Page 1 Spectrum Analyzer GSP-9330 PROGRAMMING MANUAL ISO-9001 CERTIFIED MANUFACTURER...
Page 2 This manual contains proprietary information, which is protected by copyright. All rights are reserved. No part of this manual may be photocopied, reproduced or translated to another language without prior written consent of Good Will company. The information in this manual was correct at the time of printing. However, Good Will continues to improve products and reserves the rights to change specification, equipment, and maintenance procedures at any time without notice.
Page 3: Table Of Contents
Table of Contents Table of Contents SAFETY INSTRUCTIONS ..........2 GETTING STARTED ............7 GSP-9330 Introduction ......8 Accessories .......... 11 Appearance .......... 12 REMOTE CONTROL ............25 Interface Configuration ......26 Command Syntax ......... 49 Status Registers ........55 Command List ........
Page 4: Safety Instructions
GSP-9330 Programming Manual AFETY INSTRUCTIONS This chapter contains important safety instructions that you must follow during operation and storage. Read the following before any operation to ensure your safety and to keep the instrument in the best possible condition. Safety Symbols These safety symbols may appear in this manual or on the instrument.
Page 5: Safety Guidelines
SAFETY INSTRUCTIONS Safety Guidelines Do not place any heavy object on the General  Guideline instrument. Avoid severe impact or rough handling that  CAUTION leads to damaging the instrument. Do not discharge static electricity to the  instrument. Use only mating connectors, not bare wires, for ...
Page 6 GSP-9330 Programming Manual Rating: 10.8V, 6 cell Li-ion battery Battery  Turn off the power and remove the power cord  CAUTION before installing or removing the battery. Disconnect the power cord before cleaning. Cleaning  Use a soft cloth dampened in a solution of mild ...
Page 7 SAFETY INSTRUCTIONS Do not dispose this instrument as unsorted Disposal municipal waste. Please use a separate collection facility or contact the supplier from which this instrument was purchased. Please make sure discarded electrical waste is properly recycled to reduce environmental impact.
Page 8 GSP-9330 Programming Manual Power cord for the United Kingdom When using the instrument in the United Kingdom, make sure the power cord meets the following safety instructions. NOTE: This lead/appliance must only be wired by competent persons WARNING: THIS APPLIANCE MUST BE EARTHED...
Page 9: Getting Started
GETTING STARTED ETTING STARTED This chapter provides a brief overview of the GSP-9330, the package contents and an introduction to the front panel, rear panel and GUI. GSP-9330 Introduction ............. 8 Main Features ..............8 Accessories ..............11 Appearance ..............12 GSP-9330 Front Panel ..........
Page 10: Gsp-9330 Introduction
GSP-9330 Programming Manual GSP-9330 Introduction The GSP-9330 builds on the strong feature set of the GSP-9300 and significantly increases performance in almost every aspect; making this the most comprehensive and feature-rich spectrum analyzer GW Instek has released. Like the GSP-9300, the GSP-9330 features a split window display to view data in spectrum, topographic or spectrographic views.
Page 11 GETTING STARTED Gate sweep  Marker Frequency counter  Two operating modes: Spectrum and Power  Meter mode EMI Pretest functions  SEM measurement  ACPR measurement  OCBW measurement  2FSK measurement  Phase jitter measurement  Harmonics measurement ...
Page 12 GSP-9330 Programming Manual 8.4 color LCD (800600) Interface  On-screen menu icons  DVI-I video output  RS-232 with RTS/CTS hardware flow control  USB 2.0 with support for USB TMC  LAN TCP/IP with LXI support  Optional GPIB/IEEE488 interface ...
Page 13: Accessories
USB Average Power Sensor (up to 6200 MHz; -32 to 20 dBm) GRA-415 6U Rack mount kit Software Downloads PC Software for Windows System IVI Driver Supports LabView & LabWindows/CVI Programming Android System (“GSP-9330 Remote Control”, available on Google Play.)
Page 14: Appearance
GSP-9330 Programming Manual Appearance GSP-9330 Front Panel Function Main Control File keys display keys keys keys Power key Marker keys GSP-9330 Spectrum Analyzer CONTROL 9 kHz 3.25GHz Sweep Fast/ Frequency BW / AVG Sweep Mode Normal FILE MARKER AUXILIARY Span...
Page 15 GETTING STARTED Sets the span, with options for full Span span, zero span and last span. Sets the amplitude reference level, Amplitude attenuation, pre-amplifier controls, scale and other options for attenuation and scale. Automatically searches the peak Autoset signal with maximum amplitude and displays it with appropriate horizontal and vertical scales.
Page 16 GSP-9330 Programming Manual The Display key configures the Display windowing mode and basic display properties. Sets the triggering modes. Trigger File utilities options File File Save the trace, state etc., and save Save options. Recall the trace, state etc., and Recall recall options.
Page 17 GETTING STARTED The Preset key will restore the Preset / Local key Preset spectrum analyzer to the Factory LOCAL or User Preset settings. The Preset key will also return the instrument back to local control after it has been in remote control mode.
Page 18 GSP-9330 Programming Manual SMB port supplies power for DC power supply optional accessories. 500mA MAX. DC +7V DC 7V  OUTPUT 500mA Max.  The numeric Numeric keypad keypad is used to enter values and parameters. It is often used in...
Page 19: Rear Panel
GETTING STARTED Rear Panel IF OUT DVI-I USB-B, Power port LAN port socket RS232 port TRIG IN/GATE AC 100 AC 100 240V 240V 60 Hz 60 Hz 82W MAX. 82W MAX. IN port ALARM OUT/ OPEN COLLECTOR REF OUT REF IN Battery cover/ GPIB port Optional...
Page 20 GSP-9330 Programming Manual Power Socket: Power Socket 100~240V, 50/60Hz. Voltage: 10.8V Battery pack Capacity: 5200mAH BNC female reference input. REF IN BNC female reference output: REF OUT 10MHz, 50Ω impedance Security Lock BNC female open collector Alarm ALARM OUT output.
Page 21 GETTING STARTED RJ-45 10Base-T/100Base-Tx...
Page 22: Display
GSP-9330 Programming Manual Display Attenuation Date Marker Function level and time information LXI icon menu Sweep Scale and settings Reference level Trace/ Detection settings Traces and waveforms Unassigned setting Sweep icons progress Sweep, Trigger, Entry / Pre-amp Frequency/Bandwidth Status icons...
Page 23 GETTING STARTED Soft menu keys associated with the F1 to F7 Function menu function keys to the right of the display. This icon displays the sweep mode, Sweep Mode as set by the Sweep Mode key. Sweep icon that shows the sweep Sweep settings status.
Page 24 GSP-9330 Programming Manual Main display showing the input signals, traces, Trace and limit lines and marker positions. waveforms The sweep progress bar shows the progress of Sweep progress slow sweeps (greater than 2 seconds).
Page 25: Status Icon Overview
GETTING STARTED Status Icon Overview Indicates that the 3G adapter is 3G Adapter installed and turned on. Indicates that the demo kit is Demo Kit installed and turned on. Indicates that the pre amplifier is PreAmp Shown when running on AC power.
Page 26 GSP-9330 Programming Manual Indicates that the Average function Average is active. Indicates that the system is now External Lock locked and refers to the external reference input signal External trigger signal is being External Trigger used. Trace math is being used.
Page 27: Remote Control
REMOTE CONTROL EMOTE CONTROL This chapter describes the basic configuration of IEEE488.2 based remote control. This chapter includes interface configuration, a remote control overview as well as the control syntax and commands. Interface Configuration ..........26 Command Syntax ............49 Status Registers .............
Page 28: Interface Configuration
GSP-9330 Programming Manual Interface Configuration Configure to USB Remote Interface Type A, host PC side configuration connector Rear panel Type B, slave GSP side connector 1.1/2.0 (full speed/high speed) Speed USB TMC (USB T&M class) USB Class 1. Connect the USB cable to the rear Panel operation panel USB B port.
Page 29 No loop or parallel connection  Configure the LAN and LXI Interface The GSP-9330 is a class C LXI compliant instrument. The LXI specification allows instrumentation to be configured for remote control or monitoring over a LAN or WLAN. The GSP-9330 also supports HiSlip.
Page 30 GSP-9330 Programming Manual Settings 1. Press >More[F7]>RmtInterface[F1]> System LAN[F2]>LAN Config[F1] to set the LAN settings: Sets the IP address. IP Address[F1] Sets the subnet mask. Subnet Mask[F2] Default Gateway[F3] Sets the default gateway. Sets the DNS server address DNS Server[F4]...
Page 31 REMOTE CONTROL Limitations: No spaces  Only 1~9, A~Z, a~z characters allowed  ABCDE FGHIJ KLMNO Lowercase PQRST Return Rename> UVWXY Return Return Cancel password Menu tree to enter the password 5. The password appears on the bottom of the screen as it is created.
Page 32 The WLAN settings operate using any standard 3G USB modem. For remote locations, using a 3G modem allows you to access the GSP-9330 web server or to control the GSP-9330 via remote control commands. To use the GSP-9330 as a server using a 3G...
Page 33 REMOTE CONTROL Connect the 3G USB modem to the front panel Connection USB A port. The 3G status icon will appear when the 3G USB adapter is connected. When it is first connected it will be grayed-out to indicate that it is connected but not activated.
Page 34 GSP-9330 Programming Manual WLAN settings Display Icon The 3G USB icon turns green when a successful connection has been made. The password on the LXI webpage can be set Set Password from the spectrum analyzer. The password is shown in the system information.
Page 35 REMOTE CONTROL ABCDE FGHIJ KLMNO Lowercase PQRST Return Rename> UVWXY Return Return Cancel password Menu tree to enter the password 6. The password appears on the bottom of the screen as it is created. Password 7. Press to confirm setting the password. Enter Hi SLIP Port 8.
Page 36 GSP-9330 Programming Manual It may be necessary to reset the LAN Reset LAN configuration settings before the LAN can be used. 9. Press >More[F7]>RmtInterface System Config[F1]>LAN Reset[F3] to reset the LAN. 10. It may take a few moments before the LAN is reset.
Page 37 REMOTE CONTROL Configure RS232C The RS232C interface is used for remote control Background with a PC. RS232C Baud Rate Stop bit: 1 (fixed) Configuration Parity: none (fixed) Data bit: 8 (fixed) settings Connect an RS232C cable from Connection the PC to the rear panel RS232 port.
Page 38 Serial number, and Firmware version in the following format. GWINSTEK,GSP9330,XXXXXXXX,V3.X.X.X  Manufacturer: GWINSTEK Model number : GSP9330 Serial number : XXXXXXXX Firmware version : V3.X.X.X For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com.
Page 39 The Welcome Page lists all the LXI and Welcome Page LAN/WLAN configuration settings as well as the instrument identification. The instrument identification can be disabled from this page. The LXI icon on the GSP-9330 display will Note flash when the Identification setting is turned on.
Page 40 GSP-9330 Programming Manual The View & Modify Configuration allows you View & Modify to modify the LAN settings from the browser. Configuration Press the Modify Configuration button to modify any of the configuration files. A password must be entered to alter the settings.
Page 41 [Note: password is case sensitive.] The Get Image page allows the browser to Get Image remotely capture a screenshot of the GSP-9330 display. For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com.
Page 42 GSP-9330 Programming Manual GPIB Function Check To test the GPIB functionality, National Background Instruments Measurement and Automation Explorer can be used. This program is available on the NI website, www.ni.com., via a search for the VISA Run-time Engine page, or “downloads”...
Page 43 REMOTE CONTROL 4. Select the device (GPIB address of GSP-9330) that now appears in the System>Devices and Interfaces > “GPIBX” >”Instrument X” node. 5. Click on the VISA Properties tab on the bottom. 6. Click Open Visa Test Panel.
Page 44 GSP-9330 Programming Manual 7. Click on Configuration. 8. Click on the GPIB Settings tab and confirm that the GPIB settings are correct. 9. Click on the I/O Settings tab. 10. Make sure the Enable Termination Character check box is checked, and the terminal character is \n (Value: xA).
Page 45 REMOTE CONTROL 14. Enter *IDN? in the Select or Enter Command drop down box. 15. Click Query. 16. The *IDN? query will return the Manufacturer, model name, serial number and firmware version in the dialog box. GWINSTEK,GSP9330,ENXXXXXX,V3.X.X.X...
Page 46 VISA Run-time Engine page, or “downloads” at the following URL, http://www.ni.com/visa/ In addition the IVI driver for the GSP-9330 must also be downloaded. The IVI driver can also be downloaded from the NI website with a search for the GSP-9330 in the thirdparty drivers section.
Page 47 2. From the Windows Device Manager sure the IVI driver recognizes the USB connection. The GSP-9330 will be recognized as a USB Test and Measurement device (IVI) when the connection is successful. If the connection is not recognized, reinstall the IVI driver and set the interface to USB again.
Page 48 GSP-9330 Programming Manual 4. Select the GSP-9330 device that now appears in the System>Devices and Interfaces > GSP9330“USBX…” node. 5. Click on the VISA Properties tab on the bottom. 6. Click Open Visa Test Panel.
Page 49 REMOTE CONTROL 7. Click on the I/O Settings tab. 8. Make sure the Enable Termination Character check box is checked, and the terminal character is \n (Value: xA). 9. Click Apply Changes. 10. Click on Input/Output. 11. Click on the Basic/IO tab. 12.
Page 50 GSP-9330 Programming Manual...
Page 51: Command Syntax
REMOTE CONTROL Command Syntax Full compatibility IEEE488.2 Compatible Full compatibility Standard SCPI, 1999 SCPI (Standard Commands for Programmable Command Instruments) commands follow a tree-like Structure structure, organized into nodes. Each level of the command tree is a node. Each keyword in a SCPI command represents each node in the command tree.
Page 52 GSP-9330 Programming Manual A query is a simple or Query compound command followed by a question mark (?). A parameter (data) is returned. :CALCulate:CSO:STATe? Example Two or more commands on the Compound same command line. Compound commands are separated with either a semi- colon (;) or a semi-colon and a...
Page 53 REMOTE CONTROL Commands and queries have two different Command Forms forms, long and short. The command syntax is written with the short form of the command in capitals and the remainder (long form) in lower case. The commands can be written in capitals or lower-case, just so long as the short or long forms are complete.
Page 54 GSP-9330 Programming Manual Common Type Description Example Input Parameters Boolean logic 0, 1 <Boolean> integers 0, 1, 2, 3 <NR1> decimal numbers 0.1, 3.14, 8.5 <NR2> floating point 4.5e-1, 8.25e+1 <NR3> any of NR1, 2, 3 1, 1.5, 4.5e-1 <NRf>...
Page 55 REMOTE CONTROL Input: 30 mv <ampl> NR3 +unit type Note: The unit can be omitted. (Unit defaults to current y-axis unit). Return: <NR3> 3.0e-2 Note: Units = current y axis unit. <trace name> <NR1> trace1 Input: <time> <NR3> + unit 2.3e-6 ms Unit = ms, ns, ps, ks Note: The unit can be omitted...
Page 56 GSP-9330 Programming Manual Note: <digits> represents the data block length descriptor. Expressed as an integer number equal to the total number of <8 bit data bytes> that follows. <nonzero digit> represents the number of digits that are part of the data block length descriptor.
Page 57: Status Registers
REMOTE CONTROL Status Registers Status Registers Overview The status registers are used to determine the Description status of the spectrum analyzer. The status registers maintain the status of the pass/fail limits, trigger status and other operation statuses. The status registers are arranged in a number of groups: Questionable Status Registers ...
Page 58 GSP-9330 Programming Manual Questionable Questionable Questionable Questionable Questionable Operation Status Status Status ACP Limit Status SEM Status TOI Limit Status Demod Register Frequency Register Limit Register Register Fail Register Register Not used Not used Not used Not used Offset 5...
Page 59 Event Enable Register  The condition registers report the state of the Condition GSP-9330. Condition registers can only be read. Registers The positive transistion registers are used to PTR Registers filter for events that occur from a negative to a positive transition.
Page 60 GSP-9330 Programming Manual To higher order register Condition Event PTR / Enable Register Register Register & & & & & & & & & & Status Byte Register (STB) The Status Byte register consolidates the status Overview events of all the status registers. The Status Byte register can be cleared with the *CLS command.
Page 61 REMOTE CONTROL ESB: This is the summary bit for the Standard Event Register. MSS/RQS: The MSS bit is the summary bit for the Service Request Enable Register. The RQS bit is set to 1 when the MSS bit is set to 1. Operation Status Summary Bit: This is the summary bit for the Operation Status Register.
Page 62 GSP-9330 Programming Manual Operation Status Register The Operation Status Register Group indicates Overview the operating status of the GSP-9330. Bit Summary Weight Description Sweeping: Indicates that a sweep is in progress. Measuring: The instrument is currently performing a measurement. Waiting for Trigger: The instrument is in a “wait for trigger”...
Page 63 REMOTE CONTROL 16384 2FSK Fail: This bit is set to 1 when the 2FSK fail conditions are met. 32768 Demod Fail: This is the summary bit for the Demod Fail Register.
Page 64 GSP-9330 Programming Manual Questionable Status Frequency Register The Questionable Status Frequency Register Overview indicates if the span or BW settings are invalid. Bit Summary Weight Description Invalid Span or BW: This bit is set to 1 when there is an invalid span or bandwidth (setting) during the frequency count.
Page 65 REMOTE CONTROL Questionable Status SEM Limit Register The Questionable Status SEM Limit Register Overview Group indicates if any of the SEM offset limits have been tripped. Bit Summary Weight Description Offset 1 Upper Fail: This bit is set to 1 when the SEM Offset 1 upper limit has been violated.
Page 66 GSP-9330 Programming Manual Questionable Status TOI Limit Register The Questionable Status TOI Limit Register Overview Group indicates if the 3rd Order Upper or Lower limit has been tripped. Bit Summary Weight Description 3rd Upper Fail: This bit is set to 1 when the 3rd Order Upper limit has been tripped.
Page 67: Command List
REMOTE CONTROL Command List *CLS ................77 SCPI Commands *IDN? ................77 *ESE ................78 *ESR? ................78 *OPC ................78 *RST ................79 *SRE ................79 *STB? ................79 *TST? ................79 *WAI ................80 :CALCulate:ACPR:ACHannel<n>:HLIMit:FAIL? 83 CALCulate :CALCulate:ACPR:ACHannel<n>:LLIMit:FAIL? . 83 Commands :CALCulate:ACPR:ACHannel<n>:LOWer? ...
Page 68 GSP-9330 Programming Manual :CALCulate:DELTamarker<n>:X ......92 :CALCulate:DELTamarker<n>:Y? ......92 :CALCulate:DEMod:AM:RESult:CURRent? ... 93 :CALCulate:DEMod:AM:RESult:MINimum? ..93 :CALCulate:DEMod:AM:RESult:MAXimum? ..94 :CALCulate:DEMod:AM:STATe ....... 94 :CALCulate:DEMod:EARPhone:STATe ....95 :CALCulate:DEMod:FM:RESult:CURRent? ... 95 :CALCulate:DEMod:FM:RESult:MINimum? ..95 :CALCulate:DEMod:FM:RESult:MAXimum? ..96 :CALCulate:DEMod:FM:STATe ....... 96 :CALCulate:DEMod:LIMit:AMDepth ...... 97 :CALCulate:DEMod:LIMit:FDEViation ....97 :CALCulate:DEMod:LIMit:CARRier:OFFSet ..
Page 69 REMOTE CONTROL :CALCulate:MARKer<n>:FCOunt:RESolution .. 108 :CALCulate:MARKer<n>:FCOunt: RESolution:AUTO ............. 109 :CALCulate:MARKer<n>:FCOunt:STATe ..110 :CALCulate:MARKer<n>:FCOunt:X? ....110 :CALCulate:MARKer<n>:NOISe:STATe..... 110 :CALCulate:MARKer<n>:NOISe:Y? ..... 111 :CALCulate:MARKer<n>:PEAK ......111 :CALCulate:MARKer:PEAK:CTRack:STATe ..112 :CALCulate:MARKer:PEAK:DATA? ....112 :CALCulate:MARKer:PEAK:EXCursion ....112 :CALCulate:MARKer:PEAK:SORT:TYPE ... 113 :CALCulate:MARKer:PEAK:TABLe:STATe ..113 :CALCulate:MARKer:PEAK:THReshold ....114 :CALCulate:MARKer:PEAK:THReshold:STATe 114 :CALCulate:MARKer<n>:SET .......
Page 70 GSP-9330 Programming Manual :CALCulate:TOI:DIFFerential? ........126 :CALCulate:TOI:FREQuency:DIFFerential? ..126 :CALCulate:TOI:LIMit:STATe ........126 :CALCulate:TOI:RESult? ..........127 :CALCulate:TOI:STATe ..........127 :CONFigure:MODE...........128 CONFigure Commands :DISPlay:BRIGhtness ..........131 DISPlay :DISPlay:ENABle ............131 Commands :DISPlay:DEMod[:WINDow]:SYMBol:DATA?...131 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe]: AUTO ................132 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe] :PDIVision ..............132 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe] :RPOSition ..............133 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe] :RVALue ...............133 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe] :AUTO ................133 :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe] :PDIVision ..............134...
Page 71 REMOTE CONTROL :DELTamarker:INVerse:TIME? ......137 :DISPlay[:WINDow]:SPECtrogram :DELTamarker:TIME? ..........138 :DISPlay[:WINDow]:SPECtrogram:MARKer :STATe ................138 :DISPlay[:WINDow]:SPECtrogram:MARKer:X .. 138 :DISPlay[:WINDow]:SPECtrogram:MARKer:Y .. 139 :DISPlay[:WINDow]:SPECtrogram:MARKer :FREQuency? ............... 139 :DISPlay[:WINDow]:SPECtrogram:MARKer :AMPLitude? ..............139 :DISPlay[:WINDow]:SPECtrogram:MARKer :TIME? ................140 :DISPlay[:WINDow]:SPLit:NORMal:ALTernate . 140 :DISPlay[:WINDow]:SPLit:NORMal:ACTive ..140 :DISPlay[:WINDow]:SPLit:SPECtrogram ..... 141 :DISPlay[:WINDow]:SPLit:TOPO ......
Page 72 GSP-9330 Programming Manual :DISPlay[:WINDow]:TRACe:Y[:SCALe]: RLEVel:OFFSet ............149 :DISPlay[:WINDow]:TRACe:Y[:SCALe]:SPACing149 :DISPlay[:WINDow]:TRACe:Y[:SCALe]:STATe .149 :INITiate:CONTinuous ..........151 INITiate :INITiate[:IMMediate] ..........151 Commands :INPut:ATTenuation ..........152 INPut :INPut:ATTenuation:AUTO ........152 Commands :INPut:IMPedance ............153 :INPut:OFFSet ............153 :MMEMory:CATalog? ..........154 MMEMory :MMEMory:CDIRectory ..........155 commands :MMEMory:COPY ............155 :MMEMory:DELete ...........156 :MMEMory:DESTination ..........156 :MMEMory:LOAD:CORRection ......157 :MMEMory:LOAD:LIMit .........157 :MMEMory:LOAD:PMETer ........157...
Page 73 REMOTE CONTROL [:SENSe]:ACPR:ACHannel<n>:HLIMit ....166 [:SENSe]:ACPR:ACHannel<n>:LLIMit ....167 [:SENSe]:ACPR:ACHannel<n>:OFFSet ....167 [:SENSe]:ACPR:BANDwidth|BWIDth ....167 [:SENSe]:ACPR:HLIMit ..........168 [:SENSe]:ACPR:LLIMit ..........168 [:SENSe]:ACPR:HELP:STATe ........ 168 [:SENSe]:ACPR:SPACe ..........169 [:SENSe]:ASET:AMPLitude ........169 [:SENSe]:ASET:AMPLitude:AUTO ....... 169 [:SENSe]:ASET:RUN..........170 [:SENSe]:ASET:SPAN ..........170 [:SENSe]:ASET:SPAN:AUTO ......... 170 [:SENSe]:AVERage:COUNt ........
Page 74 GSP-9330 Programming Manual [:SENSe]:DEMod:SYNC:BITS ........181 [:SENSe]:DEMod:SYNC:WORDs ......182 [:SENSe]:DETector[:FUNCtion] ......182 [:SENSe]:DETector[:FUNCtion]:AUTO ....183 [:SENSe]:EMIFilter:STATe ........183 [:SENSe]:EMIFilter:BANDwidth|BWIDth [:RESolution] ..............184 [:SENSe]:FREQuency:CENTer .......184 [:SENSe]:FREQuency:CENTer:STEP ....184 [:SENSe]:FREQuency:CENTer:STEP:AUTO ..185 [:SENSe]:FREQuency:OFFSet .........185 [:SENSe]:FREQuency:SPAN ........185 [:SENSe]:FREQuency:SPAN:FULL .......186 [:SENSe]:FREQuency:SPAN:PREVious ....186 [:SENSe]:FREQuency:STARt ........186 [:SENSe]:FREQuency:STOP ........186 [:SENSe]:HARMonic:FUNDamental:FREQuency187 [:SENSe]:HARMonic:NUMBer ........187 [:SENSe]:LIMit<n>:DELete ........187 [:SENSe]:JITTer:OFFSet:STARt ......188 [:SENSe]:JITTer:OFFSet:STOP .......188...
Page 75 REMOTE CONTROL [:SENSe]:SEMask:FREQuency:SPAN ....195 [:SENSe]:SEMask:GWLan:MODulation ....196 [:SENSe]:SEMask:HELP:STATe ......196 [:SENSe]:SEMask:NWLan:CHANnel: BANDwidth|BWIDth..........196 [:SENSe]:SEMask:OFFSet<n>:ADDition: BANDwidth|BWIDth[:RESolution]? ....197 [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STARt? ..........199 [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STOP?............ 199 [:SENSe]:SEMask:OFFSet<n>:ADDition: STARt:ABSolute? ............200 [:SENSe]:SEMask:OFFSet<n>:ADDition: STOP:ABSolute? ............200 [:SENSe]:SEMask:OFFSet<n>:BANDwidth| BWIDth[:RESolution] ..........200 [:SENSe]:SEMask:OFFSet<n>:BANDwidth|BWID th[:RESolution]:AUTO ..........201 [:SENSe]:SEMask:OFFSet<n>:FREQuency:STARt201 [:SENSe]:SEMask:OFFSet<n>:FREQuency:STOP202 [:SENSe]:SEMask:OFFSet<n>:STARt:ABSolute 202...
Page 76 GSP-9330 Programming Manual [:SENSe]:SEMask:WIMax:CHANnel: BANDwidth|BWIDth ..........210 [:SENSe]:SEQuence<n>:DELete ......210 [:SENSe]:SWEep:EGATe:DELay......210 [:SENSe]:SWEep:EGATe:LENGth ......211 [:SENSe]:SWEep:EGATe:STATe ......211 [:SENSe]:SWEep:MODE ..........211 [:SENSe]:SWEep:TIME ..........212 [:SENSe]:SWEep:TIME:AUTO .......212 [:SENSe]:TOI:REFerence .........212 [:SENSe]:TOI:LIMit ...........213 :SOURce:P1DB:TYPE ..........214 SOURce :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude]214 commands :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :OFFSet .................215 :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :STEP................215 :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :STEP:AUTO ...............216 :SOURce:POWer:MODE .........216 :SOURce:POWer:SWEep ..........216 :SYSTem:ALARm:STATe .........218...
Page 77 REMOTE CONTROL :SYSTem:TIME ............224 :SYSTem:UPDate ............224 :SYSTem:VERSion:HARDware? ......224 :SYSTem:VERSion:SOFTware? ....... 225 :STATus:OPERation:CONDition? ......226 STATus :STATus:OPERation:ENABle ......... 227 commands :STATus:OPERation[:EVENt]?....... 227 :STATus:OPERation:NTRansition ......228 :STATus:OPERation:PTRansition ......228 :STATus:QUEStionable:CONDition? ....229 :STATus:QUEStionable:ENABle ......229 :STATus:QUEStionable[:EVENt]? ......230 :STATus:QUEStionable:NTRansition ....230 :STATus:QUEStionable:PTRansition .....
Page 78 GSP-9330 Programming Manual :TRIGger[:SEQuence]:DEMod:BIT:STARt ..245 commands :TRIGger[:SEQuence]:DEMod:BIT:STOP ...245 :TRIGger[:SEQuence]:DEMod:DELay ....245 :TRIGger[:SEQuence]:DEMod:EXTernal:SLOPe246 :TRIGger[:SEQuence]:DEMod:INTernal ....246 :LEVel ................246 :TRIGger[:SEQuence]:DEMod:RFVIDeo .....246 :SLOPe ................246 :TRIGger[:SEQuence]:DEMod:VIDeo:LEVel ..247 :TRIGger[:SEQuence]:DEMod:MODE ....247 :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe ..248 :TRIGger[:SEQuence]:DEMod:SOURce ....248 :TRIGger[:SEQuence]:DEMod:TIME:STARt ..248 :TRIGger[:SEQuence]:DEMod:TIME:STOP ..249 :TRIGger[:SEQuence]:EXTernal:SLOPe ....249 :TRIGger[:SEQuence]:MODE .........249 :TRIGger[:SEQuence]:PMETer:SOURce ....250 :TRIGger[:SEQuence]:SOURce .......250 :TRIGger[:SEQuence]:VIDeo:FREQuency ...250 :TRIGger[:SEQuence]:VIDeo:LEVel .....251...
Page 79 REMOTE CONTROL SCPI Commands *CLS ................77 *IDN? ................77 *ESE ................78 *ESR? ................78 *OPC ................78 *RST ................79 *SRE ................79 *STB? ................79 *TST? ................79 *WAI ................80 *CLS The *CLS command clears the Standard Event Description Status, Operation Status and Questionable Status registers.
Page 80 Returns the instrument identification as a Return parameter <charact character data in the following format: er data> GWINSTEK,GSP-9330,XXXXXXXX,T.X.X.X.X Manufacturer: GWINSTEK Model number : GSP-9330 Serial number : XXXXXXXX Firmware version : V3.X.X.X *ESE Query Sets or queries the Standard Event Status Enable Description register.
Page 81 Returns the bit sum of the Status Byte register Return parameter <NR1> with the MSS bit (bit 6). *TST? Query Returns the result of a self-test. The GSP-9330 does Description not support performing a selftest and thus will always return “0” for this query. Query Syntax *TST? Returns “0”...
Page 82 GSP-9330 Programming Manual *WAI Prevents any other commands or queries from Description being executed until all outstanding commands have completed. Syntax *WAI CALCulate Commands :CALCulate:ACPR:ACHannel<n>:HLIMit:FAIL? 83 :CALCulate:ACPR:ACHannel<n>:LLIMit:FAIL? . 83 :CALCulate:ACPR:ACHannel<n>:LOWer? ... 83 :CALCulate:ACPR:ACHannel<n>:UPPer? ..... 84 :CALCulate:ACPR:ACHannel<n>:STATe ....84 :CALCulate:ACPR:CHANnel:HLIMit:FAIL? ..85 :CALCulate:ACPR:CHANnel:LLIMit:FAIL? ..
Page 83 REMOTE CONTROL :CALCulate:DEMod:AM:RESult:MAXimum? ..94 :CALCulate:DEMod:AM:STATe ....... 94 :CALCulate:DEMod:EARPhone:STATe ....95 :CALCulate:DEMod:FM:RESult:CURRent? ... 95 :CALCulate:DEMod:FM:RESult:MINimum? ..95 :CALCulate:DEMod:FM:RESult:MAXimum? ..96 :CALCulate:DEMod:FM:STATe ....... 96 :CALCulate:DEMod:LIMit:AMDepth...... 97 :CALCulate:DEMod:LIMit:FDEViation ....97 :CALCulate:DEMod:LIMit:CARRier:OFFSet ..97 :CALCulate:DEMod:LIMit:CARRier:POWer ..98 :CALCulate:DEMod:LIMit:FAIL? ......98 :CALCulate:DEMod:LIMit:STATe ......99 :CALCulate:DEMod:ASK:STATe ......
Page 84 GSP-9330 Programming Manual :CALCulate:MARKer<n>:FCOunt:X? ....110 :CALCulate:MARKer<n>:NOISe:STATe ..... 110 :CALCulate:MARKer<n>:NOISe:Y? ..... 111 :CALCulate:MARKer<n>:PEAK ......111 :CALCulate:MARKer:PEAK:CTRack:STATe ..112 :CALCulate:MARKer:PEAK:DATA? ..... 112 :CALCulate:MARKer:PEAK:EXCursion....112 :CALCulate:MARKer:PEAK:SORT:TYPE ... 113 :CALCulate:MARKer:PEAK:TABLe:STATe ..113 :CALCulate:MARKer:PEAK:THReshold ....114 :CALCulate:MARKer:PEAK:THReshold:STATe 114 :CALCulate:MARKer<n>:SET ........ 114 :CALCulate:MARKer<n>:STATe ......115 :CALCulate:MARKer:TABLe:STATe .....
Page 85: Calculate:acpr:achannel:Hlimit:fail
REMOTE CONTROL :CALCulate:TOI:STATe ..........127 :CALCulate:ACPR:ACHannel<n>:HLIMit: FAIL? Query Returns the ACPR upper limit pass/fail judgment Description for the selected adjacent channel. Query Syntax :CALCulate:ACPR:ACHannel<n>:HLIMit:FAIL? Parameter <n> <NR1>adjacent channel 1~3 Return parameter 0 <boolean>Pass <boolean>Fail Query Example :CALC:ACPR:ACH1:HLIM:FAIL? >0 :CALCulate:ACPR:ACHannel<n>:LLIMit: FAIL? Query Returns the ACPR lower limit pass/fail judgment Description...
Page 86: Calculate:acpr:achannel:Upper
GSP-9330 Programming Manual Parameter <n> <NR1>adjacent channel 1~3 Return parameter <NR3> Power ratio in dB Query Example :CALC:ACPR:ACH1:LOW? >1.801e+01 :CALCulate:ACPR:ACHannel<n>:UPPer? Query Returns the ACPR (adjacent channel power ratio in Description dB) calculated for the selected higher adjacent channel. Query Syntax :CALCulate:ACPR:ACHannel<n>:UPPer?
Page 87: Calculate:acpr:channel:hlimit:fail
REMOTE CONTROL :CALCulate:ACPR:CHANnel:HLIMit:FAIL? Query Returns the ACPR upper limit pass/fail judgment Description for the main channel. A pass indicates that every trace point in the main channel is lower than or equal to the uppder limit. Query Syntax :CALCulate:ACPR:CHANnel:HLIMit:FAIL? Return parameter 0 <boolean>Pass <boolean>Fail Query Example...
Page 88: Calculate:acpr:state
GSP-9330 Programming Manual :CALCulate:ACPR:STATe Query Sets or queries the state of the ACPR measurement Description function. Syntax :CALCulate:ACPR:STATe {OFF|ON|0|1} Query Syntax :CALCulate:ACPR:STATe? Parameter ACPR is disabled. ACPR is enabled. ACPR is disabled. ACPR is enabled. Return parameter 0 ACPR is disabled.
Page 89: Calculate:bfsk:limit:fdeviation
REMOTE CONTROL Query Syntax :CALCulate:BFSK:LIMit:FAIL? Return parameter 0 <boolean>Pass <boolean>Fail Query Example :CALCulate:BFSK:LIMit:FAIL? >0 :CALCulate:BFSK:LIMit:FDEViation Query Sets or queries the frequency deviation limit for Description 2FSK. The frequency limit indicates the maximum frequency deviation for a pass judgement. Syntax :CALCulate:BFSK:LIMit:FDEViation <freq> Query Syntax :CALCulate:BFSK:LIMit:FDEViation? Parameter/...
Page 90: Calculate:bfsk:limit:high
GSP-9330 Programming Manual :CALCulate:BFSK:LIMit:HIGH Query Sets or queries the 2FSK high limit. If the Description amplitude of the trace is above the high limit, it will be judged as Fail. Syntax :CALCulate:BFSK:LIMit:HIGH <ampl> Query Syntax :CALCulate:BFSK:LIMit:HIGH? Parameter/ <freq> <NR3> amplitude in dBm.
Page 91: Calculate:bfsk:state
REMOTE CONTROL Query Syntax :CALCulate:BFSK:RESult? Return parameter <freq deviation>,<carrier offset> <freq deviation> Frequency deviation in NRf format <carrier offset> Carrier offset in NRf format Query Example :CALC:BFSK:RES? >4.416666667e+04,4.416666667e+04 :CALCulate:BFSK:STATe Query Sets or queries the state of the 2FSK measurement Description function.
Page 92: Calculate:cso:result
GSP-9330 Programming Manual Syntax :CALCulate:CNR:STATe {ON|OFF|1|0} Query Syntax :CALCulate:CNR:STATe? Parameter CNR is off. CNR is on. CNR is off. CNR is on. Return parameter 0 CNR is off. CNR is on. Query Example :CALC:CNR:STAT? >1 :CALCulate:CSO:RESult? Query Returns the CSO measurement result in dB.
Page 93: Calculate:ctb:result
REMOTE CONTROL :CALCulate:CTB:RESult? Query Returns the CTB measurement result in dB. Description Query Syntax :CALCulate:CTB:RESult? Return parameter <NR3> CTB measurement in dB Query Example :CALC:CTB:RES? >-4.237e+01 :CALCulate:CTB:STATe Query Sets or queries the state of the CTB measurement Description function. Syntax :CALCulate:CTB:STATe {ON|OFF|1|0} Query Syntax :CALCulate:CTB:STATe?
Page 94: Calculate:deltamarker:Pair:center
GSP-9330 Programming Manual Syntax :CALCulate:DELTamarker<n>:PAIR:SPAN <freq> Parameter <n> Marker number. <freq> <NRf> frequency of span. Example :CALC:DELT1:PAIR:SPAN 1e+9 :CALCulate:DELTamarker<n>:PAIR:CENTer Takes the current span between the chosen Description markers and relocates that center frequency to the chosen center frequency. Syntax :CALCulate:DELTamarker<n>:PAIR:CENTer <freq>...
Page 95: Calculate:demod:am:result:current
REMOTE CONTROL Parameter <n> Marker number. Return parameter <rel_ampl> <NR3> in dB. Example :CALC:DELT1:Y? >-1.032e+1 :CALCulate:DEMod:AM:RESult:CURRent? Query Returns the current measurement results for AM Description demodulation as a comma separated string. Query Syntax :CALCulate:DEMod:AM:RESult:CURRent? Return parameter <depth,rate,power,offset,sinad> depth Modulation depth in %. rate Modulation rate in Hz.
Page 96: Calculate:demod:am:result:maximum
GSP-9330 Programming Manual :CALCulate:DEMod:AM:RESult:MAXimum? Query Returns the maximum recorded measurement Description results for AM demodulation as a comma separated string. Query Syntax :CALCulate:DEMod:AM:RESult:MAXimum? Return parameter <depth,rate,power,offset,sinad> depth Modulation depth in %. rate Modulation rate in Hz. power Carrier power in the current Y-axis units.
Page 97: Calculate:demod:earphone:state
REMOTE CONTROL :CALCulate:DEMod:EARPhone:STATe Query Sets or queries the state of the ear phone out port. Description Syntax :CALCulate:DEMod:EARPhone:STATe {ON|OFF|1|0} Query Syntax :CALCulate:DEMod:EARPhone:STATe? Parameter Turn the phone output off. Turn the phone output on. Turn the phone output off. Turn the phone output on. Return parameter 0 Phone output is off.
Page 98: Calculate:demod:fm:result:maximum
GSP-9330 Programming Manual Return parameter <deviation,rate,power,offset,sinad> deviation Frequency deviation in Hz. rate Modulation rate in Hz. power Carrier power in the current Y-axis units. offset Carrier frequency offset in Hz. sinad Signal to noise and distortion ratio in dB. Query Example :CALC:DEM:FM:RES:MIN? >9.840e+1,1.02e+2,-1.12e+1,3.21e+1,1.61e+1...
Page 99: Calculate:demod:limit:amdepth
REMOTE CONTROL Return parameter 0 FM Analysis is off. FM Analysis is on. Example :CALC:DEM:FM:STAT 1 :CALCulate:DEMod:LIMit:AMDepth Query Sets or queries the AM depth limit. The AM depth Description limit indicates the maximum AM depth for a pass judgement. Syntax :CALCulate:DEMod:LIMit:AMDepth <value>...
Page 100: Calculate:demod:limit:carrier:power
GSP-9330 Programming Manual Syntax :CALCulate:DEMod:LIMit:CARRier:OFFSet <freq> Query Syntax :CALCulate:DEMod:LIMit:CARRier:OFFSet? Parameter/ <freq> <NR3> frequency in Hz. Return Parameter Example :CALC:DEM:LIM:CARR:OFFS? >5.000000000e+02 :CALCulate:DEMod:LIMit:CARRier:POWer Query Sets or queries the carrier power limit. The carrier Description power indicates the maximum power for a pass judgement.
Page 101: Calculate:demod:limit:state
REMOTE CONTROL <boolean>Fail <boolean>Pass Query Example :CALC:DEM:LIM:FAIL? >0,0,0. :CALCulate:DEMod:LIMit:STATe Query Sets or queries the state of the pass/fail limit Description function. Syntax :CALCulate:DEMod:LIMit:STATe {ON|OFF|0|1} Query Syntax :CALCulate:DEMod:LIMit:STATe? Parameter Pass/fail limit is disabled. Pass/fail limit is enabled. Return parameter 0 Pass/fail limit is disabled. Pass/fail limit is enabled.
Page 102: Calculate:demod:ask:result:current
GSP-9330 Programming Manual Sets or queries whether the FSK function is on or Description off. Syntax :CALCulate:DEMod:FSK:STATe {ON|OFF|0|1} Query Syntax :CALCulate:DEMod:FSK:STATe? Return parameter ON | 1 <boolean>On OFF | 0 <boolean>Off Return parameter 1 <boolean>On <boolean>Off Query Example :CALC:DEM:FSK:STAT? >0...
Page 103: Calculate:demod:ask:result:maximum
REMOTE CONTROL <Mod. Depth> Modulation depth <Carr. Power> Carrier power <Carr. Freq Offset> Carrier frequency offset <SINAD> Signal to noise and distortion ratio Query Example :CALC:DEM:ASK:RES:MIN? >9.295e+01,6.067961502e+01,-6.843e+01, 0.000000000e+00,1.82e-03. :CALCulate:DEMod:ASK:RESult:MAXimum? Query Returns the maximum ASK measurements. Description Query Syntax :CALCulate:DEMod:ASK:RESult:MAXimum? Reutrn Parameter <AM Depth>,<Modulation Depth>,<Carrier Power>,<Carrier Frequency Offset>,<SINAD>...
Page 104: Calculate:demod:fsk:result:minimum
GSP-9330 Programming Manual Query Example :CALC:DEM:FSK:RES:CURR? >8.749949037e+09,1.562500000e+03,-6.023e+01,- 8.749322018e+09,5.01e-02. :CALCulate:DEMod:FSK:RESult:MINimum? Query Returns the minimum FSK measurements. Description Query Syntax :CALCulate:DEMod:FSK:RESult:MINimum? Reutrn Parameter <Freq Deviation>,<Modulation Rate>,<Carrier Power>,<Carrier Frequency Offset>,<SINAD> <Freq. Deviation> FM deviation <Mod. Rate> Modulation rate <Carr. Power> Carrier power <Carr. Freq Offset> Carrier frequency offset <SINAD>...
Page 105: Calculate:demod:reset
REMOTE CONTROL :CALCulate:DEMod:RESet This command will reset the max and min records Description for the current demodulation analysis. Syntax :CALCulate:DEMod:RESet :CALCulate:HARMonic:DISTortion? Query Returns the harmonic distortion as a percentage of Description the fundamental and as dBc. Query Syntax CALCulate:HARMonic:DISTortion? Return parameter <%>,<dBc> <%>...
Page 106: Calculate:jitter:state
GSP-9330 Programming Manual Syntax :CALCulate:HARMonic:STATe {ON|OFF} Query Syntax :CALCulate:HARMonic:STATe? Parameter Turn Harmonic measurement off. Turn Harmonic measurement on. Return parameter 0 Harmonic measurement is off. Harmonic measurement is on. Example :CALC:HARM:STAT ON :CALCulate:JITTer:STATe Query Sets or queries the state of the Jitter Analysis Description function.
Page 107: Calculate:jitter:time
REMOTE CONTROL Returns the carrier phase jitter in radians. Description Query Syntax :CALCulate:JITTer:PHASe? Return parameter <NR3> Query Example :CALC:JITT:PHAS? >1.5307e+01 :CALCulate:JITTer:TIME? Query Returns the carrier jitter time in seconds. Description Query Syntax :CALCulate:JITTer:TIME? Return parameter <NR3> Seconds Query Example :CALC:JITT:TIME? >.5.31e-08 :CALCulate:LIMit<n>:CLEar Clears the High Limit, Low Limit and the...
Page 108: Calculate:limit:fail
GSP-9330 Programming Manual Parameter/ <csv data> pt#1 freq, pt#1 limit, …….pt#10 freq, Return parameter pt#10 limit. <n> Seleted limit line Example :CALCulate:LIMit3:DATA? >1e+6,-10,2e+6,-30,3e+6,-40,4e+6…………… :CALCulate:LIMit:FAIL? Query Returns the Pass/Fail judgment. Description Query Syntax :CALCulate:LIMit:FAIL? Return parameter 0 Pass Fail Query Example :CALC:LIM:FAIL? >1...
Page 109: Calculate:limit:mode
REMOTE CONTROL Sets the current marker position to a point on a Description limit line. The vertical position of the point is the marker’s vertical position + a user-defined offset. Syntax :CALCulate:LIMit<n>:MARKer <point>,<offset> Parameter <point> <NR1> point 1~10 <offset> <NR3> dB <n>...
Page 110: Calculate:limit:Trace
GSP-9330 Programming Manual Return parameter 0 Pass/Fail test is off. Pass/Fail test is on. Example :CALC:LIM:STAT 1 :CALCulate:LIMit<n>:TRACe Creates a limit line from the currently selected Description trace with a user defined offset. Syntax :CALCulate:LIMit<n>:TRACe <offset> Parameter <n> <NR1> limit line 1~5 <offset>...
Page 111: Calculate:marker:Fcount: Resolution:auto
REMOTE CONTROL Sets or queries the frequency counter resolution in Description Hz for the selected marker. Syntax :CALCulate:MARKer<n>:FCOunt:RESolution <freq> Query Syntax :CALCulate:MARKer<n>:FCOunt:RESolution? Parameter <n> <NR1>Maker number 1~6*. <freq> Frequency resolution in Hz**. Return parameter <freq> Frequency resolution in Hz. Note * Only one marker can be selected at a time to use the marker counter function.
Page 112: Calculate:marker:Fcount:state
GSP-9330 Programming Manual :CALCulate:MARKer<n>:FCOunt:STATe Query Sets or queries the state of the frequency counter Description function. Syntax :CALCulate:MARKer<n>:FCOunt:STATe {ON|OFF|1|0} Query Syntax :CALCulate:MARKer<n>:FCOunt:STATe? Parameter <n> <NR1>Marker number 1~6 Turn frequency counter off. Turn frequency counter on. Turn frequency counter off. Turn frequency counter on.
Page 113: Calculate:marker:Noise:y
REMOTE CONTROL Parameter <n> <NR1>Marker number 1~6. Turn marker noise off. Turn marker noise on. Turn marker noise off. Turn marker noise on. Return parameter 0 Marker noise is off. Marker noise is on. Example :CALC:MARK2:NOIS:STAT ON :CALCulate:MARKer<n>:NOISe:Y? Query Returns the normalized noise level over a BW of Description 1Hz from the marker position.
Page 114: Calculate:marker:peak:ctrack:state
GSP-9330 Programming Manual :CALCulate:MARKer:PEAK:CTRack:STATe Query Sets or queries the state of the Peak Track function. Description The Peak Track function only applies to the currently selected marker. Syntax :CALCulate:MARKer:PEAK:CTRack:STATe {ON|OFF|1|0} Query Syntax :CALCulate:MARKer:PEAK:CTRack:STATe? Parameter Turn peak track off. Turn peak track on.
Page 115: Calculate:marker:peak:sort:type
REMOTE CONTROL Sets or queries the peak excursion value. Description Syntax :CALCulate:MARKer:PEAK:EXCursion <rel ampl> Query Syntax :CALCulate:MARKer:PEAK:EXCursion? <rel ampl> Peak excursion dB (offset from Parameter threshold) Return parameter <NR3> Peak excursion in dB. Example :CALC:MARK:PEAK:EXC 6 db :CALCulate:MARKer:PEAK:SORT:TYPE Query Sets or queries the peak sort type for the peak Description table.
Page 116: Calculate:marker:peak:threshold
GSP-9330 Programming Manual :CALCulate:MARKer:PEAK:THReshold Query Sets or queries the peak threshold value. Description Syntax :CALCulate:MARKer:PEAK:THReshold < ampl> Query Syntax :CALCulate:MARKer:PEAK:THReshold? Parameter < ampl> Peak Threshold level Return parameter <NR3> Peak threshold. Note: the unit returned depends on the currently set vertical units.
Page 117: Calculate:marker:State
REMOTE CONTROL Parameter <n> <NR1> Marker number 1~6 CENTer Set to center frequency STARt Set to start frequency STOP Set to stop frequency STEP Set to CF STEP frequency RLEVel Set to the Reference level Example :CALC:MARK1:SET CENT :CALCulate:MARKer<n>:STATe Query Sets or queries the state of the selected marker.
Page 118: Calculate:marker:Trace
GSP-9330 Programming Manual :CALCulate:MARKer<n>:TRACe Query Assigns the selected marker to a trace. Queries Description which trace the selected marker is assigned to. Syntax :CALCulate:MARKer<n>:TRACe <trace name> Query Syntax :CALCulate:MARKer<n>:TRACe? Parameter/ <n> <NR1> Marker number 1~6 Return parameter <trace The name of the trace: (1, 2, 3, 4) name>...
Page 119: Calculate:marker:X
REMOTE CONTROL Query Syntax :CALCulate:MARKer<n>:TYPE? Parameter/ <n> <NR1> Marker number 1~6 Return parameter <NORMal> Normal marker <DELTa> Delta marker Example :CALC:MARK1:TYPE NORM :CALCulate:MARKer<n>:X Query Sets or returns the marker position in Hz. Description Syntax :CALCulate:MARKer<n>:X <freq> Query Syntax :CALCulate:MARKer<n>:X? Parameter/ <n>...
Page 120: Calculate:math:pdif
GSP-9330 Programming Manual :CALCulate:MATH:PDIF Calculates the power difference between two Description traces (T1 -the first trace operand- and T2 -the second trace operand-). Syntax :CALCulate:MATH:PDIF <Destination Trace,T1,T2> Parameter < Destination Trace>* TRACe1, TRACe2, TRACe3 or TRACe4 < T1> < T2>...
Page 121: Calculate:ndb:state
REMOTE CONTROL Syntax :CALCulate:MATH:LOFF <Destination Trace,T1,offset> Parameter < Destination Trace >* TRACe1, TRACe2, TRACe3 or TRACe4 < T1> -source trace- <offset> <NRf>Offset in dB Note * The destination trace cannot be the same as the source trace. Example :CALC:MATH:LOFF TRAC1,TRAC2,6 :CALCulate:NDB:STATe Query Sets or queries the state of the NdB BW function.
Page 122: Calculate:normalize:state
GSP-9330 Programming Manual :CALCulate:NORMalize:STATe Query Turns the tracking generator normalization on/off Description or queries its state. Syntax :CALCulate:NORMalize:STATe{ON|OFF|1|0} Query Syntax :CALCulate:NORMalize:STATe? Parameter Turn normalization off. Turn normalization on. Turn normalization off. Turn normalization on. Return parameter 0 normalization is off.
Page 123: Calculate:ocbw:chpower
REMOTE CONTROL Return parameter <NR3> OCBW bandwidth in Hz. Example :CALC:OCBW:BAND? >4.1e+03 :CALCulate:OCBW:CHPower? Query Returns the OCBW channel power measurement. Description Query Syntax :CALCulate:OCBW:CHPower? Return parameter <NR3> OCBW channel power in the current Y- axis unit. Example :CALC:OCBW:CHP? >9.13e+01 :CALCulate:OCBW:POWer? Query Returns the OCBW total power measurement.
Page 124: Calculate:p1Db:state
GSP-9330 Programming Manual :CALCulate:P1DB:STATe Query Turns the P1DB function on or off. Description Syntax :CALCulate:P1DB:STATe {ON|OFF|1|0} Query Syntax :CALCulate:P1DB:STATe? Parameter OFF | 0 Turns limits off. ON | 1 Turns limits on. Return parameter 0 Turns limits off. Turns limits on.
Page 125: Calculate:p1Db:gain:result
REMOTE CONTROL Return parameter <NR3> Return the average gain in dB. Returns N/A if the P1dB value is not found or not applicable. Example :CALC:P1DB:GAIN:AVER? >1.416e+01 :CALCulate:P1DB:GAIN:RESult? Query Returns the gain (in dB) for each 1dBm increase in Description TG input level from -30dBm to 0dBm. Query Syntax :CALCulate:P1DB:GAIN:RESult? Return parameter <NR3>,<NR3>……<NR3>...
Page 126: Calculate:pmeter:limit:state
GSP-9330 Programming Manual Returns the power meter power measurement. Description Query Syntax :CALCulate:PMETer:POWer? Return parameter <NR3> Power in the current Y-axis unit. Example :CALC:PMET:POW? >-0.83e+01 :CALCulate:PMETer:LIMit:STATe Query Turns the pass/fail limits on/off in the Power Description Meter mode or queries its state.
Page 127: Calculate:sem:state
REMOTE CONTROL :CALCulate:SEM:STATe Query Turns the SEM measurement on/off or queries its Description state. Syntax :CALCulate:SEM:STATe {ON|OFF|1|0} Query Syntax :CALCulate:SEM:STATe? Parameter Turns SEM off. Turns SEM on. Turns SEM off. Turns SEM on. Return parameter 0 SEM is off. SEM is on. Example :CALC:SEM:STAT ON :CALCulate:SEM:OFFSet<n>:RESult?
Page 128: Calculate:toi:differential
GSP-9330 Programming Manual :CALCulate:TOI:DIFFerential? Query Returns the third order intermodulation distortion. Description Query syntax :CALCulate:TOI:DIFFerential? Return parameter <base lower> <NR3> dBc <base upper> <NR3> dBc <3 order lower> <NR3> dBc <3 order upper> <NR3> dBc Example :CALC:TOI:DIFF? >0.0e+0,-1.67e-1,-1.09e+1,-6.61e+0 :CALCulate:TOI:FREQuency:DIFFerential? Query...
Page 129: Calculate:toi:result
REMOTE CONTROL Return parameter 0 Turns pass/fail limit off. Turns pass/fail limit on. Example :CALC:TOI:LIM:STAT ON :CALCulate:TOI:RESult? Query Returns the third order intercept and the pass/fail Description judgments. Query syntax :CALCulate:TOI:RESult? Return parameter <3 lower> order lower intercept <lower p/f> order lower pass/fail judgment.
Page 130 GSP-9330 Programming Manual CONFigure Commands :CONFigure:MODE ..........128 :CONFigure:MODE Query Sets or queries the operating mode, spectrum or Description power meter. Syntax :CONFigure:MODE {PMETer} Query Syntax :CONFigure:MODE? Parameter/ <PMETer> Power meter mode Return parameter Example :CONF:MODE PMET...
Page 131 REMOTE CONTROL DISPlay Commands :DISPlay:BRIGhtness ..........131 :DISPlay:ENABle............131 :DISPlay:DEMod[:WINDow]:SYMBol:DATA? .. 131 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe]: AUTO ................132 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe] :PDIVision..............132 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe] :RPOSition ..............133 :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe] :RVALue ............... 133 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe] :AUTO ................133 :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe] :PDIVision..............134 :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe] :RPOSition ..............134 :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe] :RVALue ...............
Page 132 GSP-9330 Programming Manual :DISPlay[:WINDow]:SPECtrogram:MARKer :FREQuency? ............... 139 :DISPlay[:WINDow]:SPECtrogram:MARKer :AMPLitude? ..............139 :DISPlay[:WINDow]:SPECtrogram:MARKer :TIME? ................140 :DISPlay[:WINDow]:SPLit:NORMal:ALTernate . 140 :DISPlay[:WINDow]:SPLit:NORMal:ACTive ..140 :DISPlay[:WINDow]:SPLit:SPECtrogram ..... 141 :DISPlay[:WINDow]:SPLit:TOPO ......141 :DISPlay[:WINDow]:TOPO ........141 :DISPlay[:WINDow]:TOPO:MARKer:PERCent?141 :DISPlay[:WINDow]:TOPO:MARKer:X ....142 :DISPlay[:WINDow]:TOPO:MARKer:Y ....142 :DISPlay[:WINDow]:TOPO:MARKer:FREQuency?142 :DISPlay[:WINDow]:TOPO:MARKer:AMPLitude?143 :DISPlay[:WINDow]:TOPO:MARKer:STATe ..143 :DISPlay[:WINDow]:TOPO:DELTamarker:X ..
Page 133: Display:brightness
REMOTE CONTROL :DISPlay:BRIGhtness Query Sets or queries the LCD brightness level. Description Syntax :DISPlay:BRIGhtness {HIGH|MIDDle|LOW} Query Syntax :DISPlay:BRIGhtness? Parameter/ <HIGH> High brightness level Return parameter <MIDDle> Mid brightness level <LOW> Low brightness level Example :DISP:BRIG HIGH :DISPlay:ENABle Query Turns the LCD backlight on/off. Description Syntax :DISPlay:ENABle {OFF|ON|0|1}...
Page 134: Display:demod[:Window]:Trace:x[:Scale]: Auto
GSP-9330 Programming Manual Return parameter <data <8 bit data>, <8 bit data>, … string> Example :DISP:DEM:SYMB:DATA? >”00000000”,”00000000”,”00000000”,”00000000”,”00 000010”,”00000000”, ∫∫Data voluntarily omitted∫∫, “00000000”,”00000000”,”X”\n :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:AUTO Query Turns auto scale on/off for AM/FM demodulation Description or queries its state. When set to ON, the auto scale function will be executed continuously.
Page 135: Display:demod[:Window]:Trace:x[:Scale] :Rposition
REMOTE CONTROL Example :DISP:DEM:TRAC:X:PDIV 2 ms :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:RPOSition Query Sets or queries the Reference Position of the trace Description for AM/FM demodulation (x-axis grid division). Syntax :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe]: RPOSition <integer> Query Syntax :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe]: RPOSition? Parameter/ <integer> <NR1>1~10 Return parameter Example :DISP:DEM:TRAC:X:RPOS 2 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:RVALue Query...
Page 136: Display:demod[:Window]:Trace:y[:Scale] :Pdivision
GSP-9330 Programming Manual Example :DISP:DEM:TRAC:Y:AUTO :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:PDIVision Query Sets or queries the Y-axis scale per division. Description Syntax :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe]: PDIVision <NRf> Query Syntax :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe]: PDIVision? Parameter <NRf> AM Unit: %, FM Unit: Hz Return parameter <NR3> AM Unit: %, FM Unit: Hz Example :DISP:DEM:TRAC:Y:PDIV 2.3e+1...
Page 137: Display:demod[:Window]:Trace:y[:Scale] :Rvalue
REMOTE CONTROL :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:RVALue Query Sets or queries the Reference value Description (AM: %, FM: Hz). Syntax :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe]: RVALue <NRf> Query Syntax :DISPlay:DEMod[:WINDow]:TRACe:Y[:SCALe]: RVALue? Parameter <NRf> AM Unit: %, FM Unit: Hz Return parameter <NR3> AM Unit: %, FM Unit: Hz Example :DISP:DEM:TRAC:Y:RVAL 2 % :DISPlay:DEMod[:WINDow]:VIEW...
Page 138: Display[:Window]:Normal
GSP-9330 Programming Manual :DISPlay[:WINDow]:NORMal Sets the display window to the normal trace mode. Description Syntax :DISPlay[:WINDow]:NORMal Example :DISP:NORM :DISPlay[:WINDow]:SPECtrogram Sets the display window to spectrogram mode. Description Syntax :DISPlay[:WINDow]:SPECtrogram Example :DISP:SPEC :DISPlay[:WINDow]:SPECtrogram :DELTamarker:X Query Sets or queries spectrogram delta marker’s x-axis.
Page 139: Display[:Window]:Spectrogram :Deltamarker:frequency
REMOTE CONTROL Parameter/Return <NR1> Y axis value. parameter Example :DISP:SPEC:DELT:Y 30 :DISPlay[:WINDow]:SPECtrogram :DELTamarker:FREQuency? Query Returns spectrogram delta marker frequency value Description Query syntax :DISPlay[:WINDow]:SPECtrogram:DELTamarker :FREQuency? Return parameter <NR3> Frequency in Hz. Example :DISP:SPEC:DELT:FREQ? >-3.000e+04 :DISPlay[:WINDow]:SPECtrogram :DELTamarker:AMPLitude? Query Returns spectrogram delta marker amplitude Description value.
Page 140: Display[:Window]:Spectrogram :Deltamarker:time
GSP-9330 Programming Manual Return parameter <NR3> Returns the frequency delta in kHz. Example :DISP:SPEC:DELT:INV:TIME? >1.233e+06 :DISPlay[:WINDow]:SPECtrogram :DELTamarker:TIME? Query Returns spectrogram delta marker time value. Description Query syntax :DISPlay[:WINDow]:SPECtrogram:DELTamarker:TIME? Return parameter <NR3> Time in seconds Example :DISP:SPEC:DELT:TIME? >1.94e-01 :DISPlay[:WINDow]:SPECtrogram:MARKer :STATe Query Sets or queries the state of the spectrogram marker.
Page 141: Display[:Window]:Spectrogram:marker:y
REMOTE CONTROL Syntax :DISPlay[:WINDow]:SPECtrogram:MARKer:X <NR1> Query Syntax :DISPlay[:WINDow]:SPECtrogram:MARKer:X? Parameter/Return <NR1> X axis value. parameter Example :DISP:SPEC:MARK:X 20 :DISPlay[:WINDow]:SPECtrogram:MARKer Query Sets or queries spectrogram marker’s y-axis. Description Syntax :DISPlay[:WINDow]:SPECtrogram:MARKer:Y <NR1> Query Syntax :DISPlay[:WINDow]:SPECtrogram:MARKer:Y? Parameter/Return <NR1> Y axis value. parameter Example :DISP:SPEC:MARK:Y 50 :DISPlay[:WINDow]:SPECtrogram:MARKer :FREQuency? Query...
Page 142: Display[:Window]:Spectrogram:marker :Time
GSP-9330 Programming Manual Return parameter <NR3> Amplitude in dBm. Example :DISP:SPEC:MARK:AMPL? >-6.969e+01 :DISPlay[:WINDow]:SPECtrogram:MARKer :TIME? Query Returns spectrogram marker time value. Description Query syntax :DISPlay[:WINDow]:SPECtrogram:MARKer:TIME? Return parameter <NR3> Time in seconds Example :DISP:SPEC:MARK:TIME? >4.92e-01 :DISPlay[:WINDow]:SPLit:NORMal: ALTernate Turns on the Alternate Sweep function for split...
Page 143: Display[:Window]:Split:spectrogram
REMOTE CONTROL :DISPlay[:WINDow]:SPLit:SPECtrogram Sets the split screen mode to Spectrogram + Description Spectrum. Syntax :DISPlay[:WINDow]:SPLit:SPECtrogram Example :DISP:SPL:SPEC :DISPlay[:WINDow]:SPLit:TOPO Sets the split screen mode to Topographic + Description Spectrum. Syntax :DISPlay[:WINDow]:SPLit:TOPO Example :DISP:SPL:TOPO :DISPlay[:WINDow]:TOPO Sets the display window to topographic. Description Syntax :DISPlay[:WINDow]:TOPO Example...
Page 144: Display[:Window]:Topo:marker:x
GSP-9330 Programming Manual :DISPlay[:WINDow]:TOPO:MARKer:X Query Sets or queries topographic marker’s x-axis value. Description Syntax :DISPlay[:WINDow]:TOPO:MARKer:X <NR1> Query Syntax :DISPlay[:WINDow]:TOPO:MARKer:X? Parameter/Return <NR1> X axis value. parameter Example :DISP:TOPO:MARK:X 50 :DISPlay[:WINDow]:TOPO:MARKer:Y Query Sets or queries topographic marker’s y-axis value. Description Syntax :DISPlay[:WINDow]:TOPO:MARKer:Y <NR1>...
Page 145: Display[:Window]:Topo:marker:amplitude?143
REMOTE CONTROL :DISPlay[:WINDow]:TOPO:MARKer :AMPLitude? Query Returns topographic marker amplitude value. Description Query syntax :DISPlay[:WINDow]:TOPO:MARKer:AMPLitude? Return parameter <NR3> Amplitude in dBm. Example :DISP:TOPO:MARK:AMPL? >-8.333e+01 :DISPlay[:WINDow]:TOPO:MARKer:STATe Query Sets or queries the state of the topographic marker. Description Syntax :DISPlay[:WINDow]:TOPO:MARKer:STATe {OFF|ON|0|1} Query Syntax :DISPlay[:WINDow]:TOPO:MARKer:STATe? Parameter OFF | 0...
Page 146: Display[:Window]:Topo:deltamarker:y
GSP-9330 Programming Manual :DISPlay[:WINDow]:TOPO:DELTamarker:Y Query Sets or queries topographic delta marker’s y-axis Description value. Syntax :DISPlay[:WINDow]:TOPO:DELTamarker:Y <NR1> Query Syntax :DISPlay[:WINDow]:TOPO:DELTamarker:Y? Parameter/Return <NR1> Y axis value. parameter Example :DISP:TOPO:DELT:Y 100 :DISPlay[:WINDow]:TOPO:DELTamarker :FREQuency? Query Returns topographic delta marker frequency value. Description Query syntax :DISPlay[:WINDow]:TOPO:DELTamarker:FREQuency? Return parameter <NR3>...
Page 147: Display[:Window]:Topo:deltamarker :Percent
REMOTE CONTROL :DISPlay[:WINDow]:TOPO:DELTamarker :PERCent? Query Returns the percentage of traces that cross the Description delta marker position in the topographic display view. Query syntax :DISPlay[:WINDow]:TOPO:DELTamarker:PERCent? Return parameter <NR3> Example :DISP:TOPO:DELT:PERC? >6.667e+01 :DISPlay[:WINDow]:TRACe<n>:MODE Sets the operation mode of the selected trace. Description Syntax :DISPlay[:WINDow]:TRACe<n>:MODE...
Page 148: Display[:Window]:Trace:y:dline
GSP-9330 Programming Manual Return parameter <n> <NR1> Trace number. <NR3> Example :DISP:TRAC2:MODE:MAXH? >-2.000e+01 :DISPlay[:WINDow]:TRACe:Y:DLINe Query Sets or queries the display line amplitude level. Description Syntax :DISPlay[:WINDow]:TRACe:Y:DLINe <ampl> Query Syntax :DISPlay[:WINDow]:TRACe:Y:DLINe? Parameter <ampl> <NRf> Power or voltage in the current Y- axis unit.
Page 149: Display[:Window]:Trace:y[:Scale]:Nrlevel147
REMOTE CONTROL Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:AUTO {ONCE} Parameter <ONCE> Compulsory parameter. Example :DISP:TRAC:Y:AUTO ONCE :DISPlay[:WINDow]:TRACe:Y[:SCALe]: NRLevel Query Sets or queries the normalized reference level for Description the TG option. Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:NRLevel <ampl> Query Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:NRLevel? Parameter <ampl> <NRf> Power or voltage in the current Y- axis unit.
Page 150: Display[:Window]:Trace:y[:Scale]:Pdivision148
GSP-9330 Programming Manual :DISPlay[:WINDow]:TRACe:Y[:SCALe] :PDIVision Query Sets or queries the Y-axis scale/div when the Description amplitude scale is logarithmic. Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:PDIVision{1|2|5| Query Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:PDIVision? Parameter/ 1 dB Return parameter 2 dB 5 dB 10 dB Example :DISP:TRAC:Y:PDIV 10 :DISPlay[:WINDow]:TRACe:Y[:SCALe]: POSition Query Sets or queries the position of the on-screen scale.
Page 151: Display[:Window]:Trace:y[:Scale]: Rlevel:offset
REMOTE CONTROL Parameter <ampl> <NRf> Return parameter <NR3> Example :DISP:TRAC:Y:RLEV 1 mV :DISPlay[:WINDow]:TRACe:Y[:SCALe]: RLEVel:OFFSet Query Sets or queries the Y-axis reference level offset. Description Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:RLEVel:OFFSet <rel_ampl> Query Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:RLEVel:OFFSet? Parameter <ampl> <NRf> dB Return parameter <NR3> Example :DISP:TRAC:Y:RLEV OFFS -5.0e+1 dB :DISPlay[:WINDow]:TRACe:Y[:SCALe]: SPACing Query...
Page 152 GSP-9330 Programming Manual Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:STATe {OFF|ON|0|1} Query Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:STATe? Parameter Turn scale off. Turn scale on. Turn scale off. Turn scale on. Return parameter 0 Scale is off. Scale is on. Example :DISP:TRAC:Y:STAT ON...
Page 153: Initiate:continuous
REMOTE CONTROL INITiate Commands :INITiate:CONTinuous ..........151 :INITiate[:IMMediate] ..........151 :INITiate:CONTinuous Query Sets the sweep mode to continuous or single mode Description or queries its state. Syntax :INITiate:CONTinuous {OFF|ON|0|1} Query Syntax :INITiate:CONTinuous? Parameter single continuos single continuos Return parameter 0 single continuos Example...
Page 154: Input:attenuation
GSP-9330 Programming Manual INPut Commands :INPut:ATTenuation ..........152 :INPut:ATTenuation:AUTO ........152 :INPut:IMPedance ............153 :INPut:OFFSet ............153 :INPut:ATTenuation Query Sets or queries the input attenuation. Description Syntax :INPut:ATTenuation <integer> Query Syntax :INPut:ATTenuation? Parameter/ <integer> <NR1> 0 to 50 Return parameter...
Page 155: Input:impedance
REMOTE CONTROL :INPut:IMPedance Query Sets or queries the input impedance in Ω. Description Syntax :INPut:IMPedance {50|75} Query Syntax :INPut:IMPedance? <NR1> Ω Parameter/ Return parameter <NR1> Ω Example :INP:IMP 75 :INPut:OFFSet Query Sets or queries the input offset (Input Z Description Calibration).
Page 156: Mmemory:catalog
GSP-9330 Programming Manual MMEMory Commands :MMEMory:CATalog? ..........154 :MMEMory:CDIRectory ..........155 :MMEMory:COPY............155 :MMEMory:DELete ........... 156 :MMEMory:DESTination .......... 156 :MMEMory:LOAD:CORRection ......157 :MMEMory:LOAD:LIMit ......... 157 :MMEMory:LOAD:PMETer ........157 :MMEMory:LOAD:SEQuence ........ 157 :MMEMory:LOAD:STATe ........158 :MMEMory:LOAD:TRACe ........158 :MMEMory:MOVE ............ 158 :MMEMory:REName ..........
Page 157: Mmemory:cdirectory
REMOTE CONTROL :MMEMory:CDIRectory Sets the source directory for memory related Description commands. When you use a single USB drive/SD card with multiple partitions inside, the system will automatically name these partitions in the numeric order, so you need to specify the partition number. The same situation applies when you use a USB hub to extend the number of USB ports.
Page 158: Mmemory:delete
GSP-9330 Programming Manual :MMEMory:DELete Deletes the designated file from the current Description directory. Syntax :MMEMory:DELete <src_file_name> Parameter <src_file_name> Example :MMEM:DEL “QuickJpg1.jpg” :MMEMory:DESTination Sets the destination directory for memory related Description commands. When you use a single USB drive/SD card with...
Page 159: Mmemory:load:correction
REMOTE CONTROL :MMEMory:LOAD:CORRection Loads correction data from a file to the internal Description memory. Syntax :MMEMory:LOAD:CORRection <corr num>, <src_file_name> Parameter <corr num> <NR1> correction set 1~5 <src_file_name> XXX.cor Example :MMEM:LOAD:CORR 2,”test.cor” :MMEMory:LOAD:LIMit Loads limit line data from a file to the internal Description memory.
Page 160: Mmemory:load:state
GSP-9330 Programming Manual Syntax :MMEMory:LOAD:SEQuence <seq num>, <src_file_name> Parameter <seq num> <NR1>sequence number 1~5 <src_file_name> XXX.seq Example :MMEM:LOAD:SEQ 2,”test.seq” :MMEMory:LOAD:STATe Loads the instrument state from a file to the Description internal memory. Syntax :MMEMory:LOAD:STATe <src_file_name> Parameter <src_file_name> XXX.stat Example :MMEM:LOAD:STAT “test.stat”...
Page 161: Mmemory:rename
REMOTE CONTROL :MMEMory:REName Renames the designated file from the current file. Description Syntax :MMEMory:REName <old_file_name>,<new_file_name> Parameter <old_file_name> <new_file_name> Example :MMEM:REN “QuickJpg1.jpg”,”QuickJpg2.jpg” :MMEMory:STORe:CORRection Store correction data to a file from the internal Description memory. Syntax :MMEMory:STOR:CORRection <corr num>,<new_dest_file_name> Parameter <corr num> <NR1>...
Page 162: Mmemory:store:pmeter
GSP-9330 Programming Manual :MMEMory:STORe:PMETer Store power meter data to a file from the internal Description memory. Syntax :MMEMory:STORe:PMETer <new_dest_file_name> Parameter <new_dest_file_name> XXX.pmet Example :MMEM:STOR:PMET “test.pmet” :MMEMory:STORe:SCReen Store a screen-shot to the current file directory. Description Syntax :MMEMory:STORe:SCReen <new_dest_file_name> Parameter <new_dest_file_name>...
Page 163: Mmemory:store:trace
REMOTE CONTROL Parameter <new_dest_file_name> XXX.stat Example :MMEM:STORe:STAT “test.stat” :MMEMory:STORe:TRACe Store trace data to a file from the internal memory. Description Syntax :MMEMory:STORe:TRACe <trace name>, <new_dest_file_name> Parameter <trace name> <NR1> 1~4 <new_dest_file_name> XXX.tra Example :MMEM:STORe:TRAC 2,”test.tra”...
Page 164: Output[:State]
GSP-9330 Programming Manual OUTPut Commands :OUTPut[:STATe] ............162 :OUTPut[:STATe] Query Turns the tracking generator output on/off or Description queries its state. Syntax :OUTPut[:STATe] {OFF|ON|0|1} Query Syntax :OUTPut[:STATe]? Parameter Turn TG output off. Turn TG output on. Turn TG output off.
Page 165: Sense]:Acpr:achannel:Bandwidth|Bwi
REMOTE CONTROL SENSe Commands [:SENSe]:ACPR:ACHannel<n>:BANDwidth|BWI Dth ................. 166 [:SENSe]:ACPR:ACHannel<n>:HLIMit ....166 [:SENSe]:ACPR:ACHannel<n>:LLIMit ....167 [:SENSe]:ACPR:ACHannel<n>:OFFSet ....167 [:SENSe]:ACPR:BANDwidth|BWIDth ....167 [:SENSe]:ACPR:HLIMit ..........168 [:SENSe]:ACPR:LLIMit ..........168 [:SENSe]:ACPR:HELP:STATe ........ 168 [:SENSe]:ACPR:SPACe ..........169 [:SENSe]:ASET:AMPLitude ........169 [:SENSe]:ASET:AMPLitude:AUTO ....... 169 [:SENSe]:ASET:RUN..........170 [:SENSe]:ASET:SPAN ..........
Page 166: Sense]:Acpr:achannel:Bandwidth|Bwi
GSP-9330 Programming Manual [:SENSe]:DEMod:FILTer:LPASs ......179 [:SENSe]:DEMod:IFBW ........... 180 [:SENSe]:DEMod:PREamble:BITS ......180 [:SENSe]:DEMod:PREamble:SYNC:STATe ..180 [:SENSe]:DEMod:SQUelch:LEVel ......181 [:SENSe]:DEMod:BRATe ......... 181 [:SENSe]:DEMod:SYNC:BITS ........ 181 [:SENSe]:DEMod:SYNC:WORDs ......182 [:SENSe]:DETector[:FUNCtion] ......182 [:SENSe]:DETector[:FUNCtion]:AUTO ....183 [:SENSe]:EMIFilter:STATe ........183 [:SENSe]:EMIFilter:BANDwidth|BWIDth [:RESolution] ..............184 [:SENSe]:FREQuency:CENTer .......
Page 167: Sense]:Acpr:achannel:Bandwidth|Bwi
REMOTE CONTROL [:RESolution]..............193 [:SENSe]:SEMask:BANDwidth|BWIDth [:RESolution]:AUTO ..........194 [:SENSe]:SEMask:CARRier:AUTO ......194 [:SENSe]:SEMask:CARRier:CPSD ......195 [:SENSe]:SEMask:CARRier:POWer ....... 195 [:SENSe]:SEMask:FREQuency:SPAN ....195 [:SENSe]:SEMask:GWLan:MODulation ....196 [:SENSe]:SEMask:HELP:STATe ......196 [:SENSe]:SEMask:NWLan:CHANnel: BANDwidth|BWIDth..........196 [:SENSe]:SEMask:OFFSet<n>:ADDition: BANDwidth|BWIDth[:RESolution]? ....197 [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STARt? ..........199 [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STOP?............ 199 [:SENSe]:SEMask:OFFSet<n>:ADDition: STARt:ABSolute? ............
Page 168: [:Sense]:Acpr:achannel:Bandwidth|Bwi Dth
GSP-9330 Programming Manual [:SENSe]:SEMask:W3GPP:FDD:TRANsmit:MOD E ..................208 [:SENSe]:SEMask:W3GPP:TDD:CHIP:RATE ..208 [:SENSe]:SEMask:W3GPP:TDD:MOPower ..209 [:SENSe]:SEMask:W3GPP:TDD:TRANsmit:MOD E ..................209 [:SENSe]:SEMask:WIMax:CHANnel: BANDwidth|BWIDth ..........210 [:SENSe]:SEQuence<n>:DELete ......210 [:SENSe]:SWEep:EGATe:DELay ......210 [:SENSe]:SWEep:EGATe:LENGth ......211 [:SENSe]:SWEep:EGATe:STATe......211 [:SENSe]:SWEep:MODE .......... 211 [:SENSe]:SWEep:TIME ..........212 [:SENSe]:SWEep:TIME:AUTO ....... 212 [:SENSe]:TOI:REFerence .........
Page 169: [:Sense]:Acpr:achannel:Llimit
REMOTE CONTROL Query Syntax [:SENSe]:ACPR:ACHannel<n>:HLIMit? Parameter <ampl> <NRf> power or voltage Return parameter <NR3> Example :ACPR:ACH1:HLIM -3.0e+1 [:SENSe]:ACPR:ACHannel<n>:LLIMit Query Sets or queries the low limit for the selected Description adjacent channel. Used with ACPR measurement. Syntax [:SENSe]:ACPR:ACHannel<n>:LLIMit <ampl> Query Syntax [:SENSe]:ACPR:ACHannel<n>:LLIMit? Parameter <ampl>...
Page 170: [:Sense]:Acpr:hlimit
GSP-9330 Programming Manual Query Syntax [:SENSe]:ACPR:BANDwidth|BWIDth? Parameter <freq> <NRf> Return parameter <NR3> Example :ACPR: BAND 2.0e+6 [:SENSe]:ACPR:HLIMit Query Sets or queries the high limit for the main channel. Description Used with ACPR measurement. Syntax [:SENSe]:ACPR:HLIMit <ampl> Query Syntax [:SENSe]:ACPR:HLIMit? Parameter <ampl>...
Page 171: [:Sense]:Acpr:space
REMOTE CONTROL Turn help off. Turn help on. Example :ACPR:HELP:STAT ON [:SENSe]:ACPR:SPACe Query Sets or queries the channel spacing between the Description main channels. Syntax [:SENSe]:ACPR:SPACe <freq> Query Syntax [:SENSe]:ACPR:SPACe? Parameter <freq> <NRf> Return parameter <NR3> Example :ACPR: SPAC 2.0e+6 [:SENSe]:ASET:AMPLitude Query Sets or queries the autoset amplitude floor level.
Page 172: [:Sense]:Aset:run
GSP-9330 Programming Manual Turn autoset amplitude floor to auto. Return parameter 0 Autoset amplitude floor is in manual. Autoset amplitude floor is in auto. Example :ASET:AMPL:AUTO 1 [:SENSe]:ASET:RUN Activates the Autoset function. Description Syntax [:SENSe]:ASET:RUN Example :ASET:RUN [:SENSe]:ASET:SPAN Query Sets or queries the Autoset span.
Page 173: [:Sense]:Average:count
REMOTE CONTROL Example :ASET:SPAN:AUTO [:SENSe]:AVERage:COUNt Query Sets or queries the number of traces that are used Description with the average function. Syntax [:SENSe]:AVERage:COUNt <integer> Query Syntax [:SENSe]:AVERage:COUNt? Parameter/ <integer> <NR1> Return parameter Example :AVER:COUN 20 [:SENSe]:AVERage:STATe Query Turns the Average function on/off or queries its Description state.
Page 174: [:Sense]:Bandwidth|Bwidth[:Resolution]
GSP-9330 Programming Manual Parameter/Return VOLTage Sets Average to voltage parameter LOGarithmic Sets Average to logarithmic POWer Sets Average to power Example :AVER:TYPE VOLT [:SENSe]:BANDwidth|BWIDth[:RESolution] Query Sets or queries the resolution bandwidth (RBW). Description Syntax [:SENSe]:BANDwidth|BWIDth[:RESolution] <freq> Query Syntax [:SENSe]:BANDwidth|BWIDth[:RESolution]? Parameter <freq>...
Page 175: [:Sense]:Bandwidth|Bwidth:video:auto
REMOTE CONTROL Syntax [:SENSe]:BANDwidth|BWIDth:VIDeo <freq> Query Syntax [:SENSe]:BANDwidth|BWIDth:VIDeo? Parameter <freq> <NRf> Return parameter <NR3> Example :BAND:VID 1.0e+6 [:SENSe]:BANDwidth|BWIDth:VIDeo:AUTO Query Turns the VBW to auto (on) or manual (off) or Description queries its state. Syntax [:SENSe]:BANDwidth|BWIDth:VIDeo:AUTO {OFF|ON|0|1} Query Syntax [:SENSe]:BANDwidth|BWIDth:VIDeo:AUTO? Parameter Turn VBW to manual (off).
Page 176: [:Sense]:Cnr:channel:space
GSP-9330 Programming Manual Example :CHAN:SPAC:UP [:SENSe]:CNR:CHANnel:SPACe Query Sets or queries the channel space bandwidth for Description CNR measurements. Syntax [:SENSe]:CNR:CHANnel:SPACe <freq> Query Syntax [:SENSe]:CNR:CHANnel:SPACe? Parameter <freq> <NRf> Return parameter <NR3> Example :CNR:CHAN:SPAC 6.0e+6 [:SENSe]:CNR:DELTamarker:MODE Turns the CNR Noise Marking function to Description Min(AUTO) or ΔMarker(MANual).
Page 177: [:Sense]:Correction:cset:State
REMOTE CONTROL Parameter <freq> <NRf> Hz <offset> <NRf> dB <n> <NR1>correction set number Return parameter <CSV data> pt#1 freq, pt#1 offset,….. pt#n freq, pt#n offset Example :CORR:CSET1:DATA 2e+6,30 [:SENSe]:CORRection:CSET<n>:STATe Query Turns the selected correction set on/off or queries Description its state. Syntax [:SENSe]:CORRection:CSET<n>:STATe {OFF|ON|0|1} Query Syntax...
Page 178: [:Sense]:Ctb:channel:space
GSP-9330 Programming Manual Syntax [:SENSe]:CSO:CHANnel:SPACe <freq> Query Syntax [:SENSe]:CSO:CHANnel:SPACe? Parameter <freq> <NRf> Return parameter <NR3> Example :CSO:CHAN:SPAC 6.0e+6 [:SENSe]:CTB:CHANnel:SPACe Query Sets the channel space bandwidth for CTB Description measurements. Syntax [:SENSe]:CTB:CHANnel:SPACe <freq> Query Syntax [:SENSe]:CTB:CHANnel:SPACe? Parameter <freq> <NRf> Return parameter <NR3>...
Page 179: [:Sense]:Demod:decode:format
REMOTE CONTROL [:SENSe]:DEMod:DECode:FORMat Sets the decoding format to Hexadecimal or Binary Description for the ASK/FSK Analysis function. Syntax [:SENSe]:DEMod:DECode:FORMat {BINary | HEXadecimal} Parameter BINary Decoding in binary HEXadecimal Decoding in hexadecimal Example :DEM:DEC:FORM BIN [:SENSe]:DEMod:DECode:INVert:STATe Query Sets or queries the invert decoding state of the Description ASK/FSK Analysis function.
Page 180: [:Sense]:Demod:define:mcount
GSP-9330 Programming Manual Parameter/Return <Data string> <4 byte data>,<4 byte data>, … parameter Example :SENS:DEM:DEF:CODE “001c”,”002d” [:SENSe]:DEMod:DEFine:MCOunt Query Sets or queries compare of number. Description Syntax [:SENSe]:DEMod:DEFine:MCOunt <integer> Query Syntax [:SENSe]:DEMod:DEFine:MCOunt? Parameter/Return <Integer> <NR1> parameter Example :SENS:DEM:DEF:MCO 5 [:SENSe]:DEMod:EARPhone:TYPE Query...
Page 181: [:Sense]:Demod:earphone:gain
Sets the low pass filter to bypass. Return parameter <n> <NR1>1~5 The filters 1 to 5 are shown in the table below. The GSP-9330 will automatically detect the signal frequency. AM/FM Signal Frequency (Hz) Selectable bandwidth of LPF (Hz) <n>=1 <n>=2...
Page 182: [:Sense]:Demod:ifbw
GSP-9330 Programming Manual Example :DEM:FILT:LPAS Bypass Sets the low pass filter to bypass. [:SENSe]:DEMod:IFBW Query Sets or queries the IF bandwidth for the Description AM/FM/ASK/FSK Analysis function. Syntax [:SENSe]:DEMod:IFBW <freq> Query Syntax [:SENSe]:DEMod:IFBW? Parameter <freq> <NRf> Return parameter <NR3> Example :DEM:IFBW 3.0e+5...
Page 183: [:Sense]:Demod:squelch:level
REMOTE CONTROL Parameter 0 & OFF Set the Preamble/Sync mode to Off. 1 & ON Set the Preamble/Sync mode to On. Return parameter 0 Preamble/Sync mode is Off. Preamble/Sync mode is On. Example :DEM:PRE:SYNC:STAT? >1 [:SENSe]:DEMod:SQUelch:LEVel Query Sets or queries the carrier squelch level. Description Syntax [:SENSe]:DEMod:SQUelch:LEVel <dBm level>...
Page 184: [:Sense]:Demod:sync:words
GSP-9330 Programming Manual Sets or queries the number of sync bits for the Description ASK/FSK Analysis function. Syntax [:SENSe]:DEMod:SYNC:BITS <integer> Query Syntax [:SENSe]:DEMod:SYNC:BITS? Parameter / <integer> <NR1> 0~16 Return parameter Example :DEM:SYNC:BITS? >16 [:SENSe]:DEMod:SYNC:WORDs Query Sets or queries the sync word for the ASK/FSK Description Analysis function.
Page 185: [:Sense]:Detector[:Function]:Auto
REMOTE CONTROL RAVerage Sets the detector mode to RMS average. EAVerage Sets the detector mode to EMI Average. QPEak Sets the detector mode to Quasi-peak Example :DET NORM [:SENSe]:DETector[:FUNCtion]:AUTO Query Turns the trace detection mode to auto (on) or Description manual (off) or queries its state.
Page 186: [:Sense]:Emifilter:bandwidth|Bwidth [:Resolution]
GSP-9330 Programming Manual [:SENSe]:EMIFilter:BANDwidth|BWIDth [:RESolution] Sets the EMI filter bandwidth (must be set to the Description exact bandwidth). Syntax [:SENSe]:EMIFilter:BANDwidth|BWIDth[:RESolution] <freq> Parameter <freq> <NRf> (Only 200Hz, 9kHz, 120kHz are valid settings) Example :EMIF:BAND 2.0e+2 [:SENSe]:FREQuency:CENTer Query Sets or queries the center frequency.
Page 187: [:Sense]:Frequency:center:step:auto
REMOTE CONTROL [:SENSe]:FREQuency:CENTer:STEP:AUTO Query Turns the CF Step frequency setting to auto (on) or Description manual (off) or queries its state. Syntax [:SENSe]:FREQuency:CENTer:STEP:AUTO {OFF|ON|0|1} Query Syntax [:SENSe]:FREQuency:CENTer:STEP:AUTO? Parameter Turn CF Step to manual (off). Turn CF Step to auto (on). Turn CF Step to manual (off).
Page 188: [:Sense]:Frequency:span:full
GSP-9330 Programming Manual Parameter <freq> <NRf> Return parameter <NR3> Example :FREQ:SPAN: 2.0e+9 [:SENSe]:FREQuency:SPAN:FULL Set the span to Full Span. Description Syntax [:SENSe]:FREQuency:SPAN:FULL Example :FREQ:SPAN:FULL [:SENSe]:FREQuency:SPAN:PREVious Set the span to the previous span setting. Description Syntax [:SENSe]:FREQuency:SPAN:PREVious Example :FREQ:SPAN:PREV [:SENSe]:FREQuency:STARt Query Sets or queries the start frequency.
Page 189: [:Sense]:Harmonic:fundamental:frequency187
REMOTE CONTROL Parameter <freq> <NRf> Return parameter <NR3> Example :FREQ:STOP 1.0e+6 [:SENSe]:HARMonic:FUNDamental :FREQuency Query Sets or queries the harmonic frequency. Description Syntax :SENSe:HARMonic:FUNDamental:FREQuency <freq> Query Syntax :SENSe:HARMonic:FUNDamental:FREQuency? Parameter <freq> <NRf> Return parameter <NR3> Example :SENS:HARM:FUND:FREQ 1.0e+6 [:SENSe]:HARMonic:NUMBer Query Sets or queries the harmonic number. Description Syntax :SENSe:HARMonic:NUMBer <NR1>...
Page 190: [:Sense]:Jitter:offset:start
GSP-9330 Programming Manual [:SENSe]:JITTer:OFFSet:STARt Query Sets or queries the start offset for phase jitter Description measurements. Syntax [:SENSe]:JITTer:OFFSet:STARt <freq> Query Syntax [:SENSe]:JITTer:OFFSet:STARt? Parameter <freq> <NRf> Return parameter <NR3> Example :JITT:OFFS:STAR 1.0e+7 [:SENSe]:JITTer:OFFSet:STOP Query Sets or queries the stop offset for phase jitter Description measurements.
Page 191: [:Sense]:Ocbw:bandwidth|Bwidth
REMOTE CONTROL [:SENSe]:OCBW:BANDwidth|BWIDth Query Sets or queries the OCBW bandwidth for OCBW Description measurements. Syntax [:SENSe]:OCBW:BANDwidth|BWIDth <freq> Query Syntax [:SENSe]:OCBW:BANDwidth|BWIDth? Parameter <freq> <NRf> Return parameter <NR3> Example :OCBW:BAND 4.5+6 [:SENSe]:OCBW:PERCent Query Sets or queries the OCBW percentage (OCBW %) Description parameter.
Page 192: [:Sense]:P1Db:average:count
GSP-9330 Programming Manual [:SENSe]:P1DB:AVERage:COUNt Query Sets or queries the number of samples used for the Description average function in the P1dB function. Syntax :SENSe:P1DB:AVERage:COUNt <NR1> Query Syntax :SENSe:P1DB:AVERage:COUNt? Parameter <NR1> The average number. Return parameter <NR1> Returns the average number.
Page 193: [:Sense]:Pmeter:hlimit
REMOTE CONTROL [:SENSe]:PMETer:HLIMit Query Sets or queries the power meter high limit for Description pass/fail tests. Syntax [:SENSe]:PMETer:HLIMit <ampl> Query Syntax [:SENSe]:PMETer:HLIMit? Parameter <ampl> <NRf> power unit, default = dBm Return parameter <NR3> Unit = current unit. Example :PMET:HLIM 10 [:SENSe]:PMETer:HOLD:STATe Query Turns the power meter Max/Min Hold function...
Page 194: [:Sense]:Pmeter:psensor:mode
GSP-9330 Programming Manual Parameter <ampl> <NRf> power unit, default = dBm Return parameter <NR3> Unit = current unit. Example :PMET:LLIM 0 [:SENSe]:PMETer:PSENsor:MODE Query Sets or queries the power meter sensor mode. Description Syntax [:SENSe]:PMETer:PSENsor:MODE {LOWNoise|FASTer} Query Syntax [:SENSe]:PMETer:PSENsor:MODE? Parameter/ LOWNoise Sets the power meter mode to low noise.
Page 195: [:Sense]:Power[:Rf]:Gain
REMOTE CONTROL Parameter <time> <NRf> Return parameter <NR3> seconds Example :PMET:REC:TIME:STEP 10s [:SENSe]:POWer[:RF]:GAIN Query Sets the preamplifier to Auto or Bypass mode or Description queries its state. Syntax [:SENSe]:POWer[:RF]:GAIN {AUTO|BYPASS} Query Syntax [:SENSe]:POWer[:RF]:GAIN? Parameter/ AUTO Sets the preamplifier to auto mode. Return parameter BYPASS Sets the preamplifier to bypass mode.
Page 196: [:Sense]:Semask:bandwidth|Bwidth [:Resolution]:Auto
GSP-9330 Programming Manual Query Syntax [:SENSe]:SEMask:BANDwidth|BWIDth[:RESolution]? Parameter <freq> <NRf> Return parameter <NR3> Example :SEM:BAND 2.2e+4 [:SENSe]:SEMask:BANDwidth|BWIDth [:RESolution]:AUTO Query Turns the RBW setting to auto (on) or manual (off) Description for SEM measurements or queries its state. Syntax [:SENSe]:SEMask:BANDwidth|BWIDth[:RESolution]: AUTO {OFF|ON|0|1}...
Page 197: [:Sense]:Semask:carrier:cpsd
REMOTE CONTROL Turn PSDRef/TotalPwrRef to auto (on). Return parameter 0 PSDRef/TotalPwrRef is set to manual. PSDRef/TotalPwrRef is set to automatic. Example :SEM:CARR:AUTO OFF [:SENSe]:SEMask:CARRier:CPSD Query Sets or queries the value of the PSDRef for SEM Description measurements. Syntax [:SENSe]:SEMask:CARRier:CPSD <NR3> Query Syntax [:SENSe]:SEMask:CARRier:CPSD? Parameter/...
Page 198: [:Sense]:Semask:gwlan:modulation
GSP-9330 Programming Manual Parameter <freq> <NR3> Return parameter <NR3> Example :SEM:FREQ:SPAN 2.2e+7 [:SENSe]:SEMask:GWLan:MODulation Query Sets or queries the modulation type for the 802.11g Description SEM measurement. Syntax [:SENSe]:SEMask:GWLan:MODulation {GROup<n>} Query Syntax [:SENSe]:SEMask:GWLan:MODulation? Parameter/ <n>=1 ERP-DSSS/ERP-PBCC/ERP-CCK Return parameter <n>=2 ERP-OFDM/DSSS-OFDM Example...
Page 199: [:Sense]:Semask:offset:Addition: Bandwidth|Bwidth[:Resolution]
REMOTE CONTROL Syntax [:SENSe]:SEMask:NWLan:CHANnel: BANDwidth|BWIDth <freq> Parameter <freq> <NRf> (20 MHz or 40MHz) Return parameter <NR3> Example :SEM:NWL:CHAN:BAND 20 MHZ [:SENSe]:SEMask:OFFSet<n>:ADDition: BANDwidth|BWIDth[:RESolution]? Query Returns the RBW of the selected offset for the Description additional requirements of the selected 3GPP SEM test.
Page 200 GSP-9330 Programming Manual Unit: MHz Additional Bands: 2.5 ≤A<3.5 -15dBm 30kHz II, IV, X 3.5≤B< Δfmax -13dBm 1MHz Unit: MHz Additional Bands: V 2.5 ≤A<3.5 -15dBm 30kHz 3.5≤B< Δfmax -13dBm 100kHz Unit: MHz Additional Bands: 2.5 ≤A<3.5 -13dBm 30kHz XII, XIII, XIV 3.5≤B<...
Page 201: [:Sense]:Semask:offset:Addition: Frequency:start
REMOTE CONTROL [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STARt? Query Returns the start frequency (refered to the center) Description of the selected offset for the additional requirements of the selected 3GPP SEM test. Query syntax [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STARt? Parameter/ <n> Offset 1 to 5 Return parameter <NR3>...
Page 202: [:Sense]:Semask:offset:Addition: Start:absolute
GSP-9330 Programming Manual [:SENSe]:SEMask:OFFSet<n>:ADDition: STARt:ABSolute? Query Returns the “start” amplitude (dBm) of the Description Absolute Mask for the selected offset for the additional requirements of the selected 3GPP SEM test. Query syntax [:SENSe]:SEMask:OFFSet<n>:ADDition:STARt: ABSolute? Parameter/ <n> Offset 1 to 5 Return parameter <NR3>...
Page 203: [:Sense]:Semask:offset:Bandwidth|Bwidth[:Resolution]:Auto
REMOTE CONTROL Syntax [:SENSe]:SEMask:OFFSet<n>:BANDwidth|BWIDth [:RESolution] <freq> Query Syntax [:SENSe]:SEMask:OFFSet<n>:BANDwidth|BWIDth [:RESolution]? Parameter/ <freq> <NR3> Hz Return parameter <n> <NR1>offset 1~5 Example :SEM:OFFS1:BAND 3.0e+3 [:SENSe]:SEMask:OFFSet<n>:BANDwidth|B WIDth[:RESolution]:AUTO Query Turns the resolution bandwidth for the selected Description channel to manual or automatic mode or queries its state.
Page 204: [:Sense]:Semask:offset:Frequency:stop202
GSP-9330 Programming Manual Parameter/ <freq> <NR3> Hz Return parameter <n> <NR1>offset 1~5 Example :SEM:OFFS1:FREQ:STAR 2.5e+3 [:SENSe]:SEMask:OFFSet<n>:FREQuency: STOP Query Sets or queries the stop frequency of the selected Description offset. Syntax [:SENSe]:SEMask:OFFSet<n>:FREQuency:STOP <freq> Query Syntax [:SENSe]:SEMask:OFFSet<n>:FREQuency:STOP? Parameter/ <freq> <NR3> Hz Return parameter <n>...
Page 205: [:Sense]:Semask:offset:State
REMOTE CONTROL Query Syntax [:SENSe]:SEMask:OFFSet<n>:STARt:RELative? Parameter/ <ampl> <NR3> dBc Return parameter <n> <NR1> offset 1~5 Example :SEM:OFFS1:STAR:REL 2.5e+1 [:SENSe]:SEMask:OFFSet<n>:STATe Query Turns the selected offset on/off or queries its state. Description Syntax [:SENSe]:SEMask:OFFSet<n>:STATe {OFF|ON|0|1} Query Syntax [:SENSe]:SEMask:OFFSet<n>:STATe? Parameter Turns the selected offset off. Turns the selected offset on.
Page 206: [:Sense]:Semask:offset:Stop: Absolute:couple
GSP-9330 Programming Manual [:SENSe]:SEMask:OFFSet<n>:STOP: ABSolute:COUPle Query Couples the Absolute Stop amplitude to the Description Absolute Start amplitude for the selected offset. Syntax [:SENSe]:SEMask:OFFSet<n>:STOP:ABSolute:COUPle {OFF|ON|0|1} Query Syntax [:SENSe]:SEMask:OFFSet<n>:STOP:ABSolute: COUPle? Parameter Turns coupling off. Turns coupling on. Turns coupling off. Turns coupling on.
Page 207: [:Sense]:Semask:offset:Stop: Relative:couple
REMOTE CONTROL [:SENSe]:SEMask:OFFSet<n>:STOP: RELative:COUPle Query Couples the Relative Stop amplitude to the Description Relative Start amplitude for the selected offset. Syntax [:SENSe]:SEMask:OFFSet<n>:STOP:RELative:COUPle {OFF|ON|0|1} Query Syntax [:SENSe]:SEMask:OFFSet<n>:STOP:RELative: COUPle? Parameter Turns coupling off. Turns coupling on. Turns coupling off. Turns coupling on. Return parameter 0 Coupling is off.
Page 208: [:Sense]:Semask:type
GSP-9330 Programming Manual Syntax [:SENSe]:SEMask:SELect {MANual|W3GPP|BWLan|GWLan|NWLan|WIMax} Query Syntax [:SENSe]:SEMask:SELect? Parameter/ MANual User-defined SEM Return parameter W3GPP 3GPP SEM BWLan 802.11b SEM GWLan 802.11g SEM NWLan 802.11n SEM WIMax 802.16 SEM Example :SEM:SEL MAN [:SENSe]:SEMask:TYPE Query Selects or queries the method used as the reference...
Page 209: [:Sense]:Semask:w3Gpp:fdd:addition:limit207
REMOTE CONTROL [:SENSe]:SEMask:W3GPP:FDD:ADDition: LIMit Query Selects or queries the operating band used for the Description 3GPP FDD additional requirements. See the user manual for a list of the 3GPP operation bands. Syntax [:SENSe]:SEMask:W3GPP:FDD:ADDition:LIMit {NONE | BAND<n>} Query Syntax [:SENSe]:SEMask:W3GPP:FDD:ADDition:LIMit? Parameter/ NONE Return parameter BAND<n>...
Page 210: [:Sense]:Semask:w3Gpp:fdd:transmit:mode
GSP-9330 Programming Manual Syntax [:SENSe]:SEMask:W3GPP:FDD:MOPower {LEVel<n>} Query Syntax [:SENSe]:SEMask:W3GPP:FDD:MOPower? Parameter/ NONE Return parameter LEVEL<n> n=1 for 43<=P n=2 for 39<=P<43 n=3 for 31<=P<39 n=4 for P<31 Example :SEM:W3GPP:FDD:MOP LEV1 [:SENSe]:SEMask:W3GPP:FDD:TRANsmit: MODE Query Selects or queries the transmit mode of the FDD Description 3GPP test: Base station, or User Equipment.
Page 211: [:Sense]:Semask:w3Gpp:tdd:mopower
REMOTE CONTROL [:SENSe]:SEMask:W3GPP:TDD:MOPower Query Selects or queries Max Out Power for TDD 3GPP Description tests. See the user manual for a list of the power levels. Syntax [:SENSe]:SEMask:W3GPP:TDD:MOPower {LEVel<n>} Query Syntax [:SENSe]:SEMask:W3GPP:TDD:MOPower? For 3GPP TDD BS 3.84 and Parameter/ LEVEL<n> 7.68Mcps : Return parameter n=1 for 43<=P...
Page 212: [:Sense]:Semask:wimax:channel: Bandwidth|Bwidth
GSP-9330 Programming Manual [:SENSe]:SEMask:WIMax:CHANnel: BANDwidth|BWIDth Query Selects or queries the 802.16 channel bandwidth Description (10M or 20M channelization). Syntax [:SENSe]:SEMask:WIMax:CHANnel:BANDwidth| BWIDth {1e+7|2e+7} Query Syntax [:SENSe]:SEMask:WIMax:CHANnel:BANDwidth| BWIDth? Parameter/ 1e+7 <freq> Return parameter 2e+7 <freq> Example :SEM:WIM:CHAN:BAND 1e+7 [:SENSe]:SEQuence<n>:DELete Deletes the chosen sequence.
Page 213: [:Sense]:Sweep:egate:length
REMOTE CONTROL [:SENSe]:SWEep:EGATe:LENGth Query Sets or queries the gate length time. Description Syntax [:SENSe]:SWEep:EGATe:LENGth <time> Query Syntax [:SENSe]:SWEep:EGATe:LENGth? Parameter/ <time> Gate length time in seconds Return parameter Example :SWE:EGAT:LENG 10 ms [:SENSe]:SWEep:EGATe:STATe Query Turns the gated sweep mode on/off or queries its Description state.
Page 214: [:Sense]:Sweep:time
GSP-9330 Programming Manual Example :SENS:SWE:MODE FAST [:SENSe]:SWEep:TIME Query Sets the sweep time. Description Syntax [:SENSe]:SWEep:TIME <time> Query Syntax [:SENSe]:SWEep:TIME? Parameter/ <time> Sweep time in seconds Return parameter Example :SWE:TIME 60 ms [:SENSe]:SWEep:TIME:AUTO Query Turns the Sweep time setting to auto (on) or Description manual (off).
Page 215: [:Sense]:Toi:limit
REMOTE CONTROL Parameter/ UPPer Upper base. Return parameter LOWer Lower base. Example :TOI:REF UPP [:SENSe]:TOI:LIMit Query Sets the TOI pass/fail limit amplitude. Description Syntax [:SENSe]:TOI:LIMit <ampl> Query Syntax [:SENSe]:TOI:LIMit? Parameter <ampl> <NRf>Power or voltage Return parameter <NR3> Example :TOI:LIM 30...
Page 216: Source:p1Db:type
GSP-9330 Programming Manual SOURce Commands :SOURce:P1DB:TYPE ..........214 :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude]214 :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :OFFSet ................. 215 :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :STEP ................215 :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :STEP:AUTO ............... 216 :SOURce:POWer:MODE ......... 216 :SOURce:POWer:SWEep .......... 216 :SOURce:P1DB:TYPE Query Sets how the P1dB measurement is normalized. Description Syntax :SOURce:P1DB:TYPE {RF|TG}...
Page 217: Source:power[:Level][:Immediate][:Amplitude]214
REMOTE CONTROL Parameter <ampl> <NRf>Power or voltage Return parameter <NR3> Example :SOUR:POW 30 dbm :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:OFFSet Query Sets or queries the tracking generator offset level. Description Syntax :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :OFFSet <rel_ampl> Query Syntax :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude] :OFFSet? Parameter <rel_ampl> <NRf> Return parameter <NR3> Example :SOUR:POW:OFFS 10 db :SOURce:POWer[:LEVel][:IMMediate]...
Page 218: Source:power[:Level][:Immediate][:Amplitude] :Step:auto
GSP-9330 Programming Manual :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:STEP:AUTO Query Turns the tracking generator step level setting to Description auto (on) or manual (off). Syntax :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude]: STEP:AUTO {OFF|ON|0|1} Query Syntax :SOURce:POWer[:LEVel][:IMMediate][:AMPLitude]: STEP:AUTO? Parameter Turn TG step level to manual (off). Turn TG step level to auto (on).
Page 219 REMOTE CONTROL Parameter <rel_ampl> <NRf> (-5 to +5 dB) Return parameter <NR3> Example :SOUR:POW:SWE 5 db...
Page 220: System:alarm:state
GSP-9330 Programming Manual SYSTem Commands :SYSTem:ALARm:STATe ......... 218 :SYSTem:CLOCk<n>:DATE ........219 :SYSTem:CLOCk<n>:MODE ........ 219 :SYSTem:CLOCk<n>:STATe........220 :SYSTem:CLOCk<n>:TIME ........220 :SYSTem:COMMunicate:GPIB[:SELF]:ADDRess220 :SYSTem:COMMunicate:LANReset ....... 221 :SYSTem:COMMunicate:SERial[:RECeive]:BAUD221 :SYSTem:COMMunicate:USB:MODE ....221 :SYSTem:DATE ............221 :SYSTem:ERRor:CLEar..........222 :SYSTem:ERRor[:NEXT]? ........222 :SYSTem:KLOCk............222 :SYSTem:POWer:TYPE ..........222 :SYSTem:PRESet ............
Page 221: System:clock:Date
REMOTE CONTROL Example :SYST:ALAR:STAT 1 :SYSTem:CLOCk<n>:DATE Query Sets the day for the selected wake-up clock. Description Syntax :SYSTem:CLOCk<n>:DATE [MONday|TUESday|WEDnesday|THURsday|FRIday| SATurday|SUNday] Query Syntax :SYSTem:CLOCk<n>:DATE? Parameter/ <n> Wake-up clock number 1 to 7 Return parameter MONday Set to Monday TUESday Set to Tuesday WEDnesday Set to Wednesday THURsday...
Page 222: System:clock:State
GSP-9330 Programming Manual :SYSTem:CLOCk<n>:STATe Query Turns the selected wake-up clock on/off. Description Syntax :SYSTem:CLOCk<n>:STATe {OFF|ON|0|1} Query Syntax :SYSTem:CLOCk<n>:STATe? Parameter <n> Wake-up clock number 1 to 7 Turn the wake-up clock off. Turn the wake-up clock on. Turn the wake-up clock off.
Page 223: System:communicate:lanreset
REMOTE CONTROL Parameter <integer> 0 to 30 Example :SYST:COMM:GPIB:ADDR 10 :SYSTem:COMMunicate:LANReset Reset the LAN configuration and reboot. Description Syntax :SYSTem:COMMunicate:LANReset Example :SYST:COMM:LANR :SYSTem:COMMunicate:SERial[:RECeive] :BAUD Sets the RS232 Baud rate. Description Syntax :SYSTem: COMMunicate:SERial[:RECeive]:BAUD <integer> Parameter <integer> 300|600|1200|2400|4800|9600|19200| 38400|57600|115200 Example :SYST:COMM:SER:BAUD 9600 :SYSTem:COMMunicate:USB:MODE Configures the USB mode.
Page 224: System:error:clear
GSP-9330 Programming Manual Parameter/ <year> <NR1> Return parameter <month> <NR1> <day> <NR1> Example :SYST:DATE 2011,03,27 :SYSTem:ERRor:CLEar Clears the error messages from the error queue. Description Syntax :SYSTem:ERRor:CLEar :SYSTem:ERRor[:NEXT]? Query Returns the next message from the error queue. Description Reading the error from the error queue will clear that error from the queue.
Page 225: System:preset
PRESet Loads the preset (default) settings when the unit is powered up. Example :SYST:POW:TYPE? >LAST :SYSTem:PRESet Returns the GSP-9330 to preset settings. Description Syntax :SYST:PRES :SYSTem:PRESet:TYPE Query Sets the preset type between user-defined and Description factory default.
Page 226: System:shutdown
GSP-9330 Programming Manual :SYSTem:SHUTdown Shut down the GSP-9330. Description Syntax :SYST:SHUT :SYSTem:TIME Query Sets the system time. Description Syntax :SYSTem:TIME <hour>,<minute>,<second> Query Syntax :SYSTem:TIME? Parameter/ <hour> <NR1> Return parameter <minute> <NR1> <second> <NR1> Example :SYST:TIME 19,26,30 :SYSTem:UPDate Updates the system with new firmware from files Description located on an external USB drive.
Page 227: System:version:software
REMOTE CONTROL Return parameter <string> “V.X.X.X.X” Example :SYST:VERS:HARD? >”V.3.0.0.0” :SYSTem:VERSion:SOFTware? Query Returns the system software version. Description Query Syntax :SYSTem:VERSion:SOFTware? Return parameter <string> “V3.00” Example :SYST:VERS:SOFT? > “V3.00”...
Page 228: Status:operation:condition
GSP-9330 Programming Manual STATus Commands :STATus:OPERation:CONDition? ......226 :STATus:OPERation:ENABle ......... 227 :STATus:OPERation[:EVENt]? ....... 227 :STATus:OPERation:NTRansition ......228 :STATus:OPERation:PTRansition......228 :STATus:QUEStionable:CONDition? ....229 :STATus:QUEStionable:ENABle ......229 :STATus:QUEStionable[:EVENt]? ......230 :STATus:QUEStionable:NTRansition ....230 :STATus:QUEStionable:PTRansition ..... 231 :STATus:QUEStionable:FREQuency:CONDition?231 :STATus:QUEStionable:FREQuency:ENABle ..232 :STATus:QUEStionable:FREQuency[:EVENt]? .. 232...
Page 229: Status:operation:enable
REMOTE CONTROL Return parameter Bit Bit Weight Description Not used Sweeping Measuring Wait for Trigger 6~15 Not used Example :STAT:OPER:COND? >8 :STATus:OPERation:ENABle Query Sets or queries the Operation Status Event Enable Description register. Syntax :STATus:OPERation:ENABle <integer> Query Syntax :STATus:OPERation:ENABle? Return parameter Bit Bit Weight Description Not used...
Page 230: Status:operation:ntransition
GSP-9330 Programming Manual Return parameter Bit Bit Weight Description Not used Sweeping Measuring Wait for Trigger 6~15 Not used Example :STAT:OPER? >8 :STATus:OPERation:NTRansition Query Sets or queries the bit weight of the NTR filter for Description the Operation Status register.
Page 231: Status:questionable:condition
REMOTE CONTROL Return parameter Bit Bit Weight Description Not used Sweeping Measuring Wait for Trigger 6~15 Not used Example :STAT:OPER:PTR 32 :STATus:QUEStionable:CONDition? Query Returns the bit weight of the Questionable Status Description Condition register. Query Syntax :STATus:QUEStionable:CONDition? Return parameter Bit Bit Weight Description Frequency...
Page 232: Status:questionable[:Event]
GSP-9330 Programming Manual Return parameter Bit Bit Weight Description Frequency Uncal Limit Fail 1024 ACPLimit 2048 SEM Limit 4096 TOI Limit 8192 Pmet Limit Fail Example :STAT:QUES:ENAB 4096 :STATus:QUEStionable[:EVENt]? Query Returns the bit weight of the Questionable Status Description Event register. Reading this register will clear the event register.
Page 233: Status:questionable:ptransition
REMOTE CONTROL Return parameter Bit Bit Weight Description Frequency Uncal Limit Fail 1024 ACPLimit 2048 SEM Limit 4096 TOI Limit 8192 Pmet Limit Fail Example :STAT:QUES:NTR 32 :STATus:QUEStionable:PTRansition Query Sets or queries the bit weight of the PTR filter for Description the Questionable Status register.
Page 234: Status:questionable:frequency:enable
GSP-9330 Programming Manual Return parameter Bit Bit Weight Description Invalid Span/BW Example :STAT:QUES:FREQ:COND? >32 :STATus:QUEStionable:FREQuency:ENABle Query Sets or queries the Questionable Status Frequency Description Event Enable register. Syntax :STATus:QUEStionable:FREQuency:ENABle <integer> Query Syntax :STATus:QUEStionable:FREQuency:ENABle? Return parameter Bit Bit Weight Description Invalid Span/BW...
Page 235: Status:questionable:frequency:ptransition233
REMOTE CONTROL Syntax :STATus:QUEStionable:FREQuency:NTRansition <integer> Query Syntax :STATus:QUEStionable:FREQuency:NTRansition? Return parameter Bit Bit Weight Description Invalid Span/BW Example :STAT:QUES:FREQ:NTR 32 :STATus:QUEStionable:FREQuency: PTRansition Query Sets or queries the bit weight of the PTR filter for Description the Questionable Status Frequency register. Syntax :STATus:QUEStionable:FREQuency:PTRansition <integer>...
Page 236: Status:questionable:acplimit:enable
GSP-9330 Programming Manual Return parameter Bit Bit Weight Description Main channel high fail Main channel low fail Adj1 high fail Adj1 low fail Adj2 high fail Adj2 low fail Adj3 high fail Adj3 low fail Example :STAT:QUES:ACPL:COND? >1 :STATus:QUEStionable:ACPLimit:ENABle Query...
Page 237: Status:questionable:acplimit:ntransition
REMOTE CONTROL Return parameter Bit Bit Weight Description Main channel high fail Main channel low fail Adj1 high fail Adj1 low fail Adj2 high fail Adj2 low fail Adj3 high fail Adj3 low fail Example :STAT:QUES:ACPL? >3 :STATus:QUEStionable:ACPLimit: NTRansition Query Sets or queries the bit weight of the NTR filter for Description the Questionable Status ACP Limit register.
Page 238: Status:questionable:semlimit :Condition?236
GSP-9330 Programming Manual Syntax :STATus:QUEStionable:ACPLimit:PTRansition <integer> Query Syntax :STATus:QUEStionable:ACPLimit:PTRansition? Return parameter Bit Bit Weight Description Main channel high fail Main channel low fail Adj1 high fail Adj1 low fail Adj2 high fail Adj2 low fail Adj3 high fail Adj3 low fail...
Page 239: Status:questionable:semlimit:enable
REMOTE CONTROL :STATus:QUEStionable:SEMLimit:ENABle? Query Sets or queries the Questionable Status SEM Limit Description Enable register. Syntax :STATus:QUEStionable:SEMLimit:ENABle <integer> Query Syntax :STATus:QUEStionable:SEMLimit:ENABle? Return parameter Bit Bit Weight Description Offset 1, Upper fail Offset 1, Lower fail Offset 2, Upper fail Offset 2, Lower fail Offset 3, Upper fail Offset 3, Lower fail Offset 4, Upper fail...
Page 240: Status:questionable:semlimit :Ntransition238
GSP-9330 Programming Manual Return parameter Bit Bit Weight Description Offset 1, Upper fail Offset 1, Lower fail Offset 2, Upper fail Offset 2, Lower fail Offset 3, Upper fail Offset 3, Lower fail Offset 4, Upper fail Offset 4, Lower fail...
Page 241: Status:questionable:semlimit:ptransition
REMOTE CONTROL :STATus:QUEStionable:SEMLimit: PTRansition Query Sets or queries the bit weight of the PTR filter for Description the Questionable Status SEM Limit register. Syntax :STATus:QUEStionable:SEMLimit:PTRansition <integer> Query Syntax :STATus:QUEStionable:SEMLimit:PTRansition? Return parameter Bit Bit Weight Description Offset 1, Upper fail Offset 1, Lower fail Offset 2, Upper fail Offset 2, Lower fail Offset 3, Upper fail...
Page 242: Status:questionable:toilimit:enable
GSP-9330 Programming Manual :STATus:QUEStionable:TOILimit:ENABle Query Sets or queries the Questionable Status TOI Limit Description Event Enable register. Syntax :STATus:QUEStionable:TOILimit:ENABle <integer> Query Syntax :STATus:QUEStionable:TOILimit:ENABle? Return parameter Bit Bit Weight Description lower fail upper fail Example :STAT:QUES:TOIL:ENAB 1 :STATus:QUEStionable:TOILimit[:EVENt]? Query Returns the bit weight of the Questionable Status Description TOI Limit Event register.
Page 243: Status:questionable:toilimit:ptransition
REMOTE CONTROL Return parameter Bit Bit Weight Description lower fail upper fail Example :STAT:QUES:TOIL:NTR 1 :STATus:QUEStionable:TOILimit: PTRansition Query Sets or queries the bit weight of the PTR filter for Description the Questionable Status TOI Limit register. Syntax :STATus:QUEStionable:TOILimit:PTRansition <integer> Query Syntax :STATus:QUEStionable:TOILimit:PTRansition? Return parameter Bit Bit Weight...
Page 244 GSP-9330 Programming Manual Parameter <n> <NR1> 1~4 Return Parameter <csv data> Trace data in CSV format: point#1, point#2…..point#n Example :TRAC? TRAC1 >-5.234e+01,-4.593e+01,-5.533e+01,-4.604e+01,- >5.353e+01,-4.557e+01,-5.280e+0 >1,-4.785e+01,-5.459e+01,-4.578e+01,……………… :PIXel? TRACe<n> Query Returns the trace pixel data (real pixel value x100) Description for the selected trace in binary coded decimal format, represented by 2 characters per pixel (Highbyte_Lowbyte).
Page 245 REMOTE CONTROL Query Syntax :PIXel? TRACe<n> Parameter <n> <NR1> trace 1~4 Pixel data. Returned as ASCII code in Return Parameter <pixel data> binary coded decimal format: #41202 pixel1#HbyteLbyte pixel2#HbyteLbyte pixel3#HbyteLbyte..and so on until the EOF character Example :PIXEL? TRACE1 > #41202?H\x16\xA8\x16\xA8I\fI\xD4\x1Ex\x1E\xDCF\x B4F\xB4%\x80%\xE4C\xF8E$)\x04)hB\xCCC0.\x18- \xB4D\xC0E\xEC2d2dD\xC0E\xEC5\xE85\……EOF...
Page 246: Trigger[:Sequence]:Delay
GSP-9330 Programming Manual TRIGger Commands :TRIGger[:SEQuence]:DELay ........244 :TRIGger[:SEQuence]:DEMod:BIT:STARt ..245 :TRIGger[:SEQuence]:DEMod:BIT:STOP ... 245 :TRIGger[:SEQuence]:DEMod:DELay ....245 :TRIGger[:SEQuence]:DEMod:EXTernal:SLOPe246 :TRIGger[:SEQuence]:DEMod:INTernal ....246 :LEVel ................246 :TRIGger[:SEQuence]:DEMod:RFVIDeo :SLO Pe ..................246 :TRIGger[:SEQuence]:DEMod:VIDeo:LEVel ..247 :TRIGger[:SEQuence]:DEMod:MODE ....247 :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe ..248 :TRIGger[:SEQuence]:DEMod:SOURce ....248 :TRIGger[:SEQuence]:DEMod:TIME:STARt ..
Page 247: Trigger[:Sequence]:Demod:bit:start
REMOTE CONTROL :TRIGger[:SEQuence]:DEMod:BIT:STARt Query Sets or queries the start bit position for the ASK / Description FSK analysis function. Syntax :TRIGger[:SEQuence]:DEMod:BIT:STARt <integer> Query Syntax :TRIGger[:SEQuence]:DEMod:BIT:STARt? Parameter/ <integer> <NR1> 0~400 Return parameter Example :TRIG:DEM:BIT:STAR? >16 :TRIGger[:SEQuence]:DEMod:BIT:STOP Query Sets or queries the stop bit position for the ASK / Description FSK analysis function.
Page 248: Trigger[:Sequence]:Demod:external:slope246
GSP-9330 Programming Manual :TRIGger[:SEQuence]:DEMod:EXTernal :SLOPe Query Sets or queries the external source slope for Description ASK/FSK demodulation. Syntax :TRIGger[:SEQuence]:DEMod:EXTernal:SLOPe {POSitive | NEGative} Query Syntax :TRIGger[:SEQuence]:DEMod:EXTernal:SLOPe? Parameter POSitive Postive slope NEGative Negative slope Return parameter POSITIVE Postive slope NEGATIVE Negative slope...
Page 249: Trigger[:Sequence]:Demod:video:level
REMOTE CONTROL Query Syntax :TRIGger[:SEQuence]:DEMod:RFVIDeo:SLOPe? Parameter The Video trigger edge is not used. POSitive Sets the trigger on a positive slope. NEGative Sets the trigger on a negative slope. Return parameter OFF The Video trigger edge is not used. POSitive The trigger is set on a positive slope.
Page 250: Trigger[:Sequence]:Demod:video:slope
GSP-9330 Programming Manual Parameter/ NORMal Normal trigger mode Return parameter SINGle Single trigger CONTinuous Continuous trigger Example :TRIG:DEM:MODE CONT :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe Query Sets the trigger slope for the AF Trigger in Description AM/FM demodulation. Syntax :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe {POSitive|NEGative} Query Syntax :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe? Parameter/...
Page 251: Trigger[:Sequence]:Demod:time:stop
REMOTE CONTROL Query Syntax :TRIGger[:SEQuence]:DEMod:TIME:STARt? Parameter/ <NRf> Time value in seconds Return parameter Example :TRIG:DEM:TIME:STAR 2.000e-2 :TRIGger[:SEQuence]:DEMod:TIME:STOP Query Sets the trigger stop time of the AF trigger for the Description AM/FM demodulation function. Syntax :TRIGger[:SEQuence]:DEMod:TIME:STOP <NRf> Query Syntax :TRIGger[:SEQuence]:DEMod:TIME:STOP? Parameter/ <NRf>...
Page 252: Trigger[:Sequence]:Pmeter:source
GSP-9330 Programming Manual Parameter/ NORMal Normal trigger mode Return parameter SINGle Single trigger CONTinuous Continuous trigger Example :TRIG: MODE CONT :TRIGger[:SEQuence]:PMETer:SOURce Query Sets the triggering source to immediate or external Description Syntax :TRIGger[:SEQuence]:PMETer:SOURce {IMMediate|EXTernal} Query Syntax :TRIGger[:SEQuence]:PMETer:SOURce? Parameter/ IMMediate Free run trigger...
Page 253: Trigger[:Sequence]:Video:level
REMOTE CONTROL Parameter <freq> <NRf> Return parameter <NR3> Example :TRIG:VID:FREQ? >2.5e+6 :TRIGger[:SEQuence]:VIDeo:LEVel Query Sets the video trigger level. Description Syntax :TRIGger[:SEQuence]:VIDeo:LEVel <ampl> Query Syntax :TRIGger[:SEQuence]:VIDeo:LEVel? Parameter <ampl> <NRf> power or voltage. Return parameter <NR3> Example :TRIG:VID:LEV 10 :TRIGger[:SEQuence]:VIDeo:SLOPe Query Sets the video trigger slope Description Syntax :TRIGger[:SEQuence]:VIDeo:SLOPe...
Page 254: Unit Commands :Unit:pmeter:power
GSP-9330 Programming Manual UNIT Commands :UNIT:PMETer:POWer ..........252 :UNIT:POWer ............. 252 :UNIT:PMETer:POWer Query Sets the amplitude unit used for the Power Meter Description mode. Syntax :UNIT:PMETer:POWer {DBM|MW} Query Syntax :UNIT:PMETer:POWer? Parameter/ Decibels Return parameter Milliwatts Example :UNIT:PMET:POW DBM :UNIT:POWer Query...
Page 255: Appendix
APPENDIX PPENDIX ASCII to Binary Coded Decimal Table The :PIXel query uses binary coded decimal Background notation when returning the value of each pixel that is displayed. See page 242 for details. Decimal Binary ASCII Decimal Binary ASCII 00000000 01000000 00000001 01000001 00000010...
Page 256 GSP-9330 Programming Manual 00010111 01010111 00011000 01011000 00011001 01011001 00011010 01011010 00011011 01011011 00011100 01011100 00011101 01011101 00011110 01011110 00011111 01011111 00100000 Space 01100000 00100001 01100001 00100010 " 01100010 00100011 01100011 00100100 01100100 00100101 01100101 00100110 & 01100110 00100111 01100111...
Page 257 APPENDIX 00111101 01111101 00111110 > 01111110 00111111 01111111...

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