Scramble seed speciﬁes the scramble starting point in the PRBS generator. Enter values in hexadecimal. In the TETRA format, the 32-bit scramble seed comprises four ﬁelds. The two least signiﬁcant bits are deﬁned by the TETRA format as 1 (but you must input them anyway).
Page 221: Secondary Frame Trigger
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Secondary Frame Trigger Pressing this softkey displays a menu of choices for triggering the use of either the primary frame or the secondary frame (whichever is not being currently used). You can choose to trigger using the front panel key, an external trigger supplied to the PATTERN TRIG IN Trigger connector, or by either a *TRG command or GET (group execute trigger)
Page 222: Select File
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Selecting a Modulation In the Modulation Type menu, press this softkey to accesses a menu for deﬁning the modulation types. In addition to the pre-deﬁned modulations, you can access a catalog of FSK or I/Q ﬁles stored in the signal generator memory, where you can select a modulation that you have created and stored in either the Deﬁne User FSK or Deﬁne User I/Q menu.
Page 223 ESG Family Signal Generators Softkey Reference Options UN8 and 202 Press this softkey to make the 41-bit synchronization sequence in the access burst timeslot the active function. The preset hexadecimal value (when normal preset is selected) for SS reﬂects the GSM format, and appears in the SS ﬁeld near the bottom of the text area of the display.
Page 224: Ssb
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Press this softkey to make the 120-bit synchronization block bits (SSB) the active function. The current hexadecimal value for synchronization block bits is displayed in the SSB ﬁeld near the bottom of the text area of the display.
Page 225: Symbol Rate
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Press this softkey to make the 20-bit frame synchronization word the active function. The preset hexadecimal value (when normal preset is selected) for SW reﬂects the PDC format, and appears in the SW ﬁeld near the bottom of the text area of the display.
Page 226: Sync
Softkey Reference ESG Family Signal Generators Options UN8 and 202 SYNC In the NADC Format Press this softkey to make the 28-bit synchronization word the active function. The current value appears in the SYNC ﬁeld near the bottom to the text area of the display. Default Value: A91DE4A Softkey Location: >...
Page 227: Sync Out Offset
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Sync Out Offset Press this softkey to make synchronization offset the active function. Range Custom: As large as the number of bits in the timeslot selected in the Sync Out menu DECT: −479 through +479 bits EDGE and GSM: −155 through +155 bits NADC, PDC: −323 through +323 bits...
Page 228: T1, T2
Softkey Reference ESG Family Signal Generators Options UN8 and 202 T1, T2 Press these softkeys to edit the 9-bit tail ﬁelds in the normal burst timeslot. Use hexadecimal to enter the value; the signal generator will convert it to binary. Range: 0 through 1FF Default Value: 1FF Softkey Location:...
Page 229: Tch All
ESG Family Signal Generators Softkey Reference Options UN8 and 202 TCH All Press this softkey to select trafﬁc channel as the timeslot type for all timeslots in either the uplink or the downlink channel, depending on which is active. When you select , the visual representation of the timeslot Up TCH All pattern on the display immediately updates.
Page 230: Tetra Off On
Softkey Reference ESG Family Signal Generators Options UN8 and 202 TETRA Off On Press this softkey to toggle the TETRA communications format. Setting sets up the internal hardware to generate the TETRA Off On structure that follows the TETRA format. The internal I/Q modulator generates π/4DQPSK digital modulation, and the TETRA and I/Q annunciators appear in the display.
Page 231: Timeslot Off On
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Timeslot Off On Press this softkey to toggle the active timeslot on and off. The visual representation of the timeslot pattern reﬂects the timeslot status in the active channel. Default Values DECT, EDGE, GSM, and PDC: On (timeslot 0) NADC and PHS: On (timeslot 1) TETRA: On (timeslot 1), Off (timeslots 2 through 4)
Page 232: Traffic Bearer
Softkey Reference ESG Family Signal Generators Options UN8 and 202 PDC: > > > > Mode TDMA Data Format Pattern Framed > Conﬁgure Timeslots Timeslot Type PHS: > > > > Mode TDMA Data Format Pattern Framed > Conﬁgure Timeslots Timeslot Type >...
Page 233: Trigger In Polarity Neg Pos
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Trigger In Polarity Neg Pos Used this softkey to choose the polarity of the signal at the TRIGGER IN BNC connector that triggers an event. refers to the rising edge refers to the falling edge.
Page 234 Softkey Reference ESG Family Signal Generators Options UN8 and 202 Press this softkey to make the training sequence (TS) the active function. The preset hexadecimal value (when normal preset is selected) for TS reﬂects the current format, and appears in the TS ﬁeld near the bottom of the text area of the display.
Page 235: Tsc0 - Tsc7
ESG Family Signal Generators Softkey Reference Options UN8 and 202 TSC0 - TSC7 Press these softkeys to select a training sequence code for EDGE or GSM. The hexadecimal values for each training sequence code are shown in the following table. You can edit any of these values with the softkey.
Page 236: Un3/4 Gsm Gaussian
Softkey Reference ESG Family Signal Generators Options UN8 and 202 UN3/4 GSM This key selects a UN3/4 delay compatible, GSM, Gaussian ﬁlter with a 0.300 ﬁxed BbT. Gaussian Softkey Locations Custom: > > > > Mode Custom Filter Select UN3/4 GSM Gaussian Other Formats: >...
Page 237: Up Control 2
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Up Control 2 Press this softkey to select uplink control subslot 2 as the timeslot type for the active timeslot. You cannot mix uplink and downlink timeslots. If a timeslot is designated as downlink, it changes to uplink if you designate any other timeslot as uplink.
Page 238 Softkey Reference ESG Family Signal Generators Options UN8 and 202 Uplink MCS-1 Press this softkey to select an uplink packet data trafﬁc channel with block type 5 that is in compliance with GSM 05.03. Softkey Location: > > > > Mode TDMA Data Format Pattern Framed...
Page 239: Up Normal
ESG Family Signal Generators Softkey Reference Options UN8 and 202 Up Normal Press this softkey to select uplink normal as the timeslot type for the active timeslot. You cannot mix uplink and downlink timeslots. If a timeslot is designated as downlink, it changes to uplink if you designate any other timeslot as uplink.
Page 240: Up Vox
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Up VOX Press this softkey to select uplink voice activated transmission channel as the timeslot type for the active timeslot. When you select for a timeslot, the visual representation of the Up VOX timeslot pattern updates.
Page 241 ESG Family Signal Generators Softkey Reference Options UN8 and 202 Softkey Locations Custom: > > > Mode Custom Data User File Other Formats: > > > > desired format Mode TDMA Data User File Custom: > > > > Mode Custom Burst Shape Burst Shape Type...
Page 242: User Fir
Softkey Reference ESG Family Signal Generators Options UN8 and 202 User FIR Press this softkey to display the catalog of FIR ﬁlter ﬁles stored in the signal generator’s memory. You can select a custom ﬁlter from this catalog for a pre-modulation ﬁlter. Scroll through the listed ﬁles, highlight the desired ﬁle, then press the softkey.
Page 243 ESG Family Signal Generators Softkey Reference Options UN8 and 202 Press this softkey make the unique word (UW) the active function. The preset hexadecimal value (when normal preset is selected) for UW reﬂects the PHS format, and the current value for UW is displayed in the UW ﬁeld near the bottom of the text area of the display.
Page 244: Window
Softkey Reference ESG Family Signal Generators Options UN8 and 202 Window Pressing this softkey accesses a menu for applying a windowing function to the selected ﬁlter. The default is to use no windowing which optimizes the passband response (EVM). Several windowing selections are provided in this menu which can be applied to smooth the ﬁlter’s transition to zero.
Page 245: Programming Commands And Examples Programming Commands
ESG Family Signal Generators Options UN8 and 202 Programming Commands and Examples This chapter describes Options UN8 and 202 SCPI commands and provides programming examples. Descriptions of commands include syntax requirements, ranges, restrictions, query responses, and status at *RST. When <desired format> is shown in a menu path, it means to choose the appropriate softkey for the communication standard that is being used.
Page 246: A Field
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Programming Commands The following commands are listed in alphabetical order by subject. A Field DECT - Portable Part Low Capacity Timeslot [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity: A <64-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity:A? This command enables you to customize the A ﬁeld for the selected low capacity timeslot in the portable part link.
Page 247 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Portable Part Trafﬁc Bearer with Z Field Timeslot [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic: A <64-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic:A? This command enables you to customize the A ﬁeld for the selected trafﬁc bearer with Z ﬁeld timeslot in the portable part link.
Page 248: B Field
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 DECT - Radio Fixed Part Trafﬁc Bearer Timeslot [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic: A <64-bit value> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:A? This command enables you to customize the A ﬁeld for the selected trafﬁc bearer timeslot in the radio ﬁxed part link.
Page 249 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Portable Part Low Capacity with Z Field Timeslot [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11: ZLCapacity[:B] PN9|PN15|FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS|FDEV2_FS| FACCuracy| DM1|DM0|P4|P8|P16|P32|P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? This command sets a data pattern for the B ﬁeld of the selected portable part low capacity with Z ﬁeld timeslot.
Page 250 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 DECT - Portable Part Trafﬁc Bearer with Z Field Timeslot [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10| 11:ZTRaffic[:B] PN9|PN15|FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS| FDEV2_FS|FACCuracy|DM1| DM0|P4|P8|P16|P32|P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? This command sets the B ﬁeld data pattern for the selected trafﬁc bearer with Z ﬁeld timeslot in the portable part link.
Page 251 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Radio Fixed Part Low Capacity with Z Field Timeslot [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10| 11:ZLCapacity[:B] PN9|PN15|FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS| FDEV2_FS|FACCuracy| DM1|DM0|P4|P8|P16|P32|P64 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B]? This command enables you to set the B ﬁeld’s data pattern for the selected low capacity with Z ﬁeld timeslot in the radio ﬁxed part during framed data transmission.
Page 252: Broadcast Bit Field
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 DECT - Radio Fixed Part Trafﬁc Bearer with Z Field Timeslot [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10| 11:ZTRaffic[:B] PN9|PN15|FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS| FDEV2_FS|FACCuracy|DM1| DM0|P4|P8|P16|P32|P64 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? This command enables you to set the B ﬁeld’s data pattern for the selected trafﬁc bearer with Z ﬁeld timeslot in the radio ﬁxed part during framed data transmission.
Page 253: Burst Configuration - State, Type, Rise/Fall Time, Rise/Fall Delay, Pn9 Mode
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Burst Conﬁguration - State, Type, Rise/Fall Time, Rise/Fall Delay, PN9 Mode Burst State [:SOURce]:RADio:<desired format>:BURSt[:STATe] ON|OFF|1|0 [:SOURce]:RADio:<desired format>:BURSt[:STATe]? This command enables and disables the burst function. The choices are On (1) or Off (0). Activating the burst transmits framed data.
Page 254 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Burst Shape Files, Creating :MEMory:DATA:SHAPe "<file name>",num_rise_points,rp0, rp1,...num_fall_points,fp0,fp1,... This command creates a new burst shape ﬁle with the following components: "<file name>" Identiﬁes the name of the burst shape ﬁle. num_rise_points Speciﬁes how many rise points will follow.
Page 255 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Burst Fall Time [:SOURce]:RADio:CUSTom:BURSt:SHAPe:FALL:TIME <value> [:SOURce]:RADio:CUSTom:BURSt:SHAPe:FALL:TIME? [:SOURce]:RADio:CUSTom:BURSt:SHAPe:FTIMe <value> [:SOURce]:RADio:CUSTom:BURSt:SHAPe:FTIMe? [:SOURce]:RADio:<desired format>:BURSt:SHAPe:FALL:TIME <value> [:SOURce]:RADio:<desired format>:BURSt:SHAPe:FALL:TIME? [:SOURce]:RADio:<desired format>:BURSt:SHAPe:FTIMe <value> [:SOURce]:RADio:<desired format>:BURSt:SHAPe:FTIMe? This command sets the burst shape fall time. Range: minimum and maximum values depend upon modulation type and symbol rate.
Page 256: Cell Station Identification Code (Csid) Field
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Burst Rise Time [:SOURce]:RADio:CUSTom:BURSt:SHAPe:RISE:TIME <value> [:SOURce]:RADio:CUSTom:BURSt:SHAPe:RISE:TIME? [:SOURce]:RADio:CUSTom:BURSt:SHAPe:RTIMe <value> [:SOURce]:RADio:CUSTom:BURSt:SHAPe:RTIMe? [:SOURce]:RADio:<desired format>:BURSt:SHAPe:RISE:TIME <value> [:SOURce]:RADio:<desired format>:BURSt:SHAPe:RISE:TIME? [:SOURce]:RADio:<desired format>:BURSt:SHAPe:RTIMe <value> [:SOURce]:RADio:<desired format>:BURSt:SHAPe:RTIMe? This command sets the burst shape rise time. Range: minimum and maximum values depend upon modulation type and symbol rate.
Page 257: Coded Digital Channel Locator (Cdl) Field
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Coded Digital Channel Locator (CDL) Field [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel: CDLocator <11-bit pattern> [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:CDLocator? This command enables you to change the 11-bit coded digital control channel locator (CDL) ﬁeld. The preset hexadecimal value (when normal preset is selected) for CDL reﬂects the NADC protocol, however you can enter a new value by using this command.
Page 258: Data Clock Input Configuration
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Data Clock Input Conﬁguration [:SOURce]:RADio:CUSTom:BBCLock INT[1]|EXT[1] [:SOURce]:RADio:CUSTom:BBCLock? [:SOURce]:RADio:<desired format>:BBCLock INT[1]|EXT[1] [:SOURce]:RADio:<desired format>:BBCLock? This command sets the data (bit) clock input to the baseband generator board to either Internal or External.
Page 259 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Radio Fixed Part Custom Timeslot [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10| 11:CUSTom PN9|PN15|FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS|FDEV2_FS| FACCuracy|DM1|DM0|P4|P8|P16|P32|P64 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? This command enables you to set the data pattern for the data ﬁeld of the selected custom timeslot in the radio ﬁxed part link.
Page 260 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 EDGE - Normal Timeslot Encryption Data Field [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption PN9|PN15| FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64|DMCS9|UMCS9|DMCS5| UMCS5|ETCHF43|UNCoded [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? This command enables you to conﬁgure the encryption data ﬁeld for the selected normal timeslot.
Page 261 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands EDGE-Uplink Normal Timeslot Encryption Data Field [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS5: DATA {PN9}|PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS5: DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS9: DATA {PN9}|PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS9: DATA? This command enables you to create and conﬁgure an uplink encrypted data ﬁeld for a normal timeslot.
Page 262 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Thirty-two 1’s and thirty-two 0’s Sixty-four 1’s and sixty-four 0’s *RST value: PN9 GSM - Normal Timeslot Encryption Data Field [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption PN9|PN15|FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64|MPN9|MPN15 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? This command enables you to create and conﬁgure an encrypted data ﬁeld for a normal timeslot.
Page 263 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands GSM - Uplink Normal Timeslot Encryption Data Field [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS1: DATA {PN9}|PN15 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS1: DATA? This command enables you to create and conﬁgure an uplink block type 5 encrypted data ﬁeld for a normal timeslot.
Page 264 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 NADC - Downlink Trafﬁc Channel Timeslot [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] PN9|PN15|FIX4| "<file name>" |EXT|P4|P8|P32|P64 [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? This command sets a data pattern for the selected downlink trafﬁc channel timeslot during framed transmission.
Page 265 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands NADC - Uplink Trafﬁc Channel Timeslot [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] PN9|PN15|FIX4| "<file name>" |EXT|P4|P8|P32|P64 [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]? This command sets a data pattern for the selected uplink trafﬁc channel timeslot during framed transmission.
Page 266 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 PDC - Downlink Trafﬁc Channel Timeslot [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel] PN9|PN15| FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]? This command sets a data pattern for the selected downlink trafﬁc channel ﬁeld. The choices are timeslots 0 through 5 and PN9 (pseudorandom bit pattern), PN15 (pseudorandom bit pattern), FIX4 (4-bit repeating sequence data pattern), "<ﬁle name>"...
Page 267 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands PDC - Uplink Trafﬁc Channel Timeslot [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel] PN9|PN15| FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel]? This command sets a data pattern for the uplink trafﬁc channel ﬁeld. The choices are timeslots 0 through 5 and PN9 (pseudorandom bit pattern), PN15 (pseudorandom bit pattern), FIX4 (4-bit repeating sequence data pattern), "<ﬁle name>"...
Page 268 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 PHS - Downlink Trafﬁc Channel Timeslot [SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:TCHannel[:TCHannel]? This command enables you to customize the selected downlink trafﬁc channel timeslot. The choices are timeslots 1 through 4 and PN9 (pseudorandom bit pattern), PN15 (pseudorandom bit pattern), FIX4 (4-bit repeating sequence data pattern), "<ﬁle name>"...
Page 269 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands PHS - Uplink Trafﬁc Channel Timeslot [SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:TCHannel[:TCHannel]? This command enables you to select the data pattern for the selected uplink trafﬁc channel timeslot.
Page 270 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 TETRA - Downlink Continuous Synchronization Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? This command enables you to conﬁgure the selected downlink continuous synchronization timeslot data ﬁeld. The choices are timeslots 1 through 4 and PN9 (pseudorandom bit pattern), PN15 (pseudorandom bit pattern), FIX4 (4-bit repeating sequence data pattern), "<ﬁle name>"...
Page 271 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands TETRA - Downlink Discontinuous Synchronization Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? This command enables you to conﬁgure the selected downlink discontinuous synchronization timeslot data ﬁeld. The choices are timeslots 1 through 4 and PN9 (pseudorandom bit pattern), PN15 (pseudorandom bit pattern), FIX4 (4-bit repeating sequence data pattern), "<ﬁle name>"...
Page 272 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 TETRA - Uplink Custom Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUSTom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUSTom? This command enables you to conﬁgure the uplink custom data ﬁeld. The choices are timeslots 1 through 4 and PN9 (pseudorandom bit pattern), PN15 (pseudorandom bit pattern), FIX4 (4-bit repeating sequence data pattern), "<ﬁle name>"...
Page 273: Data Selection For Unframed Transmissions
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Data Selection for Unframed Transmissions Custom [:SOURce]:RADio:CUSTom:DATA PN9|PN11|PN15|PN20|PN23|FIX4|"<file name>"| EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:CUSTom:DATA? DECT [:SOURce]:RADio:DECT:DATA PN9|PN11|PN15|PN20|PN23|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:DECT:DATA? EDGE [:SOURce]:RADio:EDGE:DATA PN9|PN15|FIX4|"<file name>"|EXT|P4|P8|P16|P32| [:SOURce]:RADio:EDGE:DATA? [:SOURce]:RADio:GSM:DATA PN9|PN11|PN15|PN20|PN23|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:GSM:DATA? NADC [:SOURce]:RADio[:NADC]:DATA PN9|PN11|PN15|PN20|PN23|FIX4|...
Page 274: Data Out
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 TETRA [:SOURce]:RADio:TETRa:DATA PN9|PN11|PN15|PN20|PN23|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:TETRA:DATA? This command sets a data pattern for unframed transmission: Pseudorandom bit pattern PN9 through PN23 4-bit repeating sequence data pattern FIX4 A ﬁle in the catalog of binary ﬁles "<file name>"...
Page 275: Differential Data Encoding
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Differential Data Encoding Custom [:SOURce]:RADio:CUSTom:DENCode ON|OFF|1|0 [:SOURce]:RADio:CUSTom:DENCode? [:SOURce]:RADio:GSM:DENCode ON|OFF|1|0 [:SOURce]:RADio:GSM:DENCode? This command sets the operating state of the differential data encoding. For a detailed explanation of differential data encoding, see “Understanding Differential Data Encoding”...
Page 276: Edge Bnc Mux Settings
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 EDGE BNC MUX Settings [:SOURce]:RADio:EDGE:BNCMux:DCOut BCLock|GCLock [:SOURce]:RADio:EDGE:BNCMux:DCOut? This command selects the output signal for the rear panel DATA CLK OUT connector. Bit clock-a signal that is normally 812.5 kHz. BCLock Gated clock-a signal that has the same clock rate as the bit clock, but is GCLock...
Page 277: External 13 Mhz Reference State
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands External 13 MHz Reference State [:SOURce]:RADio:EDGE:EREFerence ON|OFF|1|0 [:SOURce]:RADio:EDGE:EREFerence? [:SOURce]:RADio:GSM:EREFerence ON|OFF|1|0 [:SOURce]:RADio:GSM:EREFerence? This command sets an external 13 MHz reference for the internal reference clock for the data generator.
Page 278: External Frame Trigger Configuration - Delay Bits, Delay State, Type
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 External Frame Trigger Conﬁguration - Delay Bits, Delay State, Type External Frame Trigger Delay Bits [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]:EXTernal:DELay <value> [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]:EXTernal:DELay? This command selects the number of delay bits for the external trigger delay. Range: •...
Page 279: Frame Repeat
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands In Reset & Run External Frame Trigger mode, the trigger input latch is RESet reset by a register bit in the status byte. When the register bit is released, the next trigger signal will reset and start the pattern.
Page 280: Frequency Channel Configuration - Band, Number, And State
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Frequency Channel Conﬁguration - Band, Number, and State Frequency Channel Band [:SOURce]:RADio:DECT|PHS|TETRa:FCHannel:BAND STANdard [:SOURce]:RADio:EDGE:FCHannel:BAND BPGSm|MPGSm|BEGSm|MEGSm|BRGSm| MRGSm|BDCS|MDCS|BPCS|MPCS|B450|B480|B850|M450|M480|M850 [:SOURce]:RADio:GSM:FCHannel:BAND BPGSm|MPGSm|BEGSm|MEGSm|BRGSm| MRGSm|BDCS|MDCS|BPCS|MPCS|B450|B480|B850|M450|M480|M850 [SOURce]:RADio[:NADC]:FCHannel:BAND BASE|MOBile [:SOURce]:RADio:PDC:FCHannel:BAND B8|M8|B15|M15 [:SOURce]:RADio:<desired format>:FCHannel:BAND? This command selects the frequency channel band. The output frequency depends on both the channel band and channel number selections.
Page 281 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Frequency Channel Number Selection [:SOURce]:RADio:<desired format>:FCHannel:NUMBer <number> [:SOURce]:RADio:<desired format>:FCHannel:NUMBer? This command selects the frequency channel number. The output frequency depends on both the channel band and channel number selections. Range: •...
Page 282: Filter Configuration - Alpha, Bbt, Optimization, Type
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Filter Conﬁguration - Alpha, BbT, Optimization, Type Filter Alpha (for Nyquist or Root Nyquist) Custom [:SOURce]:RADio:CUSTom:ALPHa <value> [:SOURce]:RADio:CUSTom:ALPHa? Other Formats [:SOURce]:RADio:<desired format>:ALPHa <value> [:SOURce]:RADio:<desired format>:ALPHa? This command changes the Nyquist or root Nyquist ﬁlter’s alpha value. This command is effective only after choosing a root Nyquist or Nyquist ﬁlter;...
Page 283 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Filter Optimization Custom [:SOURce]:RADio:CUSTom:CHANnel EVM|ACP [:SOURce]:RADio:CUSTom:CHANnel? Other Formats [:SOURce]:RADio:<desired format>:CHANnel EVM|ACP [:SOURce]:RADio:<desired format>:CHANnel? This command is used to optimize the ﬁlter for minimized error vector magnitude (select EVM) or for minimized adjacent channel power (select ACP).
Page 284: Fix4 Data
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 This command selects the pre-modulation ﬁlter type: Root Nyquist RNYQuist Nyquist NYQuist Gaussian GAUSsian Rectangle RECTangle IS-95 IS95 IS-95 with equalizer IS95_EQ IS-95 modiﬁed IS95_MOD IS-95 modiﬁed with equalizer IS95_MOD_EQ APCO 25 C4FM AC4Fm...
Page 285 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Portable Part Custom Timeslot [SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10| 11:CUSTom:FIX4 <0-15> [SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the portable part custom data ﬁeld of the selected timeslot. FIX4 must already be deﬁned as the data type.
Page 286 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 DECT - Portable Part Low Capacity with Z Field Timeslot B Field [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]: FIX4 <0-15> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]: FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the portable part low capacity with Z ﬁeld B ﬁeld of the selected timeslot.
Page 287 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Radio Fixed Low Capacity Timeslot B Field [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]: FIX4 <0-15> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]: FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the selected radio ﬁxed part low capacity timeslot B ﬁeld.
Page 288 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 DECT - Radio Fixed Trafﬁc Bearer with Z Field Timeslot B Field [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]: FIX4 <0-15> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]: FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the selected radio ﬁxed part trafﬁc bearer with Z ﬁeld timeslot B ﬁeld.
Page 289 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands GSM - Unframed Data Transmission [:SOURce]:RADio:GSM:DATA:FIX4 <0-15> [:SOURce]:RADio:GSM:DATA:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern for unframed transmission according to the protocols (modulation type, symbol rate, ﬁlter, and burst shape) selected for the GSM format.
Page 290 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 GSM - Synchronization Timeslot Encryption Field [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption:FIX4 <0-15> [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the selected synchronization timeslot encryption ﬁeld. FIX4 must already be deﬁned as the data type.
Page 291 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands NADC - Uplink Custom Timeslot [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUSTom:FIX4 <0-15> [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUSTom:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the selected uplink custom timeslot. FIX4 must already be deﬁned as the data type. Range: 0000 to 1111 *RST value: 0000 NADC - Uplink Trafﬁc Channel Timeslot...
Page 292 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 PDC - Downlink Trafﬁc Channel Timeslot [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]:FIX4 <0-15> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the selected downlink trafﬁc channel timeslot. FIX4 must already be deﬁned as the data type.
Page 293 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands PHS - Downlink Custom Timeslot [SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:CUSTom FIX4 <0-15> [SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:CUSTom:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the selected downlink custom timeslot. FIX4 must already be deﬁned as the data type.
Page 294 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 TETRA - Unframed Data Transmission [:SOURce]:RADio:TETRA:DATA:FIX4 <0-15> [:SOURce]:RADio:TETRA:DATA:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern for unframed transmission according to the protocols (modulation type, symbol rate, ﬁlter, and burst shape) selected for the TETRA format.
Page 295 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands TETRA - Downlink Discontinuous Custom Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom:FIX4 <0-15> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom:FIX4? This command enables you to select a binary, 4-bit repeating sequence data pattern to be used in the selected downlink discontinuous custom timeslot. FIX4 must already be deﬁned as the data type.
Page 296: Frequency Correction (Fcor) Field
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 TETRA - Uplink Custom Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUSTom:FIX4 <0-15> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUSTom:FIX4? This command enables you to conﬁgure the selected uplink custom data ﬁeld to FIX4 (4-bit repeating sequence data pattern). Range: 0000 to 1111 *RST value: 0000 (binary) TETRA - Uplink Normal Timeslot...
Page 297: Guard Field
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Guard Field EDGE - Custom Timeslot [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom: GUARd <24- or 27-bit pattern> [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom:GUARd? EDGE - Normal Timeslot [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal: GUARd <24- or 27-bit pattern> [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:GUARd? This command deﬁnes the hexadecimal value for the guard time ﬁeld in each custom or normal timeslot.
Page 298: I/Q Scaling
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 PHS - Uplink Synchronization Channel Timeslot [SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:SCHannel:IDLE <bit pattern> [SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:SCHannel:IDLE? This command enables you to change the 34-bit idle (IDLE) ﬁeld. The preset hexadecimal value (when normal preset is selected) for IDLE reﬂects the PHS protocol, however you can enter a new value entering this command.
Page 299: Mode State
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Mode State Custom [:SOURce]:RADio:CUSTom[:STATe] ON|OFF|1|0 [:SOURce]:RADio:CUSTom[:STATe]? Other Formats [:SOURce]:RADio:<desired format>[:STATe] ON|OFF|1|0 [:SOURce]:RADio:<desired format>[:STATe]? This command toggles the modulation format. Options: ON (1) or OFF (0). Although the digital modulation is enabled with this command, the RF carrier is modulated by the enabled modulation only when you have also activated the modulation.
Page 300 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 NADC [:SOURce]:RADio[:NADC]:MODulation[:TYPE] BPSK|QPSK|IS95QPSK| GRAYQPSK|OQPSK|IS95OQPSK|P4DQPSK|PSK8|PSK16|D8PSK|MSK|FSK2|FSK4|FSK8| FSK16|C4FM|QAM4|QAM16|QAM32|QAM64|QAM256|UIQ|UFSK [:SOURce]:RADio[:NADC]:MODulation[:TYPE]? [:SOURce]:RADio:PDC:MODulation[:TYPE] BPSK|QPSK|IS95QPSK|GRAYQPSK|OQPSK| IS95OQPSK|P4DQPSK|PSK8|PSK16|D8PSK|MSK|FSK2|FSK4|FSK8|FSK16|C4FM|QAM4| QAM16|QAM32|QAM64|QAM256|UIQ|UFSK [:SOURce]:RADio:PDC:MODulation[:TYPE]? [:SOURce]:RADio:PHS:MODulation[:TYPE] BPSK|QPSK|IS95QPSK|GRAYQPSK|OQPSK| IS95OQPSK|P4DQPSK|PSK8|PSK16|D8PSK|MSK|FSK2|FSK4|FSK8|FSK16|C4FM|QAM4| QAM16|QAM32|QAM64|QAM256|UIQ|UFSK [:SOURce]:RADio:PHS:MODulation[:TYPE]? TETRA [:SOURce]:RADio:TETRa:MODulation[:TYPE] BPSK|QPSK|IS95QPSK|GRAYQPSK|OQPSK| IS95OQPSK|P4DQPSK|PSK8|PSK16|D8PSK|MSK|FSK2|FSK4|FSK8|FSK16|C4FM|QAM4| QAM16|QAM32|QAM64|QAM256|UIQ|UFSK [:SOURce]:RADio:TETRa:MODulation[:TYPE]? This command sets the custom modulation to one of the available formats: BPSK Binary phase shift keying QPSK...
Page 301 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands QAM4 4-state quadrature amplitude modulation QAM8 8-state quadrature amplitude modulation QAM16 16-state quadrature amplitude modulation QAM32 32-state quadrature amplitude modulation QAM64 64-state quadrature amplitude modulation QAM256 256-state quadrature amplitude modulation EDGE 3π/8 rotating 8-state phase shift keying...
Page 302 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Selecting a Custom I/Q Modulation File [:SOURce]:RADio:CUSTom:MODulation:UIQ "<file name>" [:SOURce]:RADio:CUSTom:MODulation:UIQ? [:SOURce]:RADio:<desired format>:MODulation:UIQ "<file name>" [:SOURce]:RADio:<desired format>:MODulation:UIQ? UIQ "<file name>" deﬁnes the prestored I/Q ﬁle that you want to use. This information is held in memory until you send the command that selects user I/Q as the modulation type: •...
Page 303 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Creating a Custom I/Q Modulation :MEMory:DATA:IQ "<file name>",offsetQ,num states,i0,q0,i1,q1,... [,diff state,num diff states,diff0,diff1,...] This command enables you to deﬁne and store a custom I/Q ﬁle. The name under which to store the deﬁned I/Q information "<file name>"...
Page 304: Msk Phase
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 MSK Phase Deviation [:SOURce]:RADio:CUSTom:MODulation:MSK[:PHASe] <val><unit> [:SOURce]:RADio:CUSTom:MODulation:MSK[:PHASe]? [:SOURce]:RADio:<desired format>:MODulation:MSK[:PHASe] <val><unit> [:SOURce]:RADio:<desired format>:MODulation:MSK[:PHASe]? This command selects MSK phase deviation. Range: 0 to 100 degrees *RST value: 90.00 degrees MSK Phase “Modulation Conﬁguration - Type, User FSK, User I/Q”.
Page 305 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Portable Part Trafﬁc Bearer Timeslot [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic: P <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:P? This command enables you to customize the preamble (P) ﬁeld of the selected trafﬁc bearer timeslot in the portable part link.
Page 306: Multiframe Pn Sequence
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 DECT - Radio Fixed Low Capacity with Z Field Timeslot [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity: P <16-bit value> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity:P? This command enables you to customize the preamble (P) ﬁeld of the selected low capacity with Z ﬁeld timeslot in the radio ﬁxed part link.
Page 307 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands ETCH:F43: E-TCH/F43 channel UNCoded: No channel coding, multiframe channel (every 13th frame is off). *RST Value: PN9 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption: UNCoded PN9|PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:UNCoded? This command selects the data type for the uncoded multiframe channel. [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9: DATA PN9|PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9:...
Page 308: Personal Station Id Code
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption PN9|PN15| FIX4|"file name"|EXT|P4|P8|P16|P32|P64|MPN9|MPN15|TCHFS|CS1| CS4|DMCS1|UMCS1 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? This command turns on a 26-TCH multiframe pattern and embeds the speciﬁed sequence in the selected timeslot. You can enable any or all of the 8 timeslots. *RST Value: PN9 Personal Station ID Code PHS - Downlink Synchronization Channel Timeslot...
Page 309: Pn9 Mode
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands PN9 Mode “Burst Conﬁguration - State, Type, Rise/Fall Time, Rise/Fall Delay, PN9 Mode”. Predeﬁned Mode Custom [:SOURce]:RADio:CUSTom:STANdard:SELect NONE|AC4Fm|ACQPsk|BLUEtooth|CDPD [:SOURce]:RADio:CUSTom:STANdard:SELect? This command enables you to set up Custom with the appropriate defaults for the available formats: Custom is no longer set to the appropriate defaults for a particular format NONE...
Page 310 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 This command sets the synchronization pattern for the selected trafﬁc bearer timeslot in the portable part link. Range: 0000 to FFFF (hexadecimal) *RST value: 1675 (hexadecimal) DECT - Portable Part Trafﬁc Bearer with Z Field Timeslot [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic: S <16-bit value>...
Page 311: Scramble Configuration - Seed And State
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands DECT - Radio Fixed Part Trafﬁc Bearer Timeslot [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic: S <16-bit value> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:S? This command enables you to customize the synchronization (S) ﬁeld of the selected trafﬁc bearer timeslot in the radio ﬁxed part link.
Page 312: Secondary Frame Configuration - Recall, Save, Trigger, State
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Secondary Frame Conﬁguration - Recall, Save, Trigger, State Recall Secondary Frame [:SOURce]:RADio:<desired format>:SECondary:RECall This command recalls the secondary frame instrument state, overwriting the current instrument state. Save Secondary Frame [:SOURce]:RADio:<desired format>:SECondary:SAVE This command saves the current instrument state as the instrument state to use to...
Page 313: Slow Associated Control Channel (Sacch) Field
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Slow Associated Control Channel (SACCH) Field NADC - Downlink Trafﬁc Channel Timeslot [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel: SACChannel <15-bit pattern> [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:SACChannel? This command changes the 15-bit slow associated control channel. The preset hexadecimal value (when normal preset is selected) for SACCH reﬂects the value speciﬁed by the standard.
Page 314 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 PDC - Uplink Trafﬁc Channel Timeslot [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:SACChannel <bit pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:SACChannel? This command enables you to change the 15-bit slow associated control channel (SACCH). The preset hexadecimal value (when normal preset is selected) for SACCH reﬂects the PDC protocol, however you can enter a new value by executing this command.
Page 315: Steal Bit
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Steal Bit [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:STeal <1 bit_pattern> [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:STeal? This command enables you to specify the normal steal bits for the selected timeslot. The single bit deﬁnes the value for both 1-bit ﬁelds. Range: 0 to 1 *RST value: 0 Symbol Rate...
Page 316 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 synchronized to the bit selected by the synchronization output offset of a framed data pattern. Outputs a 1-bit signal to the EVENT 1 rear panel connector that is SLOT synchronized to the bit selected by the synchronization output offset of a selected timeslot.
Page 317: Synchronization Block Bits (Ssb) Field
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Synchronization Output Timeslot [:SOURce]:RADio:<desired format>:SOUT:SLOT <value> [:SOURce]:RADio:<desired format>:SOUT:SLOT? This command selects the timeslot that will trigger a 1-bit signal at the EVENT 1 OUTPUT connector. Range: •...
Page 318: Synchronization Training Sequence Bits (Sts) Field
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Synchronization Training Sequence Bits (STS) Field TETRA - Downlink Continuous Synchronization Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync:STS <38-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync:STS? This command sets the synchronization training sequence for the selected downlink continuous synchronization timeslot.
Page 319: Tail (T1, T2) Fields
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands PDC UVOX Channel Timeslot [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:SWORd <bit pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:SWORd? This command changes the synchronization word, which is used for slot synchronization, equalizer training, and timeslot identiﬁcation. The *RST hexadecimal value reﬂects the value speciﬁed by the indicated standard.
Page 320 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 EDGE [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:POWer MAIN|DELTa [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:POWer? This command toggles the selected timeslot RF output power as main or alternate (delta). This feature is only available with the Alternate Power Control Option UNA. *RST value: Main [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:POWer MAIN|DELTa [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:POWer?
Page 321 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands TETRA [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:POWer MAIN|DELTa [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:POWer? This command toggles the selected timeslot RF output power as main or alternate (delta). This feature is only available with the Alternate Power Control Option UNA. *RST value: Main Timeslot State DECT - Portable Part Timeslots...
Page 322 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 NADC [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:STATe ON|OFF|1|0 [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:STATe? This command sets the operating state of the selected timeslot. The choices are timeslots 1 through 6 and On (1) or Off (0). *RST value: timeslots 1 and 4 On, timeslots 2, 3, 5, and 6 Off [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:STATe ON|OFF|1|0 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:STATe?
Page 323 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands Timeslot Type DECT - Portable Part Timeslots [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10| 11[:TYPE] CUSTom|TRAFfic|LCAPacity|ZTRaffic|ZLCapacity [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11[:TYPE]? This command enables you to select the timeslot type for the selected timeslot (0-11) in the portable part link.
Page 324 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 NADC [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE] DCUStom|UCUStom|UTCH| UTCH_ALL|DTCH|DTCH_ALL [SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE]? This command enables you to set the timeslot type for the selected timeslot. The choices are DCustom (Downlink Custom), UCustom (Uplink Custom), UTCH (Up Trafﬁc Channel), UTCH All, DTCH (Down Trafﬁc Channel), or DTCH All.
Page 325 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands TETRA [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4[:TYPE] UCUSTom|UC1|UC2|UNORmal| DDNormal|DDSync|DCNormal|DCSync|DDCustom|DCCustom [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4[:TYPE]? This command enables you to set the timeslot type for the selected timeslot. The choices are timeslots 1 through 4 and Uplink Custom, Uplink Control 1, Uplink Control 2, Uplink Normal, Downlink Discontinuous Normal, Downlink Discontinuous Synchronization, Downlink Continuous Normal, Downlink Continuous Synchronization, Downlink Discontinuous Custom, and Downlink Continuous Custom.
Page 326: Trailing Broadcast Bit (B2) Field
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 Trailing Broadcast Bit (B2) Field TETRA - Downlink Continuous Normal Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:B2 <16-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:B2? This command sets the last 16 broadcast bits for the selected downlink continuous normal timeslot.
Page 327 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands The default training sequence code reﬂects the EDGE protocol. Use hexadecimal for the 78-bit value in the SCPI command (precede the value with #H); the signal generator will convert it to binary.
Page 328 Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 The following table list the hexadecimal equivalents for training sequences 0 through 7. Training Sequence Hexadecimal Value TSCO 0970897 TSC1 0B778B7 TSC2 10EE90E TSC3 11ED11E TSC4 06B906B TSC5 13AC13A...
Page 329 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands TETRA - Downlink Continuous Normal Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:TSEQuence <30-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:TSEQuence? This command speciﬁes the normal training sequence bits (30-bit midamble) for the selected downlink continuous normal timeslot. When 1E90DE is selected, the data ﬁelds are scrambled as separate logical channels.
Page 330: Trigger Source
Programming Commands and Examples ESG Family Signal Generators Programming Commands Options UN8 and 202 TETRA - Uplink Normal Timeslot [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UNORmal:TSEQuence <22-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UNORmal:TSEQuence? This command speciﬁes the extended training sequence bits (22-bit midamble) for the selected uplink normal timeslot. When 1E90DE is selected, the data ﬁelds are scrambled as separate logical channels.
Page 331: User Fsk Files
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Commands PHS - Downlink Trafﬁc Channel Timeslot [SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:TCHannel:UWORd <bit pattern> [SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:TCHannel:UWORd? This command enables you to change the unique word (UW) ﬁeld. The preset hexadecimal value (when normal preset is selected) for UW reﬂects the PHS protocol, however you can enter a new value entering this command.
Page 332: Programming Examples
Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 Programming Examples This section provides the following programming examples: “Generating a π/4 DQPSK Modulation Sensitivity Bit Error • Test” on page 4-89 This example is presented in the following formats: —...
Page 333: Generating A Π/4 Dqpsk Modulation Sensitivity Bit Error Test
ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Examples Generating a π/4 DQPSK Modulation Sensitivity Bit Error Test In this example, you conﬁgure the signal generator to the initial settings of a π/4DQPSK modulation sensitivity bit error test. The initial settings are format default values, which you can change once the setup is complete.
Page 334 Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 NADC Use this example to conﬁgure the signal generator to the initial settings of an NADC π/4DQPSK modulation sensitivity bit error test. The carrier frequency is 825.250 MHz at 40 dBuV (displayed in dBm).
Page 335 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Examples Program Comments 10 to 160: Title and program description 170: Assign the signal generator’s GPIB address to a variable. 180 to 200: Sets the signal generator in LOCAL mode, and clears the controller’s display. 210: Set the signal generator to a deﬁned state for programming.
Page 336 Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 Use this example to conﬁgure the signal generator to the initial settings of an PHS π/4DQPSK modulation sensitivity bit error test. The carrier frequency is 1.89515 GHz at 40 dBuV (displayed in dBm).
Page 337 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Examples Program Comments 10 to 160: Title and program description 170: Assigns the signal generator’s GPIB address to a variable. 180 to 200: Sets the signal generator in LOCAL mode, and clears the controller’s display. 210: Sets the signal generator to a deﬁned state for programming.
Page 338 Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 TETRA Use this example to conﬁgure the signal generator to the initial settings of an TETRA π/4DQPSK modulation sensitivity bit error test. The carrier frequency is 0.400 GHz at 40 dBuV (displayed in dBm).
Page 339 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Examples Program Comments 10 to 160: Title and program description 170: Assign the signal generator’s GPIB address to a variable. 180 to 200: Sets the signal generator in LOCAL mode, and clears the controller’s display. 210: Set the signal generator to a deﬁned state for programming.
Page 340: Generating A Dect Gfsk Modulation Sensitivity Bit Error Test
Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 Generating a DECT GFSK Modulation Sensitivity Bit Error Test Use this example to conﬁgure the signal generator to the initial settings of an DECT GFSK modulation sensitivity bit error test. The carrier frequency is 1.89515 GHz at 40 dBuV (displayed in dBm).
Page 341 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Examples Program Comments 10 to 160: Title and program description 170: Assign the signal generator’s GPIB address to a variable. 180 to 200: Sets the signal generator in LOCAL mode, and clears the controller’s display. 210: Set the signal generator to a deﬁned state for programming.
Page 342: Generating A Gsm Gmsk Modulation Sensitivity Bit Error Test
Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 Generating a GSM GMSK Modulation Sensitivity Bit Error Test Use this example to conﬁgure the signal generator to the initial settings of an GSM GMSK modulation sensitivity bit error test. The carrier frequency is 940 MHz at 40 dBuV (displayed in dBm).
Page 343 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Examples Program Comments 10 to 160: Title and program description 170: Assigns the signal generator’s GPIB address to a variable. 180 to 200: Sets the signal generator in LOCAL mode, and clears the controller’s display. 210: Sets the signal generator to a deﬁned state for programming.
Page 344: Generating A Pdc Sensitivity Bit Error Test
Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 Generating a PDC Sensitivity Bit Error Test Use this example to conﬁgure the signal generator to the initial settings of PDC modulation sensitivity bit error test. The carrier frequency is 815 MHz at 40 dBuV (displayed in dBm).
Page 345 ESG Family Signal Generators Programming Commands and Examples Options UN8 and 202 Programming Examples Program Comments 10 to 150: Title and program description 160: Assigns the signal generator’s GPIB address to a variable. 170 to 190: Sets the signal generator to LOCAL mode, and clear the controller’s display. Sets the signal generator to a deﬁned state for programming.
Page 346 Programming Commands and Examples ESG Family Signal Generators Programming Examples Options UN8 and 202 4-102 Real-Time I/Q Baseband Generator User’s and Programming Guide...
Page 347: Softkey/Command Cross-Reference
ESG Family Signal Generators Options UN8 and 202 Softkey/Command Cross–Reference This chapter lists Options UN8 and 202 softkeys and their corresponding SCPI commands. For a list of the signal generator’s standard keys and their corresponding SCPI commands, refer to the programming guide. In the following tables, when there is an entry for the custom format, it is given ﬁrst.
Page 348 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:MODulation[:TYPE] P4DQPSK [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? π/4DPSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE] P4DQPSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE]? [:SOURce]:RADio:CUSTom:MODulation[:TYPE] FSK2 [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? 2–Lvl FSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE] FSK2 [:SOURce]:RADio:<desired format>:MODulation[:TYPE]? 3-Bit Sync [:SOURce]:RADio:EDGE:BNCMux:SSOut TBSync [:SOURce]:RADio:EDGE:BNCMux:SSOut? [:SOURce]:RADio:CUSTom:DATA P4 [:SOURce]:RADio:CUSTom:DATA? 4 1’s & 4 0’s [:SOURce]:RADio:<desired format>:DATA P4 [:SOURce]:RADio:<desired format>:DATA? Real-Time I/Q Baseband Generator User’s and Programming Guide...
Page 349 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] P4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] P4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] P4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] P4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P4 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? 4 1’s & 4 0’s continued [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] P4 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]?
Page 350 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption P4 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom P4 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption P4 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption P4 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom P4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] P4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom P4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] P4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]? 4 1’s & 4 0’s continued [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom P4 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom?
Page 351 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? 4 1’s & 4 0’s continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA] P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA] P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom P4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom?
Page 352 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P8 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] P8 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] P8 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] P8 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] P8 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P8 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? 8 1’s & 8 0’s continued [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] P8 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]?
Page 353 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption P8 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom P8 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption P8 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption P8 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom P8 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] P8 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom P8 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] P8 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]? 8 1’s & 8 0’s continued [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom P8 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom?
Page 354 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? 8 1’s & 8 0’s continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA] P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA] P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom P8 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom?
Page 355 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P16 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] P16 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] P16 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] P16 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] P16 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P16 16 1’s & [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? 16 0’s [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity continued [:B] P16 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]?
Page 356 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption P16 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom P16 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption P16 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption P16 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom P16 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] P16 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom P16 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] P16 16 1’s & [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]? 16 0’s [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom P16 continued [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom?
Page 357 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom P16 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] P16 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] P16 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] P16 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] P16 16 1’s & [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? 16 0’s [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] P16 continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA] P16 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA] P16 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom P16 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom?
Page 358 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P32 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] P32 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] P32 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] P32 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] P32 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P32 32 1’s & [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? 32 0’s [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity continued [:B] P32 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]?
Page 359 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption P32 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom P32 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption P32 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption P32 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom P32 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] P32 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom P32 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] P32 32 1’s & [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]? 32 0’s [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom P32 continued [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom?
Page 360 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom P32 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] P32 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] P32 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] P32 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] P32 32 1’s & [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? 32 0’s [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] P32 continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA] P32 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA] P32 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom P32 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom?
Page 361 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom P64 64 1’s & [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? 64 0’s [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity continued [:B] P64 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]?
Page 362 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption P64 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom P64 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption P64 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption P64 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom P64 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] P64 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom P64 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] P64 64 1’s & [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]? 64 0’s [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom P64 continued [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom?
Page 363 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] P64 64 1’s & [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? 64 0’s [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] P64 continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA] P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA] P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom?
Page 364 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity: A <64-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity:A? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic: A <64-bit value> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic:A? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic: A <64-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:A? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity: A <64-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity:A? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM[1]: A ﬁeld A <64-bit value> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM[1]:A? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM2: A <64-bit value>...
Page 365 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:B1 <14-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:B1? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal:B1 <14-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal:B1? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:B2 <16-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:B2? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal:B2 <16-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal:B2? [:SOURce]:RADio[:NADC]:FCHannel:BAND BASE Base [:SOURce]:RADio[:NADC]:FCHannel:BAND? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity:B PN9| PN15|FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS|FDEV2_FS|FACCuracy|DM1|DM0|P4| P8|P16|P32|P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity:B? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:B PN9| PN15|FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS|FDEV2_FS|FACCuracy|DM1|DM0|P4| P8|P16|P32|P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:B?
Page 366 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:<desired format>:SOUT FRAME Begin Frame [:SOURce]:RADio:<desired format>:SOUT? [:SOURce]:RADio:CUSTom:SOUT SLOT <value> [:SOURce]:RADio:CUSTom:SOUT? Begin [:SOURce]:RADio:<desired format>:SOUT SLOT Timeslot [:SOURce]:RADio:<desired format>:SOUT:SLOT <value> [:SOURce]:RADio:<desired format>:SOUT:SLOT? Bit Clock [:SOURce]:RADio:EDGE:BNCMux:DCOut BCLock [:SOURce]:RADio:EDGE:BNCMux:DCOut? Bluetooth [:SOURce]:RADio:CUSTom:STANdard:SELect BLUEtooth [:SOURce]:RADio:CUSTom:STANdard:SELect? [:SOURce]:RADio:EDGE:BNCMux:DOut BCLock|GCLock [:SOURce]:RADio:EDGE:BNCMux:DOut?
Page 367 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel:CCODe <bit pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel:CCODe? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:CCODe <bit pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:CCODe? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:CCODe <bit_pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:CCODe? CDPD [:SOURce]:RADio:CUSTom:STANdard:SELect CDPD [:SOURce]:RADio:CUSTom:STANdard:SELect? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:CDLocator <bit pattern> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:CDLocator? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:CDVCcode <bit pattern> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:CDVCcode? CDVCC [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel:CDVCcode <bit pattern> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel:CDVCcode? CS-1 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption CS1 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption?
Page 368 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom PN9|PN15| FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS|FDEV2_FS|FACCuracy|DM1|DM0|P4|P8| P16|P32|P64 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom PN9|PN15| FIX4|"<file name>"|EXT|FDEV1_HS|FDEV1_FS|FDEV2_FS|FACCuracy|DM1|DM0|P4|P8| P16|P32|P64 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? Conﬁgure [:SOURce]:RADio:EDGE|:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom PN9|PN15|FIX4| Custom "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:EDGE|:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom PN9|PN15|FIX4|"<file name>"| EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom PN9|PN15|FIX4|"<file name>"| EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom? :MEMory:DATA:FSK "<file name>",num_states,f0,f0,...
Page 369 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom PN9|PN15|FIX4| Conﬁgure "<file name>"|EXT|P4|P8|P16|P32|P64 Up Custom [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom? Conﬁgure [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UNORmal[:DATA] PN9|PN15|FIX4| Up Normal "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UNORmal[:DATA]? Copy File [:MEMory]:COPY[:NAME] "<file name>","<file name>"...
Page 370 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom|DECT|GSM|[:NADC]|PDC|PHS|TETRA:DATA PN9|PN11| PN15|PN20|PN23|FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:CUSTom|DECT|GSM|[:NADC]|PDC|PHS|TETRA:DATA? [:SOURce]:RADio:EDGE:DATA PN9|PN15|FIX4|"<file name>"|EXT|P4|P8|P16| P32|P64 [:SOURce]:RADio:<EDGE>:DATA? [:SOURce]:RADio:EDGE|:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:EDGE|:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom PN9|PN15|FIX4| Data "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] PN9|PN15|FIX4|...
Page 371 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN9|PN15|FIX4| "<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] PN9|PN15|FIX4| Data...
Page 372 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT[:STATe] ON|OFF|1|0 DECT Off On [:SOURce]:RADio:DECT[:STATe]? Deﬁne User :MEMory:DATA:FIR "<file name>",osr,coefficient{,coefficient} :MEMory:DATA:FIR? "<file name>" :MEMory:DATA:FSK "<file name>",num_states,f0,f0,... Deﬁne User [,diff_state,num_diff_states,diff0,diff1,...] :MEMory:DATA:FSK? "<file name>" :MEMory:DATA:IQ "<file name>",offsetQ,num_states,i0,q0,i1,q1,... Deﬁne User [,diff_state,num_diff_states,diff0,diff1,...] :MEMory:DATA:IQ? "<file name>"...
Page 373 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom DM1 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B] DM1 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] DM1 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] DM1 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B] DM1 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTTRaffic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom DM1 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] DM1 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] DM1 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] DM1 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B] DM1 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]?
Page 374 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5[:TYPE] DTCH_ALL [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5[:TYPE]? Down TCH [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE] DTCH_ALL [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE]? Downlink [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal: MCS-1 ENCRyption DMCS1 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? Downlink [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9 MCS-5 :DATA PN9|PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9 :DATA? Downlink [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9 MCS-9 :DATA PN9|PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9 :DATA? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7[:TYPE] DUMMy Dummy [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7[:TYPE]?
Page 375 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ETCH: F43:DATA PN9|PN15 E-TCH/F43.2 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ETCH: F43:DATA? [:SOURce]:RADio:EDGE:FILTer EDGE [:SOURce]:RADio:EDGE:FILTer EDGE? EDGE [:SOURce]:RADio:EDGE:MODulation[:TYPE] EDGE [:SOURce]:RADio:EDGE:MODulation[:TYPE]? [:SOURce]:RADio:EDGE[:STATe] ON|OFF|1|0 EDGE Off On [:SOURce]:RADio:EDGE[:STATe]? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ETAil <bit pattern> [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ETAil? Event 1 [:SOURce]:RADio:EDGE:BNCMux:EVENt MTRigger|FTRigger [:SOURce]:RADio:EDGE:BNCMux:EVENt? Real-Time I/Q Baseband Generator User’s and Programming Guide 5-29...
Page 376 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:DATA EXT [:SOURce]:RADio:CUSTom:DATA? [:SOURce]:RADio:CUSTom:TRIGger[:SOURce] EXT [:SOURce]:RADio:CUSTom:TRIGger[:SOURce]? [:SOURce]:RADio:<desired format>:DATA EXT [:SOURce]:RADio:<desired format>:DATA? [:SOURce]:RADio:<desired format>:TRIGger[:SOURce] EXT [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]? [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]:EXTernal[:TYPE] SINGle| GATE|RESet|MANual [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]:EXTernal[:TYPE]? [:SOURce]:RADio:<desired format>:SECondary:TRIGger[:SOURce] EXT [:SOURce]:RADio:<desired format>:SECondary:TRIGger[:SOURce]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom EXT [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] EXT...
Page 377 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption EXT [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom EXT [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption EXT [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption EXT [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom EXT [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] EXT [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom EXT [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] EXT [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]? continued [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom EXT [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel] EXT [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom EXT...
Page 378 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UNORmal[:DATA] EXT [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UNORmal[:DATA]? [:SOURce]:RADio:CUSTom:EDCLock SYMBol|NORMal...
Page 379 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FACCuracy [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] FACCuracy [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] FACCuracy [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] FACCuracy [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] FACCuracy [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTTRaffic[:B]? FACC [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FACCuracy [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] FACCuracy [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] FACCuracy [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity...
Page 380 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync:FCOR <80-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync:FCOR? FCOR [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync:FCOR <80-bit value> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync:FCOR? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7[:TYPE] FCORrection FCorr [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7[:TYPE]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FDEV1_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] FDEV1_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] FDEV1_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] FDEV1_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] FDEV1_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTTRaffic[:B]?
Page 381 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FDEV1_HS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] FDEV1_HS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] FDEV1_HS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] FDEV1_HS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] FDEV1_HS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTTRaffic[:B]? FDEV1_HS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FDEV1_HS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] FDEV1_HS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B] FDEV1_HS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity...
Page 382 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FDEV2_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B] FDEV2_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] FDEV2_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic [:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCAPacity[:B] FDEV2_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCAPacity [:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRAFfic[:B] FDEV2_FS [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRAFfic [:B]? FDEV2_FS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FDEV2_FS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B] FDEV2_FS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] FDEV_FS [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCAPacity[:B]...
Page 383 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:BBT <value> [:SOURce]:RADio:CUSTom:BBT? [:SOURce]:RADio:<desired format>:BBT <value> Filter BbT [:SOURce]:RADio:<desired format>:BBT? [:SOURce]:RADio:<desired format>:BBT <value> [:SOURce]:RADio:<desired format>:BBT? Real-Time I/Q Baseband Generator User’s and Programming Guide 5-37...
Page 384 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:DATA:FIX4 <0–15> [:SOURce]:RADio:CUSTom:DATA:FIX4? [:SOURce]:RADio:DECT:DATA FIX4 [:SOURce]:RADio:DECT:DATA:FIX4 <0-15> [:SOURce]:RADio:DECT:DATA:FIX4? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom FIX4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom: FIX4 <0-15> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom:FIX4? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] FIX4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]: FIX4 <0-15> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]: FIX4? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] FIX4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]: FIX4 <0-15> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]:FIX4? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] FIX4 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]:...
Page 385 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] FIX4 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]: FIX4 <0-15> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]: FIX4? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic [:B] FIX4 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]: FIX4 <0-15> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]: FIX4? [:SOURce]:RADio:<desired format>:DATA FIX4 [:SOURce]:RADio:<desired format>:DATA:FIX4 <0-15> [:SOURce]:RADio:<desired format>:DATA:FIX4? [:SOURce]:RADio:EDGE|GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom FIX4 [:SOURce]:RADio:EDGE|GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom:FIX4 <0-15> [:SOURce]:RADio:EDGE|GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom:FIX4? FIX4 [:SOURce]:RADio:EDGE|GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption FIX4...
Page 386 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio[:NADC]:DATA FIX4 [:SOURce]:RADio[:NADC]:DATA:FIX4 <0-15> [:SOURce]:RADio[:NADC]:DATA:FIX4? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom FIX4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom:FIX4 <0-15> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom:FIX4? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA] FIX4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]:FIX4 <0-15> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel[:DATA]:FIX4? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom FIX4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom:FIX4 <0-15> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UCUStom:FIX4? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA] FIX4 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]:FIX4 <0-15> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel[:DATA]:FIX4? [:SOURce]:RADio:PDC:DATA FIX4 [:SOURce]:RADio:PDC:DATA:FIX4 <0-15> [:SOURce]:RADio:PDC:DATA:FIX4? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom FIX4 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom:FIX4 <0-15>...
Page 387 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:DATA FIX4 [:SOURce]:RADio:TETRa:DATA:FIX4 <0-15> [:SOURce]:RADio:TETRa:DATA:FIX4? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] FIX4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]:FIX4 <0-15> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]:FIX4? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] FIX4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]:FIX4 <0-15> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]:FIX4? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] FIX4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]:FIX4 <0-15> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]:FIX4? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] FIX4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]:FIX4 <0-15> [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]:FIX4? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] FIX4 FIX4 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]:FIX4 <0-15>...
Page 388 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:MODulation:FSK[:DEViation] <val><unit> [:SOURce]:RADio:CUSTom:MODulation:FSK[:DEViation]? Freq Dev [:SOURce]:RADio:<desired format>:MODulation:FSK[:DEViation] <val><unit> [:SOURce]:RADio:<desired format>:MODulation:FSK[:DEViation]? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom:GUARd <24 or 27-bit pattern> [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom:GUARd? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:GUARd <24 or 27-bit pattern> [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:GUARd? [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]:EXTernal[:TYPE] GATE Gated [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]:EXTernal[:TYPE]? Gated Clock [:SOURce]:RADio:EDGE:BNCMux:DCOut GCLock [:SOURce]:RADio:EDGE:BNCMux:DCOut?
Page 389 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:FILTer IS95_MOD_EQ [:SOURce]:RADio:CUSTom:FILTer? IS-95 Mod w/EQ [:SOURce]:RADio:<desired format>:FILTer IS95_MOD_EQ [:SOURce]:RADio:<desired format>:FILTer? [:SOURce]:RADio:CUSTom:FILTer IS95_EQ [:SOURce]:RADio:CUSTom:FILTer? IS-95 w/EQ [:SOURce]:RADio:<desired format>:FILTer IS95_EQ [:SOURce]:RADio:<desired format>:FILTer? [:SOURce]:RADio:CUSTom:MODulation[:TYPE] IS95OQPSK [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? IS95 OQPSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE] IS95OQPSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE]? [:SOURce]:RADio:CUSTom:MODulation[:TYPE] IS95QPSK [:SOURce]:RADio:CUSTom:MODulation[:TYPE]?
Page 390 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:MODulation[:TYPE] BPSK|QPSK|IS95QPSK|GRAYQPSK| OQPSK|IS95OQPSK|P4DQPSK|PSK8|PSK16|D8PSK|MSK|FSK2|FSK4|FSK8|FSK16|C4FM| QAM4|QAM16|QAM32|QAM64|QAM256|UIQ|UFSK [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? Modulation Type [:SOURce]:RADio:<desired format>:MODulation[:TYPE] BPSK|QPSK|IS95QPSK| GRAYQPSK|OQPSK|IS95OQPSK|P4DQPSK|PSK8|PSK16|D8PSK|MSK|FSK2|FSK4|FSK8| FSK16|C4FM|QAM4|QAM16|QAM32|QAM64|QAM256|UIQ|UFSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE]? [:SOURce]:RADio:CUSTom:MODulation[:TYPE] MSK [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? [:SOURce]:RADio:<desired format>:MODulation[:TYPE] MSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE]? Multiframe [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal: Channel ENCRyption PN9|PN15|FIX4|"<filename>"|EXT|P4|P8|P16|P32| P64|DMCS9|UMCS9|DMCS5|UMCS5|ETCH:F43|UNCoded [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? Multiframe [:SOURce]:RADio:EDGE:BNCMux:DOut MDATa...
Page 391 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:MODulation[:TYPE] OQPSK [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? OQPSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE] OQPSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity: P <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity:P? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic: P <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:P? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity: P <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity:P? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic: P <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic:P? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM[1]: P <16-bit value>...
Page 392 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:TRIGger[:SOURce] KEY|EXT|BUS [:SOURce]:RADio:CUSTom:TRIGger[:SOURce]? Pattern Trigger [:SOURce]:RADio:<desired format>:TRIGger[:SOURce] KEY|EXT|BUS [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]? [:SOURce]:RADio:EDGE|GSM:FCHannel:BAND BPCS PCS Base [:SOURce]:RADio:EDGE|GSM:FCHannel:BAND? [:SOURce]:RADio:EDGE|GSM:FCHannel:BAND MPCS PCS Mobile [:SOURce]:RADio:EDGE|GSM:FCHannel:BAND? [:SOURce]:RADio:PDC[:STATe] ON|OFF|1|0 PDC Off On [:SOURce]:RADio:PDC[:STATe]? [:SOURce]:RADio:CUSTom:MODulation:MSK[:PHASe] <val><unit> [:SOURce]:RADio:CUSTom:MODulation:MSK[:PHASe]? Phase Dev [:SOURce]:RADio:<desired format>:MODulation:MSK[:PHASe] <val><unit>...
Page 393 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:DATA PN9 [:SOURce]:RADio:DECT:DATA? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom PN9 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B] PN9 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] PN9 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] PN9 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B] PN9 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B] [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom PN9 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] PN9 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] PN9 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] PN9...
Page 394 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:EDGE:DATA PN9 [:SOURce]:RADio:EDGE:DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom PN9 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption PN9 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption: UNCoded PN9 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:UNCoded? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9: DATA PN9 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9: DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS9: DATA PN9 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINK:MCS9: DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS5: DATA PN9 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS5: DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS5: DATA PN9[:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS5:...
Page 395 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:DATA PN9 [:SOURce]:RADio:PDC:DATA? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom PN9 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel] PN9 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel] PN9 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom PN9 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel] PN9 continued [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel]? [:SOURce]:RADio:PHS:DATA PN9 [:SOURce]:RADio:PHS:DATA? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom PN9 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN9 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom PN9 [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN9...
Page 396 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:DATA PN9 [:SOURce]:RADio:TETRa:DATA? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] PN9 continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA] PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC1[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA] PN9 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UC2[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UNORmal[:DATA] PN9...
Page 397 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:DATA PN15 [:SOURce]:RADio:DECT:DATA? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom PN15 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] PN15 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] PN15 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity [:B] PN15 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[:B]? PN15 continued [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B] PN15 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom PN15 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity [:B] PN15 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] PN15 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B]?
Page 398 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:EDGE:DATA PN15 [:SOURce]:RADio:EDGE:DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption: UNCoded PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:UNCoded? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9 :DATA PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS9 :DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS9 :DATA PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINK:MCS9 :DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk:MCS5 :DATA PN15 PN15[:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:DLINk: MCS5:DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS5 :DATA PN15 PN15...
Page 399 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:DATA PN15 [:SOURce]:RADio:PDC:DATA? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom PN15 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DCUStom? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel] PN15 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom PN15 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UCUStom? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel] PN15 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel]? [:SOURce]:RADio:PHS:DATA PN15 [:SOURce]:RADio:PHS:DATA? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom PN15 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN15 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom PN15 [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN15 [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:TETRa:DATA PN15 [:SOURce]:RADio:TETRa:DATA?
Page 400 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:DATA PN20 PN20 [:SOURce]:RADio:CUSTom:DATA? [:SOURce]:RADio:DECT|GSM|[:NADC]|TETRa|PDC|PHS:DATA PN20 [:SOURce]:RADio:DECT|GSM|[:NADC]|TETRa|PDC|PHS:DATA? [:SOURce]:RADio:CUSTom:DATA PN23 [:SOURce]:RADio:CUSTom:DATA? PN23 [:SOURce]:RADio:DECT|GSM|[NADC]|TETRa|PDC|PHS:DATA PN23 [:SOURce]:RADio:DECT|GSM|[NADC]|TETRa|PDC|PHS:DATA? [:SOURce]:RADio:DECT:DATA PN9|PN11|PN15|PN23|FIX4|"<file name>"|EXT| PN Sequence P4|P8|P16|P32|P64 [:SOURce]:RADio:DECT:DATA? Predeﬁned [:SOURce]:RADio:CUSTom:STANdard:SELect NONE|AC4Fm|ACQPsk|BLUEtooth|CDPD Mode [:SOURce]:RADio:CUSTom:STANdard:SELect? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:SCHannel:PSID <bit pattern> [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:SCHannel:PSID? PSID [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:SCHannel:PSID <bit pattern>...
Page 401 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command Restore DECT [:SOURce]:RADio:DECT:Default Factory Default Restore EDGE [:SOURce]:RADio:EDGE:Default Factory Default Restore GSM Factory [:SOURce]:RADio:GSM:Default Default Restore NADC [:SOURce]:RADio:[:NADC]:Default Factory Default Restore PDC Factory [:SOURce]:RADio:PDC:Default Default Restore PHS Factory [:SOURce]:RADio:PHS:Default Default Restore...
Page 402 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity: S <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity:S? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFficL: S <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic:S? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity: S <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity:S? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic: S <16-bit value> [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic:S? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM[1]: S <16-bit value> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM[1]:S? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM2: S <16-bit value> [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:DUMM2:S? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity: S <16-bit value>...
Page 403 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel:SACChannel <bit-pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel:SACChannel? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:SACChannel <bit-pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:SACChannel? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:SACChannel <bit-pattern> SACCH [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:SACChannel? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:SACChanel <bit-pattern> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel:SACChanel? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel:SACChanel <bit-pattern> [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:UTCHannel:SACChanel? Save Secondary [:SOURce]:RADio:<desired format>:SECondary:SAVE Frame State Scramble [:SOURce]:RADio:PHS|TETRa:BURSt:SCRamble[:STATe] ON|OFF|1|0 Off On [:SOURce]:RADio:PHS|TETRa:BURSt:SCRamble[:STATe]? Scramble [:SOURce]:RADio:PHS:BURSt:SCRamble:SEED <16-bit val>...
Page 404 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:Custom:DATA "<file name>" [:SOURce]:RADio:Custom:DATA? [:SOURce]:RADio:DECT:DATA "<file name>" [:SOURce]:RADio:DECT:DATA? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11: CUSTom "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:CUSTom? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B] "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B] "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[:B? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCAPacity[:B] "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCAPacity[:B]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRAFfic[:B] "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRAFfic[:B? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11: CUSTom "<file name>"...
Page 405 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:GSM:DATA "<file name>" [:SOURce]:RADio:GSM:DATA? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption "<file name>" [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom "<file name>" [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:CUSTom? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption "<file name>" [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption "<file name>" [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio[:NADC]:DATA "<file name>" [:SOURce]:RADio[:NADC]:DATA? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom "<file name>" [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DCUStom? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:DTCHannel "<file name>"...
Page 406 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:TETRa:DATA "<file name>" [:SOURce]:RADio:TETRa:DATA? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom "<file name>" [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:UCUStom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom "<file name>" [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA] "<file name>" [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA] "<file name>" [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCSync[:DATA]? Select File [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA] "<file name>" continued [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDCustom[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA] "<file name>" [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDNormal[:DATA]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DDSync[:DATA] "<file name>"...
Page 407 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel:SWORd <bit pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel:SWORd? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:SWORd <bit pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel:SWORd? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:SWORd <bit pattern> [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UVOX:SWORd? [:SOURce]:RADio:CUSTom:BRATe <value> [:SOURce]:RADio:CUSTom:BRATe? [:SOURce]:RADio:CUSTom:SRATe <value> [:SOURce]:RADio:CUSTom:SRATe? Symbol Rate [:SOURce]:RADio:DECT|GSM|[:NADC]|PDC|PHS|TETRA:BRATe <value> [:SOURce]:RADio:DECT|GSM|[:NADC]|PDC|PHS|TETRA:BRATe? [:SOURce]:RADio:<desired format>:SRATe <value> [:SOURce]:RADio:<desired format>:SRATe? Symbol Sync [:SOURce]:RADio:EDGE:BNCMux:SSOut [:SOURce]:RADio:EDGE:BNCMux:SSOut?
Page 408 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel] PN9|PN15|FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:DTCHannel[:TCHannel]? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel] PN9|PN15|FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:UTCHannel[:TCHannel]? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel] PN9|PN15|FIX4|"<file name>"|EXT|P4|P8|P16|P32|P64 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4[:TYPE] TCH [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4[:TYPE]? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4[:TYPE] TCH [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4[:TYPE]? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4[:TYPE] TCH_ALL [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4[:TYPE]? TCH All [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4[:TYPE] TCH_ALL [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4[:TYPE]? TCH/FS [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:TCH:FS:DATA :SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:TCH:FS:DATA? TETRA Off [:SOURce]:RADio:TETRa[:STATe] ON|OFF|1|0...
Page 409 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:STATe ON|OFF|1|0 [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:STATe? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:STATe ON|OFF|1|0 [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:STATe? [:SOURce]:RADio:EDGE|GSM:SLOT0|[1]|2|3|4|5|6|7:STATe ON|OFF|1|0 [:SOURce]:RADio:EDGE|GSM:SLOT0|[1]|2|3|4|5|6|7:STATe? [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:STATe ON|OFF|1|0 [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6:STATe? Timeslot Off [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:STATe ON|OFF|1|0 [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5:STATe? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:STATe ON|OFF|1|0 [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4:STATe? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:STATe ON|OFF|1|0 [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4:STATe? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:STATe ON|OFF|1|0 [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:STATe? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:POWer MAIN|DELTa Timeslot [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:POWer? Power...
Page 410 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11[:TYPE] CUSTom|TRAFfic|LCAPacity|ZTRaffic|ZLCapacity [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11[:TYPE]? [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11[:TYPE] CUSTom|DUMM[1]|DUMM2|TRAFfic|LCAPacity|ZTRaffic|ZLCapacity [:SOURce]:RADio:DECT:RFPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11[:TYPE]? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7[:TYPE] CUSTom|NORMal| NORMal_ALL [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7[:TYPE]? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7[:TYPE] CUSTom|NORMal| FCORrection|SYNC|DUMMy|ACCess|NORMAL_ALL [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7[:TYPE]? Timeslot [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE] UCUStom|DCUStom|UTCH| Type UTCH_ALL|DTCH|DTCH_ALL [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE]? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5[:TYPE] UCUStom|DCUStom|UTCH| UTCH_ALL|UVOX|DTCH|DTCH_ALL [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5[:TYPE]? [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4[:TYPE] CUSTOM|TCH|TCH_ALL|SYNC [:SOURce]:RADio:PHS:DLINk:SLOT[1]|2|3|4[:TYPE]? [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4[:TYPE] CUSTOM|TCH|TCH_ALL|SYNC [:SOURce]:RADio:PHS:ULINk:SLOT[1]|2|3|4[:TYPE]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4[:TYPE] UCUStom|UC1|UC2|UNORmal| DDNormal|DDSync|DCNormal|DCSync|DCCustom|DDCustom...
Page 411 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:TRIGger[:SOURce] KEY [:SOURce]:RADio:CUSTom:TRIGger[:SOURce]? [:SOURce]:RADio:<desired format>:TRIGger[:SOURce] KEY Trigger Key [:SOURce]:RADio:<desired format>:TRIGger[:SOURce]? [:SOURce]:RADio:<desired format>:SECondary:TRIGger[:SOURce] KEY [:SOURce]:RADio:<desired format>:SECondary:TRIGger[:SOURce]? [:SOURce]:RADio:EDGE:SLOT0|1|2|3|4|5|6|7:NORMal:TSEQuence TSC0|TSC1|TSC2| TSC3|TSC4|TSC5|TSC6|TSC7|<78bit_pattern> [:SOURce]:RADio:EDGE:SLOT0|1|2|3|4|5|6|7:NORMal:TSEQuence? [:SOURce]:RADio:GSM:SLOT0|1|2|3|4|5|6|7:DUMMy:TSEQuence <bit-pattern> [:SOURce]:RADio:GSM:SLOT0|1|2|3|4|5|6|7:DUMMy:TSEQuence? [:SOURce]:RADio:GSM:SLOT0|1|2|3|4|5|6|7:NORMal:TSEQuence <bit-pattern> [:SOURce]:RADio:GSM:SLOT0|1|2|3|4|5|6|7:NORMal:TSEQuence? [:SOURce]:RADio:GSM:SLOT0|1|2|3|4|5|6|7:SYNC:TSEQuence <bit-pattern> [:SOURce]:RADio:GSM:SLOT0|1|2|3|4|5|6|7:SYNC:TSEQuence? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4:DCNormal:TSEQuence <30-bit value>...
Page 412 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE] UCUStom [:SOURce]:RADio[:NADC]:SLOT[1]|2|3|4|5|6[:TYPE]? [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5[:TYPE] UCUStom Up Custom [:SOURce]:RADio:PDC:SLOT0|[1]|2|3|4|5[:TYPE]? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4[:TYPE] UCUStom [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4[:TYPE]? Uplink [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS1: MCS-1 DATA {PN9}|PN15 [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS1:DATA? Uplink [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS5: MCS-5 DATA {PN9}|PN15 [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS5: DATA? Uplink [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS9: MCS-9 DATA {PN9}|PN15[ :SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption:ULINk:MCS9:DATA? [:SOURce]:RADio:TETRa:SLOT[1]|2|3|4[:TYPE] UNORmal Up Normal...
Page 413 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:<desired format>:BURSt:SHAPe[:TYPE] "<file name>" [:SOURce]:RADio:<desired format>:BURSt:SHAPe[:TYPE]? [:SOURce]:RADio:CUSTom:DATA "<file name>" [:SOURce]:RADio:CUSTom:DATA? [:SOURce]:RADio:DECT:DATA "<file name>" [:SOURce]:RADio:DECT:DATA? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[B:] "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:LCAPacity[B:]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[B:] "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:TRAFfic[B:]? [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[B:] "<file name>" [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZLCapacity[B:]? User File [:SOURce]:RADio:DECT:PPart:SLOT0|[1]|2|3|4|5|6|7|8|9|10|11:ZTRaffic[B:] "<file name>"...
Page 414 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:EDGE:DATA "<file name>" [:SOURce]:RADio:EDGE:DATA? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom:ENCRyption "<file name>" [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:CUSTom:ENCRyption? [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption "<file name>" [:SOURce]:RADio:EDGE:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:DATA "<file name>" [:SOURce]:RADio:GSM:DATA? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption "<file name>" [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:ACCess:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption "<file name>" [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:NORMal:ENCRyption? [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption "<file name>" [:SOURce]:RADio:GSM:SLOT0|[1]|2|3|4|5|6|7:SYNC:ENCRyption? [:SOURce]:RADio:[:NADC]:DATA "<file name>"...
Page 415 ESG Family Signal Generators Softkey/Command Cross–Reference Options UN8 and 202 SCPI Command [:SOURce]:RADio:PHS:DATA "<file name>" [:SOURce]:RADio:PHS:DATA? [:SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:CUSTom "<file name>" [:SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:TCHannel[:TCHannel] "<file name>" [:SOURce]:RADio:PHS:DLINK:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:CUSTom "<file name>" [:SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:CUSTom? [:SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:TCHannel[:TCHannel] "<file name>" [:SOURce]:RADio:PHS:ULINK:SLOT[1]|2|3|4:TCHannel[:TCHannel]? [:SOURce]:RADio:TETRa:DATA "<file name>" [:SOURce]:RADio:TETRa:DATA? [:SOURce]:RADio:TETRa:SLOT[1]2|3|4|:DCCustom "<file name>" [:SOURce]:RADio:TETRa:SLOT[1]2|3|4|:DCCustom? [:SOURce]:RADio:TETRa:SLOT[1]2|3|4|:DCNormal[:DATA] "<file name>"...
Page 416 Softkey/Command Cross–Reference ESG Family Signal Generators Options UN8 and 202 SCPI Command [:SOURce]:RADio:CUSTom:MODulation:UFSK "<file name>" [:SOURce]:RADio:CUSTom:MODulation:UFSK? [:SOURce]:RADio:CUSTom:MODulation[:TYPE] UFSK [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? User FSK [:SOURce]:RADio:<desired format>:MODulation:UFSK "<file name>" [:SOURce]:RADio:<desired format>:MODulation:UFSK? [:SOURce]:RADio:<desired format>:MODulation[:TYPE] UFSK [:SOURce]:RADio:<desired format>:MODulation[:TYPE]? [:SOURce]:RADio:CUSTom:MODulation:UIQ "<file name>" [:SOURce]:RADio:CUSTom:MODulation:UIQ? [:SOURce]:RADio:CUSTom:MODulation[:TYPE] UIQ [:SOURce]:RADio:CUSTom:MODulation[:TYPE]? User I/Q [:SOURce]:RADio:<desired format>:MODulation:UIQ "<file name>"...
Page 417 ESG Family Signal Generators Options UN8 and 202 Theory of Operation This section contains theory of operation that will help you learn how to use the custom modulation functionality: • “RF Modulation with Option UN8/9” on page 6-2 • “Alternate Amplitude and Alternate Timeslot Amplitude Control (Option UNA only)”...
Page 418 Theory of Operation ESG Family Signal Generators RF Modulation with Option UN8/9 Options UN8 and 202 RF Modulation with Option UN8/9 The basic modulation of digital data in signal generators with Option UN8/9, from memory to RF output, occurs through the following path, as shown in the next ﬁgure. The process order is described following Figure 6-1.
Page 419 ESG Family Signal Generators Theory of Operation Options UN8 and 202 Data and Control Bits in Pattern RAM I/Q Modulator The I/Q modulator supplies the modulating signal to the RF hardware. RF Hardware The RF hardware produces the carrier signal and modulates it with the I/Q modulator. Burst Modulator The burst modulator controls the amplitude of the RF signal.
Page 420 Theory of Operation ESG Family Signal Generators Alternate Amplitude and Alternate Timeslot Amplitude Control (Option UNA only) Options UN8 and 202 Alternate Amplitude and Alternate Timeslot Amplitude Control (Option UNA only) The Alternate Amplitude Control feature comprises two separate subsystems, Alternate Amplitude and Alternate Timeslot Amplitude.
Page 421 ESG Family Signal Generators Theory of Operation Options UN8 and 202 Alternate Amplitude and Alternate Timeslot Amplitude Control (Option UNA only) Table 6-2. Summary of Firmware Couplings Mode Pattern/Framed RF Output General State Data State Trigger Comments Frame Assigned (at least one MAIN or timeslot ON with DELTA power...
Page 422 Theory of Operation ESG Family Signal Generators Burst Shape: The Effects of Symbol Rate & Modulation Type Options UN8 and 202 Burst Shape: The Effects of Symbol Rate & Modulation Type Burst shape maximum rise and fall time values are affected by the following factors: •...
Page 423 ESG Family Signal Generators Theory of Operation Options UN8 and 202 Burst Shape: The Effects of Symbol Rate & Modulation Type increases when you turn bursting on, you can adjust the burst shape to assist with troubleshooting. Real-Time I/Q Baseband Generator User’s and Programming Guide...
Page 424 Theory of Operation ESG Family Signal Generators Data Clock Timing Patterns Options UN8 and 202 Data Clock Timing Patterns The following timing diagram shows the following information: • external DATA CLOCK INPUT signal in normal and symbol modes • SYMBOL SYNC INPUT signal in continuous and single modes •...
Page 425 ESG Family Signal Generators Theory of Operation Options UN8 and 202 Digital Modulation Input/Output Relationships Digital Modulation Input/Output Relationships With Option 1EM, all connectors are located on the rear panel. NOTE The baseband generator’s clock can be internally or externally supplied, and the external data clock can be set to a normal bit clock or a symbol clock.
Page 426 Theory of Operation ESG Family Signal Generators Understanding Differential Data Encoding Options UN8 and 202 Understanding Differential Data Encoding In digital modulation formats such as GSM, digital data (1’s and 0’s) are encoded, modulated onto a carrier frequency and subsequently transmitted to a receiver. In contrast to differential encoding (described on page 2-30), differential data encoding modiﬁes the data stream prior to I/Q mapping.
Page 427 ESG Family Signal Generators Theory of Operation Options UN8 and 202 Understanding Differential Encoding Understanding Differential Encoding Differential encoding is a digital-encoding technique whereby a binary value is denoted by a signal change rather than a particular signal state. Using differential encoding, binary data in any user-deﬁned I/Q or FSK modulation can be encoded during the modulation process via symbol table offsets deﬁned in the Differential State Map.
Page 428 Theory of Operation ESG Family Signal Generators Understanding Differential Encoding Options UN8 and 202 2nd Symbol 1st Symbol Data = 00000001 Data = 00000000 Distinct values: -1, +1 Distinct values: +1, +1 3rd Symbol 4th Symbol Data = 00000010 Data = 00000011 Distinct values: -1, -1 Distinct values: +1, -1 How Differential Encoding Works...
Page 429 ESG Family Signal Generators Theory of Operation Options UN8 and 202 Understanding Differential Encoding Entering a value of +1 will cause a 1-state forward transition through the I/Q State Map, as shown in the following illustration. NOTE The following I/Q State Map illustrations show all of the possible state transitions using a particular symbol table offset value.
Page 430 Theory of Operation ESG Family Signal Generators Understanding Differential Encoding Options UN8 and 202 0011100001 appear in the following illustration. 1st Symbol 5th Symbol 3rd Symbol Data = 0011100001 4th Symbol 2nd Symbol Data Value Symbol Table Offset As you can see from the previous illustration, the 1st and 4th symbols, having the same data value (00), produce the same state transition (forward 1 state).
Page 431 Index Symbols B2 softkey 3-22 Base softkey 3-22 % softkey BBG Data Clock Ext Int softkey 3-22 π/4DQPSK softkey Begin Frame softkey 3-22 Begin Pattern softkey 3-23 Numerics Begin Timeslot softkey 3-23 13 MHz reference 3-89 Beta softkey 3-24 1500 MHz Base softkey 3-18 Bit Clock softkey 3-24...
Page 432 Index coded digital veriﬁcation color code 3-28 CSID softkey 3-63 NADC 3-39 3-60 custom modulation format overview coefﬁcient values (FIR), entering 2-26 Custom Off On softkey 3-64 color code Custom softkey 3-64 3-28 3-40 3-61 3-62 custom timeslot Conﬁgure Access softkey 3-29 3-41 3-44...
Page 433 Index differential state map Edit Item softkey 3-85 bits per symbol 6-11 Edit Rise Shape softkey 3-85 editing 2-12 Editing Keys softkeys 3-84 table editor 2-12 E-GSM Base softkey 3-82 understanding the editor 6-12 E-GSM Mobile softkey 3-82 digital modulation encoding, differential data 6-10 custom FSK...
Page 434 Index extended tail, GSM 3-29 FIX4 softkey 3-96 External 13 MHz Off On softkey 3-89 frame burst 4-101 Frame Repeat Single Cont softkey 3-97 frame trigger softkey 3-98 FACC softkey 3-90 Frame Trigger softkey 3-98 Fall Delay softkey 3-90 Freq Channels Off On softkey 3-99 Fall Time softkey 3-91...
Page 435 Index GSM 450/850 Mobile softkey 3-105 Insert softkey 3-108 GSM 480 Mobile softkey 3-105 IS-95 and IS-2000 softkey 3-109 GSM 850 Base softkey 3-105 IS-95 Mod softkey 3-109 GSM 850 Mobile softkey 3-106 IS-95 Mod w/EQ softkey 3-110 GSM format overview IS95 OQPSK softkey 3-110 GSM Off On softkey...
Page 436 Index None softkey 3-119 PN softkeys PN Sequence 3-135 Normal All softkey 3-120 PN11 3-130 Normal softkey 3-120 PN15 3-131 Number of Bits softkey 3-120 PN20 3-133 Nyquist softkey 3-120 PN23 3-134 3-129 PN11 softkey 3-130 Offset Q Off On softkey 3-122 PN15 softkey 3-131...
Page 437 Index QPSK softkeys (Continued) IS95 QPSK 3-111 S softkey 3-148 OQPSK 3-123 SA softkey 3-148 π/4DQPSK SACCH softkey 3-149 QPSK 3-139 Save Secondary Frame State softkey 3-149 QPSK and OQPSK 3-140 SCPI commands A ﬁeld portable part ramp time low capacity timeslot 3-40 3-62 low capacity with Z field timeslot...
Page 438 Index data SCPI commands (Continued) SCPI commands (Continued) PDC unframed transmission 4-29 ﬁlter PHS unframed transmission 4-29 alpha 4-38 TETRA unframed transmission 4-30 bandwidth-multiplied-by-bit-time (BbT) 4-38 data clock input conﬁguration 4-14 optimization for EVM or ACP 4-39 type 4-39 data ﬁeld 4-20 access timeslot encryption ﬁeld 4-17...
Page 439 Index FIX4 data SCPI commands (Continued) SCPI commands (Continued) uplink trafﬁc channel timeslot (NADC) 4-47 personal ID code uplink trafﬁc channel timeslot (PDC) 4-48 downlink synchronization channel timeslot 4-64 uplink trafﬁc channel timeslot (PHS) 4-49 uplink synchronization channel timeslot 4-64 frame repeat 4-35 phase polarity...
Page 440 Index SCPI commands (Continued) training sequence ﬁeld SCPI commands (Continued) synchronization word ﬁeld uplink synchronization channel timeslot 4-87 downlink trafﬁc channel timeslot (NADC) 4-74 uplink trafﬁc channel timeslot 4-87 downlink trafﬁc channel timeslot (PDC) 4-74 uplink trafﬁc channel timeslot (NADC) 4-74 trigger source 4-86...
Page 441 Index softkeys (Continued) softkeys (Continued) B ﬁeld 3-21 Conﬁgure Up Normal 3-59 3-21 Conﬁgure Up TCH 3-60 3-61 3-22 Conﬁgure Up VOX 3-62 Base 3-22 Control Channel Dnlink Uplink 3-63 BBG Data Clock Ext Int 3-22 Copy File 3-63 Begin Frame 3-22 Create a File 3-63...
Page 442 Index softkeys (Continued) softkeys (Continued) Dummy 3-81 Gray Coded QPSK 3-104 Dummy Bearer 1 3-81 3-104 Dummy Bearer 2 3-81 GSM 450 Base 3-104 3-82 GSM 450 Mobile 3-105 EDGE 3-83 GSM 450/850 Base 3-105 EDGE (Rev 8.3.0 Release 1999) 3-83 GSM 450/850 Mobile 3-105...
Page 443 Index softkeys (Continued) softkeys (Continued) Nyquist 3-120 R-GSM Mobile 3-146 Offset Q Off On 3-122 Rise Delay 3-146 Optimize FIR For EVM ACP 3-122 Rise Time 3-146 option UN8 Root Nyquist 3-147 OQPSK 3-123 3-148 Other Patterns 3-124 3-148 Oversample Ratio 3-125 SACCH 3-149...
Page 444 Index softkeys (Continued) synchronization word ﬁeld 3-39 3-60 Up Custom 3-167 Up Normal 3-169 Up TCH 3-169 T1 softkey 3-158 Up TCH All 3-169 T2 softkey 3-158 Up VOX 3-170 table editors Uplink MCS-1 3-168 differential state map 2-12 Uplink MCS-5 3-168 2-22 Uplink MCS-9...
Page 445 Index Uncoded softkey 3-166 unique word display ﬁeld 3-51 3-52 unique word softkey 3-173 Up Control 1 softkey 3-166 Up Control 2 softkey 3-167 Up Custom softkey 3-167 Up Normal softkey 3-169 Up TCH All softkey 3-169 Up TCH softkey 3-169 Up VOX softkey 3-170...
Page 446 Index I-16 Index...

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