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GW Instek GSP-9300B Programming Manual

GW Instek GSP-9300B Programming Manual

Spectrum analyzer

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Spectrum Analyzer

GSP-9300B

PROGRAMMING MANUAL

ISO-9001 CERTIFIED MANUFACTURER

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Page 1 Spectrum Analyzer GSP-9300B 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-9300B 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-9300B 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 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-9300B Programming Manual Rating: 11.1V, 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-9300B 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-9300B, the package contents and an introduction to the front panel, rear panel and GUI. GSP-9300B Introduction ........... 8 Main Features ..............8 Accessories ..............11 Appearance ..............12 GSP-9300B Front Panel ..........
Page 10: Gsp-9300B Introduction
GSP-9300B Programming Manual GSP-9300B Introduction The GSP-9300B builds on the strong feature set of the GSP-9330 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-9330, the GSP-9300B features a split window display to view data in spectrum, topographic or spectrographic views.
Page 11 GETTING STARTED Marker Frequency counter  Two operating modes: Spectrum and Power  Meter mode SEM measurement  ACPR measurement  OCBW measurement  Phase jitter measurement  Harmonics measurement  P1dB measurement  Channel power measurement  Demodulation analyzer ...
Page 12 GSP-9300B 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-9300B Remote Control”, available on Google Play.)
Page 14: Appearance
GSP-9300B Programming Manual Appearance GSP-9300B Front Panel Function Main Control File keys display keys keys keys * Power key Marker keys GSP-9300B Spectrum Analyzer CONTROL 9 kHz 3 GHz Sweep Fast/ Frequency BW / AVG Sweep Mode Normal FILE MARKER...
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-9300B Programming Manual 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. Turns the Markers on/off and Marker Marker configures the markers.
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-9300B 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-9300B Programming Manual Power Socket: Power Socket 100~240V, 50/60Hz. Voltage: 11.1V 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-9300B 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-9300B 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-9300B 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-9300B 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-9300B 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-9300B also supports HiSlip.
Page 30 GSP-9300B 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-9300B web server or to control the GSP-9300B via remote control commands. To use the GSP-9300B 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-9300B 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-9300B 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,GSP9300B,XXXXXXXX,V3.X.X.X  Manufacturer: GWINSTEK Model number : GSP9300B 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-9300B display will Note flash when the Identification setting is turned on.
Page 40 GSP-9300B 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-9300B display. For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com.
Page 42 GSP-9300B 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-9300B) 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-9300B 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,GSP9300B,ENXXXXXX,V3.X.X.X 9300B,...
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-9300B must also be downloaded. The IVI driver can also be downloaded from the NI website with a search for the GSP-9300B in the thirdparty drivers section.
Page 47 2. From the Windows Device Manager sure the IVI driver recognizes the USB connection. The GSP-9300B 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-9300B Programming Manual 4. Select the GSP-9300B device that now appears in the System>Devices and Interfaces > GSP9300B“USBX…” node. 5. Click on the VISA Properties tab on the bottom. 6. Click Open Visa Test Panel. GSP9300B 9300B...
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-9300B Programming Manual 9300B,...
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-9300B 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-9300B 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-9300B 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-9300B 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-9300B. Condition registers can only be Registers read. The positive transistion registers are used to PTR Registers filter for events that occur from a negative to a positive transition.
Page 60 GSP-9300B 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-9300B Programming Manual Operation Status Register The Operation Status Register Group indicates Overview the operating status of the GSP-9300B. 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 32768 Demod Fail: This is the summary bit for the Demod Fail Register. 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 64 GSP-9300B Programming Manual Adj3 Low Fail: This bit is set to 1 when the ADJCH 3 LLimit has been violated. Questionable Status SEM Limit Register The Questionable Status SEM Limit Register Overview Group indicates if any of the SEM offset limits have been tripped.
Page 65 REMOTE CONTROL 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 66: Command List
GSP-9300B Programming Manual Command List *CLS ................76 SCPI Commands *IDN? ................76 *ESE ................77 *ESR? ................77 *OPC ................77 *RST ................78 *SRE ................78 *STB? ................78 *TST? ................78 *WAI ................79 :CALCulate:ACPR:ACHannel<n>:HLIMit: CALCulate FAIL?................81 Commands :CALCulate:ACPR:ACHannel<n>:LLIMit:...
Page 67 REMOTE CONTROL :CALCulate:DEMod:FM:RESult:CURRent? ... 90 :CALCulate:DEMod:FM:RESult:MINimum? ..91 :CALCulate:DEMod:FM:RESult:MAXimum? ..91 :CALCulate:DEMod:FM:STATe ....... 92 :CALCulate:DEMod:LIMit:AMDepth...... 92 :CALCulate:DEMod:LIMit:FDEViation ....92 :CALCulate:DEMod:LIMit:CARRier:OFFSet ..93 :CALCulate:DEMod:LIMit:CARRier:POWer ..93 :CALCulate:DEMod:LIMit:FAIL? ......94 :CALCulate:DEMod:LIMit:STATe ......94 :CALCulate:HARMonic:DISTortion? ....... 95 :CALCulate:HARMonic:RESult? ....... 95 :CALCulate:HARMonic:STATe ......... 95 :CALCulate:JITTer:STATe..........
Page 68 GSP-9300B Programming Manual :CALCulate:MARKer:PEAK:THReshold: STATe ................107 :CALCulate:MARKer<n>:SET ........107 :CALCulate:MARKer<n>:STATe ......108 :CALCulate:MARKer:TABLe:STATe .....108 :CALCulate:MARKer<n>:TRACe ......108 :CALCulate:MARKer<n>:TRACe:AUTO ....109 :CALCulate:MARKer<n>:TYPE ......109 :CALCulate:MARKer<n>:X........110 :CALCulate:MARKer<n>:Y? ........110 :CALCulate:MATH:PDIF .........110 :CALCulate:MATH:LDIF .........111 :CALCulate:MATH:LOFF ........111 :CALCulate:NDB:STATe ..........111 :CALCulate:NDB:BANDwidth|BWIDth? ....112 :CALCulate:NORMalize:STATe ......112 :CALCulate:OCBW:STATe ........113 :CALCulate:OCBW:BANDwidth|BWIDth? ..113 :CALCulate:OCBW:CHPower? ........113 :CALCulate:OCBW:POWer? ........114 :CALCulate:OCBW:PSDensity? .......114...
Page 69 REMOTE CONTROL :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:AUTO ............124 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:PDIVision ........... 124 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:RPOSition ........... 125 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:RVALue ............125 :DISPlay:DEMod[:WINDow]:TRACe:Y [: SCALe]:AUTO ............125 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:PDIVision ........... 126 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:RPOSition ........... 126 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:RVALue ............126 :DISPlay:P1DB[:WINDow]:TRACe:Y[:SCALe]: LEVel?................127 :DISPlay[:WINDow]:NORMal ........ 127 :DISPlay[:WINDow]:SPECtrogram ......
Page 70 GSP-9300B Programming Manual :DISPlay[:WINDow]:SPLit:SPECtrogram .....132 :DISPlay[:WINDow]:SPLit:TOPO ......132 :DISPlay[:WINDow]:TOPO ........133 :DISPlay[:WINDow]:TOPO:MARKer:PERCent ? ..................133 :DISPlay[:WINDow]:TOPO:MARKer:X ....133 :DISPlay[:WINDow]:TOPO:MARKer:Y ....134 :DISPlay[:WINDow]:TOPO:MARKer :FREQuency? ...............134 :DISPlay[:WINDow]:TOPO:MARKer :AMPLitude? ..............134 :DISPlay[:WINDow]:TOPO:MARKer:STATe ..134 :DISPlay[:WINDow]:TOPO:DELTamarker:X ..135 :DISPlay[:WINDow]:TOPO:DELTamarker:Y ..135 :DISPlay[:WINDow]:TOPO:DELTamarker :FREQuency? ...............136 :DISPlay[:WINDow]:TOPO:DELTamarker :AMPLitude? ..............136 :DISPlay[:WINDow]:TOPO:DELTamarker :PERCent? ..............136 :DISPlay[:WINDow]:TRACe<n>:MODE ....137 :DISPlay[:WINDow]:TRACe<n>:MODE :MAXHold? ..............137...
Page 71 REMOTE CONTROL :INITiate[:IMMediate] ..........142 Commands :INPut:ATTenuation ..........143 INPut :INPut:ATTenuation:AUTO ........143 Commands :INPut:IMPedance ............144 :INPut:OFFSet ............144 :MMEMory:CATalog? ..........145 MMEMory :MMEMory:CDIRectory ........... 146 commands :MMEMory:COPY ............. 146 :MMEMory:DELete ........... 147 :MMEMory:DESTination ......... 147 :MMEMory:LOAD:CORRection ......148 :MMEMory:LOAD:LIMit .........
Page 72 GSP-9300B Programming Manual [:SENSe]:ACPR:SPACe ..........160 [:SENSe]:ASET:AMPLitude ........160 [:SENSe]:ASET:AMPLitude:AUTO .......160 [:SENSe]:ASET:RUN ..........161 [:SENSe]:ASET:SPAN ..........161 [:SENSe]:ASET:SPAN:AUTO .........161 [:SENSe]:AVERage:COUNt ........162 [:SENSe]:AVERage:STATe ........162 [:SENSe]:AVERage:TYPE ........162 [:SENSe]:BANDwidth|BWIDth[:RESolution] ..163 [:SENSe]:BANDwidth|BWIDth [:RESolution]:AUTO ..........163 [:SENSe]:BANDwidth|BWIDth:VIDeo ....163 [:SENSe]:BANDwidth|BWIDth:VIDeo:AUTO ..164 [:SENSe]:CHANnel:SPACe:DOWN.......164 [:SENSe]:CHANnel:SPACe:UP .......164 [:SENSe]:CNR:CHANnel:SPACe ......165 [:SENSe]:CNR:DELTamarker:MODE ....165 [:SENSe]:CORRection:CSET<n>:DATA .....165 [:SENSe]:CORRection:CSET<n>:STATe .....166 [:SENSe]:CORRection:CSET<n>:DELete ...166...
Page 73 REMOTE CONTROL [:SENSe]:HARMonic:NUMBer ....... 174 [:SENSe]:LIMit<n>:DELete ........174 [:SENSe]:JITTer:OFFSet:STARt ......174 [:SENSe]:JITTer:OFFSet:STOP....... 175 [:SENSe]:NDB:BANDwidth|BWIDth ....175 [:SENSe]:OCBW:BANDwidth|BWIDth....175 [:SENSe]:OCBW:PERCent ........176 [:SENSe]:OCBW:SPACe ........... 176 [:SENSe]:P1DB:AVERage:COUNt ......176 [:SENSe]:P1DB:GAIN:OFFSet ....... 177 [:SENSe]:PMETer:FREQuency ....... 177 [:SENSe]:PMETer:HLIMit ........177 [:SENSe]:PMETer:HOLD:STATe ......178 [:SENSe]:PMETer:LLIMit ........178 [:SENSe]:PMETer:PSENsor:MODE ......
Page 74 GSP-9300B Programming Manual [:SENSe]:SEMask:OFFSet<n>:BANDwidth|B WIDth[:RESolution]:AUTO ........188 [:SENSe]:SEMask:OFFSet<n>:FREQuency: STARt ................188 [:SENSe]:SEMask:OFFSet<n>:FREQuency: STOP ................189 [:SENSe]:SEMask:OFFSet<n>:STARt: ABSolute ...............189 [:SENSe]:SEMask:OFFSet<n>:STARt: RELative ...............189 [:SENSe]:SEMask:OFFSet<n>:STATe ....190 [:SENSe]:SEMask:OFFSet<n>:STOP:ABSolute..190 [:SENSe]:SEMask:OFFSet<n>:STOP: ABSolute:COUPle ............191 [:SENSe]:SEMask:OFFSet<n>:STOP:RELative ..191 [:SENSe]:SEMask:OFFSet<n>:STOP: RELative:COUPle ............192 [:SENSe]:SEMask:OFFSet<n>:TEST ....192 [:SENSe]:SEMask:SELect ..........192 [:SENSe]:SEMask:TYPE ...........193 [:SENSe]:SEMask:W3GPP:DUPLex:TYPE ..193 [:SENSe]:SEMask:W3GPP:FDD:ADDition: LIMit ................194 [:SENSe]:SEMask:W3GPP:FDD:ADDition: MOPower ..............194...
Page 75 REMOTE CONTROL :SOURce:P1DB:TYPE ..........201 SOURce :SOURce:POWer[:LEVel][:IMMediate] commands [:AMPLitude] ............... 201 :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:OFFSet ..........202 :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:STEP ............ 202 :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:STEP:AUTO ........203 :SOURce:POWer:MODE ......... 203 :SOURce:POWer:SWEep .......... 203 :SYSTem:ALARm:STATe ......... 205 SYSTem :SYSTem:CLOCk<n>:DATE ........206 commands :SYSTem:CLOCk<n>:MODE ........ 206 :SYSTem:CLOCk<n>:STATe .........
Page 76 GSP-9300B Programming Manual :STATus:OPERation:NTRansition ......215 :STATus:OPERation:PTRansition ......215 :STATus:QUEStionable:CONDition? ....216 :STATus:QUEStionable:ENABle ......216 :STATus:QUEStionable[:EVENt]? ......217 :STATus:QUEStionable:NTRansition ....217 :STATus:QUEStionable:PTRansition .....218 :STATus:QUEStionable:FREQuency: CONDition? ..............218 :STATus:QUEStionable:FREQuency:ENABle ..219 :STATus:QUEStionable:FREQuency[:EVENt]? ..219 :STATus:QUEStionable:FREQuency: NTRansition ..............219 :STATus:QUEStionable:FREQuency: PTRansition ..............220 :STATus:QUEStionable:ACPLimit: CONDition? ..............220 :STATus:QUEStionable:ACPLimit:ENABle ..221 :STATus:QUEStionable:ACPLimit[:EVENt]? ..221 :STATus:QUEStionable:ACPLimit:NTRansition .222 :STATus:QUEStionable:ACPLimit:PTRansition ..222 :STATus:QUEStionable:SEMLimit :CONDition ? ..................223...
Page 77 REMOTE CONTROL :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe ..232 :TRIGger[:SEQuence]:DEMod:SOURce ....233 :TRIGger[:SEQuence]:DEMod:TIME:STARt ..233 :TRIGger[:SEQuence]:DEMod:TIME:STOP ..233 :TRIGger[:SEQuence]:EXTernal:SLOPe ....234 :TRIGger[:SEQuence]:MODE ......... 234 :TRIGger[:SEQuence]:PMETer:SOURce ....234 :TRIGger[:SEQuence]:SOURce ....... 235 :TRIGger[:SEQuence]:VIDeo:FREQuency ... 235 :TRIGger[:SEQuence]:VIDeo:LEVel ..... 235 :TRIGger[:SEQuence]:VIDeo:SLOPe ....236 :UNIT:PMETer:POWer ..........237 UNIT commands :UNIT:POWer .............
Page 78 GSP-9300B Programming Manual SCPI Commands *CLS ................76 *IDN? ................76 *ESE ................77 *ESR? ................77 *OPC ................77 *RST ................78 *SRE ................78 *STB? ................78 *TST? ................78 *WAI ................79 *CLS The *CLS command clears the Standard Event...
Page 79 Returns the instrument identification as a Return parameter <charact character data in the following format: er data> GWINSTEK,GSP-9300B,XXXXXXXX,T.X.X.X.X Manufacturer: GWINSTEK Model number : GSP-9300B Serial number : XXXXXXXX Firmware version : V3.X.X.X *ESE Query Sets or queries the Standard Event Status Enable Description register.
Page 80 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-9300B Description does not support performing a selftest and thus will always return “0” for this query. Query Syntax *TST? Returns “0”...
Page 81 REMOTE CONTROL *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? ................81 :CALCulate:ACPR:ACHannel<n>:LLIMit: FAIL? ................82 :CALCulate:ACPR:ACHannel<n>:LOWer? ... 82 :CALCulate:ACPR:ACHannel<n>:UPPer? ..... 82 :CALCulate:ACPR:ACHannel<n>:STATe ....83 :CALCulate:ACPR:CHANnel:HLIMit:FAIL? ..
Page 82 GSP-9300B Programming Manual :CALCulate:DEMod:LIMit:AMDepth ...... 92 :CALCulate:DEMod:LIMit:FDEViation ....92 :CALCulate:DEMod:LIMit:CARRier:OFFSet..93 :CALCulate:DEMod:LIMit:CARRier:POWer ..93 :CALCulate:DEMod:LIMit:FAIL?......94 :CALCulate:DEMod:LIMit:STATe ......94 :CALCulate:HARMonic:DISTortion? ....... 95 :CALCulate:HARMonic:RESult? ....... 95 :CALCulate:HARMonic:STATe ......... 95 :CALCulate:JITTer:STATe .......... 96 :CALCulate:JITTer:CARRier:POWer? ...... 96 :CALCulate:JITTer:PHASe? ........96 :CALCulate:JITTer:TIME? .......... 97 :CALCulate:LIMit<n>:CLEar ........
Page 83: Calculate:acpr:achannel:Hlimit: Fail
REMOTE CONTROL :CALCulate:MARKer:TABLe:STATe ..... 108 :CALCulate:MARKer<n>:TRACe ......108 :CALCulate:MARKer<n>:TRACe:AUTO .... 109 :CALCulate:MARKer<n>:TYPE ......109 :CALCulate:MARKer<n>:X ........110 :CALCulate:MARKer<n>:Y? ........110 :CALCulate:MATH:PDIF ......... 110 :CALCulate:MATH:LDIF ......... 111 :CALCulate:MATH:LOFF ........111 :CALCulate:NDB:STATe .......... 111 :CALCulate:NDB:BANDwidth|BWIDth? .... 112 :CALCulate:NORMalize:STATe ......112 :CALCulate:OCBW:STATe ........113 :CALCulate:OCBW:BANDwidth|BWIDth? ..
Page 84: Calculate:acpr:achannel:Llimit: Fail
GSP-9300B Programming Manual 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 for the selected adjacent channel. Query Syntax :CALCulate:ACPR:ACHannel<n>:LLIMit:FAIL? Parameter <n> <NR1>adjacent channel 1~3 Return parameter 0 <boolean>Pass...
Page 85: Calculate:acpr:achannel:Upper
REMOTE CONTROL Returns the ACPR (adjacent channel power ratio in Description dB) calculated for the selected higher adjacent channel. Query Syntax :CALCulate:ACPR:ACHannel<n>:UPPer? Parameter <n> <NR1>adjacent channel 1~3 Return parameter <NR3> Power ratio in dB Query Example :CALC:ACPR:ACH1:UPP? >1.921e+01 :CALCulate:ACPR:ACHannel<n>:STATe Query Sets or queries the state of the selected adjacent Description channel.
Page 86: Calculate:acpr:channel:llimit:fail
GSP-9300B Programming Manual Query Example :CALC:ACPR:CHAN:HLIM:FAIL? >0 :CALCulate:ACPR:CHANnel:LLIMit:FAIL? Query Returns the ACPR lower limit pass/fail judgment Description for the main channel. A pass indicates that every trace point in the main channel is higher than or equal to the lower limit.
Page 87: Calculate:cnr:result
REMOTE CONTROL Return parameter 0 ACPR is disabled. ACPR is enabled. Query Example :CALC:ACPR:STAT? >1 :CALCulate:CNR:RESult? Query Returns the CNR measurement result in dB. Description Query Syntax :CALCulate:CNR:RESult? Return parameter <NR3> CNR measurement in dB Query Example :CALC:CNR:RES? >-4.959e+01 :CALCulate:CNR:STATe Query Sets or queries the state of the CNR measurement Description...
Page 88: Calculate:cso:state
GSP-9300B Programming Manual Return parameter <NR3> CSO measurement in dB Query Example :CALC:CSO:RES? >4.04e+00 :CALCulate:CSO:STATe Query Sets or queries the state of the CSO measurement Description function. Syntax :CALCulate:CSO:STATe {ON|OFF|1|0} Query Syntax :CALCulate:CSO:STATe? Parameter CSO is off. CSO is on.
Page 89: Calculate:ctb:restart
REMOTE CONTROL Parameter CTB is off. CTB is on. CTB is off. CTB is on. Return parameter 0 CTB is off. CTB is on. Query Example :CALC:CTB:STAT? >0 :CALCulate:CTB:RESTart Restarts the CTB measurement. Description Syntax :CALCulate:CTB:RESTart :CALCulate:DELTamarker<n>:PAIR:SPAN Sets the span between the chosen marker and the Description delta marker.
Page 90: Calculate:deltamarker:X
GSP-9300B Programming Manual :CALCulate:DELTamarker<n>:X Query Sets or queries the selected delta marker position. Description Syntax :CALCulate:DELTamarker<n>:X <freq> Query Syntax :CALCulate:DELTamarker<n>:X? Parameter <n> Marker number. Return parameter <freq> <NR3> frequency in Hz. Example :CALC:DELT1:X? >1e+9 :CALCulate:DELTamarker<n>:Y? Query Returns the selected delta marker Y axis value.
Page 91: Calculate:demod:am:result:minimum
REMOTE CONTROL Query Example :CALC:DEM:AM:RES:CURR? >9.840e+1,1.02e+2,-1.12e+1,3.21e+1,1.61e+1 :CALCulate:DEMod:AM:RESult:MINimum? Query Returns the minimum recorded measurement Description results for AM demodulation as a comma separated string. Query Syntax :CALCulate:DEMod:AM:RESult:MINimum? 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 92: Calculate:demod:earphone:state
GSP-9300B Programming Manual Sets or queries the state of the AM Analysis Description function. Syntax :CALCulate:DEMod:AM:STATe {ON|OFF|1|0} Query Syntax :CALCulate:DEMod:AM:STATe? Parameter Turn AM Analysis off. Turn AM Analysis on. Turn AM Analysis off. Turn AM Analysis on. Return parameter 0 AM Analysis is off.
Page 93: Calculate:demod:fm:result:minimum
REMOTE CONTROL 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:CURR? >9.840e+1,1.02e+2,-1.12e+1,3.21e+1,1.61e+1 :CALCulate:DEMod:FM:RESult:MINimum? Query Returns the minimum recorded measurement Description results for FM demodulation as a comma separated string.
Page 94: Calculate:demod:fm:state
GSP-9300B Programming Manual :CALCulate:DEMod:FM:STATe Query Sets or queries the state of the FM Analysis Description function. Syntax :CALCulate:DEMod:FM:STATe {ON|OFF|1|0} Query Syntax :CALCulate:DEMod:FM:STATe? Parameter Turn FM Analysis off. Turn FM Analysis on. Turn FM Analysis off. Turn FM Analysis on. Return parameter 0 FM Analysis is off.
Page 95: Calculate:demod:limit:carrier:offset
REMOTE CONTROL Query Syntax :CALCulate:DEMod:LIMit:FDEViation? Parameter/ <freq> <NR3> deviation in Hz. Return Parameter Example :CALC:DEM:LIM:FDEV? >1.000000000e+02 :CALCulate:DEMod:LIMit:CARRier:OFFSet Query Sets or queries the carrier offset frequency limit. Description The carrier offset indicates the maximum offset for a pass judgement. Syntax :CALCulate:DEMod:LIMit:CARRier:OFFSet <freq> Query Syntax :CALCulate:DEMod:LIMit:CARRier:OFFSet? Parameter/...
Page 96: Calculate:demod:limit:fail
GSP-9300B Programming Manual :CALCulate:DEMod:LIMit:FAIL? Query Returns the demod limit pass/fail judgment. A Description pass indicates that the trace abides by every limit condition. Query Syntax :CALCulate:DEMod:LIMit:FAIL? Reutrn Parameter For AM Modulation: <AM Depth>,<Carrier Power>,<Carrier Frequency Offset> For FM Modulation: <Freq Deviation>,<Carrier Power>,<Carrier Freq Offset>...
Page 97: Calculate:harmonic:distortion
REMOTE CONTROL :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> <%> THD as %. <NR1> format <dBc> THD as dBc. <NRf> format Query Example :CALC:HARM:DIST? >32.34,-9.81e+00 :CALCulate:HARMonic:RESult? Query Returns the amplitude of each harmonic in dBm.
Page 98: Calculate:jitter:state
GSP-9300B Programming Manual Example :CALC:HARM:STAT ON :CALCulate:JITTer:STATe Query Sets or queries the state of the Jitter Analysis Description function. Syntax :CALCulate:JITTer:STATe {ON|OFF|1|0} Query Syntax :CALCulate:JITTer:STATe? Parameter Turn Jitter Analysis off. Turn Jitter Analysis on. Turn Jitter Analysis off. Turn Jitter Analysis on.
Page 99: Calculate:jitter:time
REMOTE CONTROL :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 Description Pass/Fail state for the selected limit line. Syntax :CALCulate:LIMit<n>:CLEar Parameter...
Page 100: Calculate:limit:fail
GSP-9300B Programming Manual :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 :CALCulate:LIMit:LOW Selects which limit line is used for the low limit. Description Syntax :CALCulate:LIMit:LOW <limit num> Parameter <limit <NR1>...
Page 101: Calculate:limit:mode
REMOTE CONTROL Parameter <point> <NR1> point 1~10 <offset> <NR3> dB <n> Seleted limit line Example :CALC:LIM1:MARK 5, 20 :CALCulate:LIMit:MODE Query Sets or queries the Pass/Fail mode for limit line Description testing. Syntax :CALCulate:LIMit:MODE {SINGle|CONTinue} Query Syntax :CALCulate:LIMit:MODE? Parameter SINGle Stops triggering after a pass/fail result. CONTinue Continues triggering after a pass/fail result.
Page 102: Calculate:limit:Trace
GSP-9300B Programming Manual :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> <NR3> in dB Example :CALC:LIM2:TRAC 10 :CALCulate:LIMit:TYPE Query Sets or queries the Pass/Fail conditions for the Description limit line testing.
Page 103: Calculate:marker:Fcount: Resolution:auto
REMOTE CONTROL 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. The selected marker counter will disable the previously selected marker counter.
Page 104: Calculate:marker:Fcount:state
GSP-9300B 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 105: 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 106: Calculate:marker:Vswr:y
GSP-9300B Programming Manual :CALCulate:MARKer<n>:VSWR:Y? Query Returns the VSWR measurement value. Description Query Syntax :CALCulate:MARKer<n>:VSWR:Y? Parameter <n> <NR1> Maker number 1~6. Return parameter <NR2> VSWR value. Example :CALC:MARK1:VSWR:Y? >1.35 :CALCulate:MARKer<n>:PEAK Sets the selected marker to the selected peak. Description Query Syntax :CALCulate:MARKer<n>:PEAK {MAXimum|...
Page 107: Calculate:marker:peak:data
REMOTE CONTROL Parameter Turn peak track off. Turn peak track on. Turn peak track off. Turn peak track on. Return parameter 0 Peak track is off. Peak track is on. Example :CALC:MARK:PEAK:CTR:STAT ON :CALCulate:MARKer:PEAK:DATA? Query Returns all the top 10 peak data values in CSV Description format (returns the contents of the peak table).
Page 108: Calculate:marker:peak:sort:type
GSP-9300B Programming Manual :CALCulate:MARKer:PEAK:SORT:TYPE Query Sets or queries the peak sort type for the peak Description table. Syntax :CALCulate:MARKer:PEAK:SORT:TYPE {FREQuency|AMPLitude} Query Syntax :CALCulate:MARKer:PEAK:SORT:TYPE? Parameter/ FREQuency Sort by frequency. Return parameter AMPLitude Sort by amplitude. Example :CALC:MARK:PEAK:SORT:TYPE FREQ :CALCulate:MARKer:PEAK:TABLe:STATe Query Sets or queries the state of the Peak Table.
Page 109: Calculate:marker:peak:threshold: State
REMOTE CONTROL Return parameter <NR3> Peak threshold. Note: the unit returned depends on the currently set vertical units. Example :CALC:MARK:PEAK:THR -3 dBm :CALCulate:MARKer:PEAK:THReshold: STATe Query Sets or queries the state of the Peak Threshold. Description Syntax :CALCulate:MARKer:PEAK:THReshold:STATe {ON|OFF|1|0} Query Syntax :CALCulate:MARKer:PEAK:THReshold:STATe? Parameter Turn peak threshold off.
Page 110: Calculate:marker:State
GSP-9300B Programming Manual :CALCulate:MARKer<n>:STATe Query Sets or queries the state of the selected marker. Description Syntax :CALCulate:MARKer<n>:STATe {ON|OFF|1|0} Query Syntax :CALCulate:MARKer<n>:STATe? Parameter <n> <NR1> Marker number 1~6 Turn the selected marker off. Turn the selected marker on. Turn the selected marker off.
Page 111: Calculate:marker:Trace:auto
REMOTE CONTROL 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> Example :CALC:MARK2:TRAC 1 :CALCulate:MARKer<n>:TRACe:AUTO Query Sets or queries the state of the Marker Trace Description function. Allows the selected marker to be automatically assigned to a trace (on) or be to manually assigned a trace (off).
Page 112: Calculate:marker:X
GSP-9300B Programming Manual :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> <NR1> Marker number 1~6 Return parameter <freq> Example :CALC:MARK4:X 2.0e+6 :CALCulate:MARKer<n>:Y? Query Returns the marker’s vertical position in the Description current unit.
Page 113: Calculate:math:ldif
REMOTE CONTROL :CALCulate:MATH:LDIF Calculates the logarithmic difference between two Description traces (T1 – the first trace operand and T2 – the second trace operand) and assigns the designated reference level to the destination trace. Syntax :CALCulate:MATH:LDIF <Destination Trace,T1,T2, Ref> Parameter <...
Page 114: Calculate:ndb:bandwidth|Bwidth
GSP-9300B Programming Manual Parameter Turn NdB BW off. Turn NdB BW on. Turn NdB BW off. Turn NdB BW on. Return parameter 0 NdB BW is off. NdB BW is on. Example :CALC:NDB:STAT ON :CALCulate:NDB:BANDwidth|BWIDth? Query Returns the NdB bandwidth measurement.
Page 115: Calculate:ocbw:state
REMOTE CONTROL :CALCulate:OCBW:STATe Query Turns the OCBW measurement on/off or queries Description its state. Syntax :CALCulate:OCBW:STATe {ON|OFF|1|0} Query Syntax :CALCulate:OCBW:STATe? Parameter Turn OCBW off. Turn OCBW on. Turn OCBW off. Turn OCBW on. Return parameter 0 OCBW is off. OCBW is on. Example :CALC:OCBW:STAT ON :CALCulate:OCBW:BANDwidth|BWIDth?
Page 116: Calculate:ocbw:power
GSP-9300B Programming Manual :CALCulate:OCBW:POWer? Query Returns the OCBW total power measurement. Description Query Syntax :CALCulate:OCBW:POWer? Return parameter <NR3> OCBW total power in the current Y-axis unit. Example :CALC:OCBW:POW? >1.33e+01 :CALCulate:OCBW:PSDensity? Query Returns the OCBW power spectral density. Description Query Syntax :CALCulate:OCBW:PSDensity? Return parameter <NR3>...
Page 117: Calculate:p1Db:normalize:state
REMOTE CONTROL :CALCulate:P1DB:NORMalize:STATe Query Turns the P1DB function on or off. Description Syntax :CALCulate:P1DB:NORMalize:STATe {ON|OFF|1|0} Query Syntax :CALCulate:P1DB:NORMalize:STATe? Parameter OFF | 0 Turns the normalize function off. ON | 1 Turns the normalize function on. Return parameter 0 Normalize function is off. Normalize function is on.
Page 118: Calculate:p1Db:result
GSP-9300B Programming Manual Return parameter <NR3>,<NR3>……<NR3> (31 return values) <NR3> Gain in dB. Starting at -30dBm and ending at 0dBm Example :CALC:P1DB:GAIN:RES? >0.00e+00,0.00e+00,0.00e+00,0.00e+00,0.00e+00,0.00 e+00,0.00e+00,0.00e+00,0.00e+00,0.00e+00,0.00e+00, 0.00e+00,0.00e+00,0.00e+00,0.00e+00,0.00e+00,0.00e +00,0.00e+00,0.00e+00,0.00e+00,1.382e+01,1.406e+01 ,1.401e+01,1.404e+01,1.423e+01,1.419e+01,1.434e+01 ,1.441e+01,1.449e+01,1.460e+01,1.426e+01\n :CALCulate:P1DB:RESult? Query Returns the P1dB result as x-y coordinates. Description Query Syntax :CALCulate:P1DB:RESult? Return parameter <x>,<y>...
Page 119: Calculate:pmeter:limit:fail
REMOTE CONTROL Syntax :CALCulate:PMETer:LIMit:STATe {ON|OFF|1|0} Query Syntax :CALCulate:PMETer:LIMit:STATe? Parameter Turns limits off. Turns limits on. Turns limits off. Turns limits on. Return parameter 0 Turns limits off. Turns limits on. Example :CALC:PMET:LIM:STAT? >1 :CALCulate:PMETer:LIMit:FAIL? Query Returns the pass/fail judgment. Description Query Syntax :CALCulate:PMETer:LIMit:FAIL? Return parameter 0...
Page 120: Calculate:sem:offset:Result
GSP-9300B Programming Manual :CALCulate:SEM:OFFSet<n>:RESult? Query Returns the start, stop frequencies as well as the Description pass/fail limits and judgements for the chosen offset. Query syntax :CALCulate:SEM:OFFSet<n>:RESult? Parameter <n> Offset number 1~5. Return parameter <start freq> Start frequency of the selected channel <low dBm>...
Page 121: Calculate:toi:limit:state
REMOTE CONTROL Δf: Hz Return parameter <NR3> Example :CALC:TOI:FREQ:DIFF? >6.65e+5 :CALCulate:TOI:LIMit:STATe Query Turns the TOI pass/fail limit on/off or queries its Description state. Syntax :CALCulate:TOI:LIMit:STATe {ON|OFF|1|0} Query Syntax :CALCulate:TOI:LIMit:STATe? Parameter Turns pass/fail limit off. Turns pass/fail limit on. Turns pass/fail limit off. Turns pass/fail limit on.
Page 122 GSP-9300B Programming Manual Turns TOI measurement on/off or queries its state. Description Syntax :CALCulate:TOI:STATe {ON|OFF|1|0} Query Syntax :CALCulate:TOI:STATe? Parameter Turns TOI measurement off. Turns TOI measurement on. Turns TOI measurement off. Turns TOI measurement on. Return parameter 0 TOI measurement is off.
Page 123 REMOTE CONTROL DISPlay Commands :DISPlay:BRIGhtness ..........123 :DISPlay:ENABle............123 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:AUTO ............124 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:PDIVision ........... 124 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:RPOSition ........... 125 :DISPlay:DEMod[:WINDow]:TRACe:X [:SCALe]:RVALue ............125 :DISPlay:DEMod[:WINDow]:TRACe:Y [: SCALe]:AUTO ............125 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:PDIVision ........... 126 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:RPOSition ........... 126 :DISPlay:DEMod[:WINDow]:TRACe:Y [:SCALe]:RVALue ............126 :DISPlay:P1DB[:WINDow]:TRACe:Y[:SCALe]: LEVel?................
Page 124 GSP-9300B Programming Manual :DISPlay[:WINDow]:SPECtrogram:MARKer :AMPLitude? ..............131 :DISPlay[:WINDow]:SPECtrogram:MARKer :TIME? ................131 :DISPlay[:WINDow]:SPLit:NORMal:ALTernate . 132 :DISPlay[:WINDow]:SPLit:NORMal:ACTive ..132 :DISPlay[:WINDow]:SPLit:SPECtrogram ..... 132 :DISPlay[:WINDow]:SPLit:TOPO ......132 :DISPlay[:WINDow]:TOPO ........133 :DISPlay[:WINDow]:TOPO:MARKer:PERCen t? ..................133 :DISPlay[:WINDow]:TOPO:MARKer:X ....133 :DISPlay[:WINDow]:TOPO:MARKer:Y ....134 :DISPlay[:WINDow]:TOPO:MARKer :FREQuency? ............... 134 :DISPlay[:WINDow]:TOPO:MARKer :AMPLitude? ..............
Page 125: Display:brightness
REMOTE CONTROL :DISPlay[:WINDow]:TRACe:Y[:SCALe]: SPACing ................ 141 :DISPlay[:WINDow]:TRACe:Y[:SCALe]:STATe . 141 :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...
Page 126: Display:demod[:Window]:Trace:x [:Scale]:Auto
GSP-9300B Programming Manual :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. Syntax :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe]:AUTO {OFF|ON|0|1} Query Syntax :DISPlay:DEMod[:WINDow]:TRACe:X[:SCALe]:AUTO? Parameter Turn Auto Scale off.
Page 127: Display:demod[:Window]:Trace:x [:Scale]:Rposition
REMOTE CONTROL :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 Sets or queries the Reference value time.
Page 128: Display:demod[:Window]:Trace:y [:Scale]:Pdivision
GSP-9300B Programming Manual :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 129: Display:p1Db[:Window]:Trace:y[:Scale]: Level
REMOTE CONTROL 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:P1DB[:WINDow]:TRACe:Y[:SCALe]: LEVel? Query Returns the P1dB normalization value (offset) in Description dB. Equivalent to the “Execute Norm.” value in the P1dB Normalize function.
Page 130: Display[:Window]:Spectrogram :Deltamarker:y
GSP-9300B Programming Manual Sets or queries spectrogram delta marker’s x-axis. Description Syntax :DISPlay[:WINDow]:SPECtrogram:DELTamarker:X <NR1> Query Syntax :DISPlay[:WINDow]:SPECtrogram:DELTamarker:X? Parameter/Return <NR1> X axis value. parameter Example :DISP:SPEC:DELT:X 200 :DISPlay[:WINDow]:SPECtrogram :DELTamarker:Y Query Sets or queries spectrogram delta marker’s y-axis. Description Syntax :DISPlay[:WINDow]:SPECtrogram:DELTamarker:Y <NR1>...
Page 131: Display[:Window]:Spectrogram :Deltamarker:amplitude
REMOTE CONTROL :DISPlay[:WINDow]:SPECtrogram :DELTamarker:AMPLitude? Query Returns spectrogram delta marker amplitude Description value. Query syntax :DISPlay[:WINDow]:SPECtrogram:DELTamarker:AMPLi tude? Return parameter <NR3> Amplitude in dB. Example :DISP:SPEC:DELT:AMPL? >7.347e+00 :DISPlay[:WINDow]:SPECtrogram :DELTamarker:INVerse:TIME? Query Returns the frequency delta between the refence Description and delta marker in the spectrogram display view. Query syntax :DISPlay[:WINDow]:SPECtrogram:DELTamarker :INVerse:TIME?
Page 132: Display[:Window]:Spectrogram:marker :State
GSP-9300B Programming Manual :DISPlay[:WINDow]:SPECtrogram:MARKer :STATe Query Sets or queries the state of the spectrogram marker. Description Syntax :DISPlay[:WINDow]:SPECtrogram:MARKer:STATe {OFF|ON|0|1} Query Syntax :DISPlay[:WINDow]:SPECtrogram:MARKer:STATe? Parameter OFF | 0 Turn spectrogram marker off. ON | 1 Turn spectrogram marker on. Return parameter 0 Spectrogram marker is off.
Page 133: Display[:Window]:Spectrogram:marker :Frequency
REMOTE CONTROL 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 Returns spectrogram marker frequency value. Description Query syntax :DISPlay[:WINDow]:SPECtrogram:MARKer :FREQuency? Return parameter <NR3> Frequency in Hz. Example :DISP:SPEC:MARK:FREQ? >3.333e+03 :DISPlay[:WINDow]:SPECtrogram:MARKer :AMPLitude? Query Returns spectrogram marker amplitude value.
Page 134: Display[:Window]:Split:normal:alternate
GSP-9300B Programming Manual 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 Description window mode, both windows are in the normal trace mode. (we also have Spectrogram and Topographic mode)
Page 135: Display[:Window]:Topo
REMOTE CONTROL 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 :DISP:TOPO :DISPlay[:WINDow]:TOPO:MARKer:PERCen Query Returns the percentage of traces that cross the Description reference marker position in the topographic display view.
Page 136: Display[:Window]:Topo:marker:y
GSP-9300B Programming Manual :DISPlay[:WINDow]:TOPO:MARKer:Y Query Sets or queries topographic marker’s y-axis value. Description Syntax :DISPlay[:WINDow]:TOPO:MARKer:Y <NR1> Query Syntax :DISPlay[:WINDow]:TOPO:MARKer:Y? Parameter/Return <NR1> Y axis value. parameter Example :DISP:TOPO:MARK:Y 75 :DISPlay[:WINDow]:TOPO:MARKer :FREQuency? Query Returns topographic marker frequency value. Description Query syntax :DISPlay[:WINDow]:TOPO:MARKer:FREQuency? Return parameter <NR3>...
Page 137: Display[:Window]:Topo:deltamarker:x
REMOTE CONTROL Syntax :DISPlay[:WINDow]:TOPO:MARKer:STATe {OFF|ON|0|1} Query Syntax :DISPlay[:WINDow]:TOPO:MARKer:STATe? Parameter OFF | 0 Turn topographic marker off. ON | 1 Turn topographic marker on. Return parameter 0 Topographic marker is off. Topographic marker is on. Query Example :DISP:TOPO:MARK:STAT? >1 :DISPlay[:WINDow]:TOPO:DELTamarker:X Query Sets or queries topographic delta marker’s x-axis Description value.
Page 138: Display[:Window]:Topo:deltamarker :Frequency
GSP-9300B Programming Manual :DISPlay[:WINDow]:TOPO:DELTamarker :FREQuency? Query Returns topographic delta marker frequency value. Description Query syntax :DISPlay[:WINDow]:TOPO:DELTamarker:FREQuency? Return parameter <NR3> Frequency in Hz. Example :DISP:TOPO:DELT:FREQ? >-4.166e+04 :DISPlay[:WINDow]:TOPO:DELTamarker :AMPLitude? Query Returns topographic delta marker’s amplitude Description value. Query syntax :DISPlay[:WINDow]:TOPO:DELTamarker:AMPLitude? Return parameter <NR3>...
Page 139: Display[:Window]:Trace:Mode
REMOTE CONTROL :DISPlay[:WINDow]:TRACe<n>:MODE Sets the operation mode of the selected trace. Description Syntax :DISPlay[:WINDow]:TRACe<n>:MODE {WRITe|VIEW|BLANk|MAXHold|MINHold} Parameter <n> <NR1> Trace number 1~4 WRITe Clear and Write VIEW Hold the last trace BLANK Clears the trace MAXHold Hold the maximum/minimum points MINHold from each sweep Example :DISP:TRAC4:MODE VIEW...
Page 140: Display[:Window]:Trace:y:dline:state
GSP-9300B Programming Manual Parameter <ampl> <NRf> Power or voltage in the current Y- axis unit. Return parameter <NR3> Example :DISP:TRAC:Y:DLIN -5.0e+01 :DISPlay[:WINDow]:TRACe:Y:DLINe:STATe Query Turns the display line on/off or queries its state. Description Syntax :DISPlay[:WINDow]:TRACe:Y:DLINe:STATe {OFF|ON|0|1} Query Syntax :DISPlay[:WINDow]:TRACe:Y:DLINe:STATe? Parameter Turn display line off.
Page 141: Display[:Window]:Trace:y[:Scale]: Nrposition
REMOTE CONTROL Query Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:NRLevel? Parameter <ampl> <NRf> Power or voltage in the current Y- axis unit. Return parameter <NR3> Example :DISP:TRAC:Y:NRLevel 5 dB :DISPlay[:WINDow]:TRACe:Y[:SCALe]: NRPosition Query Sets or queries the position of the normalized Description reference level. The 0~10 Y-axis grid divisions correspond to the bottom~top grid divisions.
Page 142: Display[:Window]:Trace:y[:Scale]: Position
GSP-9300B Programming Manual :DISPlay[:WINDow]:TRACe:Y[:SCALe]: POSition Query Sets or queries the position of the on-screen scale. Description Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:POSition {LEFT|CENTer|RIGHt} Query Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:POSition? Parameter/ LEFT Position the scale to left Return parameter CENTer Position the scale to the center RIGHt Position the scale to right...
Page 143: Spacing
REMOTE CONTROL Example :DISP:TRAC:Y:RLEV:OFFS -5.0e+1 dB :DISPlay[:WINDow]:TRACe:Y[:SCALe]: SPACing Query Sets or queries the type of scale: logarithmic or Description linear. Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:SPACing {LINear|LOGarithmic} Query Syntax :DISPlay[:WINDow]:TRACe:Y[:SCALe]:SPACing? Parameter/ LINear Linear scale Return parameter LOGarithmic Logarithmic scale Example :DISP:TRAC:Y:SPAC LOG :DISPlay[:WINDow]:TRACe:Y[:SCALe]: STATe Query Turns the on-screen scale on/off or queries its Description...
Page 144: Initiate[:Immediate]
GSP-9300B Programming Manual INITiate Commands :INITiate:CONTinuous ..........142 :INITiate[:IMMediate] ..........142 :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...
Page 145: Input:attenuation
REMOTE CONTROL INPut Commands :INPut:ATTenuation ..........143 :INPut:ATTenuation:AUTO ........143 :INPut:IMPedance ............144 :INPut:OFFSet ............144 :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 Example :INP:ATT 10 dB :INPut:ATTenuation:AUTO Query...
Page 146: Input:impedance
GSP-9300B Programming Manual :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 147: Mmemory:catalog
REMOTE CONTROL MMEMory Commands :MMEMory:CATalog? ..........145 :MMEMory:CDIRectory ........... 146 :MMEMory:COPY ............. 146 :MMEMory:DELete ........... 147 :MMEMory:DESTination ......... 147 :MMEMory:LOAD:CORRection ......148 :MMEMory:LOAD:LIMit ......... 148 :MMEMory:LOAD:PMETer ........148 :MMEMory:LOAD:SEQuence ........ 148 :MMEMory:LOAD:STATe ........149 :MMEMory:LOAD:TRACe ........149 :MMEMory:MOVE ............ 149 :MMEMory:REName ..........
Page 148: Mmemory:cdirectory
GSP-9300B Programming Manual :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.
Page 149: Mmemory:delete
REMOTE CONTROL :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 multiple partitions inside, the system will automatically name these partitions in the numeric order, so you need to specify the partition number.
Page 150: Mmemory:load:correction
GSP-9300B Programming Manual :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 151: Mmemory:load:state
REMOTE CONTROL 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.sta Example :MMEM:LOAD:STAT “test.sta” :MMEMory:LOAD:TRACe Loads trace data from a file to the internal Description...
Page 152: Mmemory:rename
GSP-9300B Programming Manual :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>...
Page 153: Mmemory:store:pmeter
REMOTE CONTROL :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> XXX.jpg Example :MMEM:STOR:SCR “test.jpg”...
Page 154: Mmemory:store:trace
GSP-9300B Programming Manual Parameter <new_dest_file_name> XXX.sta Example :MMEM:STORe:STAT “test.sta” :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 155: Output[:State]
REMOTE CONTROL OUTPut Commands :OUTPut[:STATe]............153 :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. Turn TG output on. Return parameter 0 TG output is off.
Page 156 GSP-9300B Programming Manual SENSe Commands [:SENSe]:ACPR:ACHannel<n>:BANDwidth| BWIDth ................ 157 [:SENSe]:ACPR:ACHannel<n>:HLIMit ....157 [:SENSe]:ACPR:ACHannel<n>:LLIMit ....158 [:SENSe]:ACPR:ACHannel<n>:OFFSet ....158 [:SENSe]:ACPR:BANDwidth|BWIDth ....158 [:SENSe]:ACPR:HLIMit ..........159 [:SENSe]:ACPR:LLIMit ..........159 [:SENSe]:ACPR:HELP:STATe ........ 159 [:SENSe]:ACPR:SPACe ..........160 [:SENSe]:ASET:AMPLitude ........160 [:SENSe]:ASET:AMPLitude:AUTO ....... 160 [:SENSe]:ASET:RUN ..........161 [:SENSe]:ASET:SPAN ..........
Page 157 REMOTE CONTROL [:SENSe]:EMIFilter:BANDwidth|BWIDth [:RESolution]..............170 [:SENSe]:FREQuency:CENTer ....... 171 [:SENSe]:FREQuency:CENTer:STEP ....171 [:SENSe]:FREQuency:CENTer:STEP:AUTO ..171 [:SENSe]:FREQuency:OFFSet ......... 172 [:SENSe]:FREQuency:SPAN ........172 [:SENSe]:FREQuency:SPAN:FULL ....... 172 [:SENSe]:FREQuency:SPAN:PREVious ....173 [:SENSe]:FREQuency:STARt........173 [:SENSe]:FREQuency:STOP ........173 [:SENSe]:HARMonic:FUNDamental :FREQuency ..............173 [:SENSe]:HARMonic:NUMBer ....... 174 [:SENSe]:LIMit<n>:DELete ........174 [:SENSe]:JITTer:OFFSet:STARt ......
Page 158 GSP-9300B Programming Manual BANDwidth|BWIDth ..........183 [:SENSe]:SEMask:OFFSet<n>:ADDition: BANDwidth|BWIDth[:RESolution]?..... 184 [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STARt?........... 186 [:SENSe]:SEMask:OFFSet<n>:ADDition: FREQuency:STOP? ............ 186 [:SENSe]:SEMask:OFFSet<n>:ADDition: STARt:ABSolute? ............187 [:SENSe]:SEMask:OFFSet<n>:ADDition: STOP:ABSolute? ............187 [:SENSe]:SEMask:OFFSet<n>:BANDwidth| BWIDth[:RESolution] ..........187 [:SENSe]:SEMask:OFFSet<n>:BANDwidth|B WIDth[:RESolution]:AUTO ........188 [:SENSe]:SEMask:OFFSet<n>:FREQuency: STARt ................188 [:SENSe]:SEMask:OFFSet<n>:FREQuency: STOP ................189 [:SENSe]:SEMask:OFFSet<n>:STARt:...
Page 159: [:Sense]:Acpr:achannel:Bandwidth| Bwidth
REMOTE CONTROL ODE ................196 [:SENSe]:SEMask:WIMax:CHANnel: BANDwidth|BWIDth..........197 [:SENSe]:SEQuence<n>:DELete ......197 [:SENSe]:SWEep:EGATe:DELay ......197 [:SENSe]:SWEep:EGATe:LENGth ......198 [:SENSe]:SWEep:EGATe:STATe ......198 [:SENSe]:SWEep:MODE .......... 198 [:SENSe]:SWEep:TIME ..........199 [:SENSe]:SWEep:TIME:AUTO ....... 199 [:SENSe]:TOI:REFerence ......... 199 [:SENSe]:TOI:LIMit ........... 200 [:SENSe]:ACPR:ACHannel<n>:BANDwidth| BWIDth Query Sets or queries the adjacent channel bandwidth for Description the selected adjacent channel.
Page 160: [:Sense]:Acpr:achannel:Llimit
GSP-9300B Programming Manual 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 161: [:Sense]:Acpr:hlimit
REMOTE CONTROL 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> <NRf> power or voltage Return parameter <NR3>...
Page 162: [:Sense]:Acpr:space
GSP-9300B Programming Manual 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 163: [:Sense]:Aset:run
REMOTE CONTROL 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. Description Syntax [:SENSe]:ASET:SPAN <freq>...
Page 164: [:Sense]:Average:count
GSP-9300B Programming Manual [: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 165: [:Sense]:Bandwidth|Bwidth[:Resolution]
REMOTE CONTROL 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> <NRf>...
Page 166: [:Sense]:Bandwidth|Bwidth:video:auto
GSP-9300B Programming Manual 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 167: [:Sense]:Cnr:channel:space
REMOTE CONTROL 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 168: [:Sense]:Correction:cset:State
GSP-9300B Programming Manual 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.
Page 169: [:Sense]:Ctb:channel:space
REMOTE CONTROL 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> Example :CTB:CHAN:SPAC 6.0e+6 [:SENSe]:DEMod:EARPhone:TYPE...
Page 170: [:Sense]:Demod:earphone:gain
Sets the low pass filter to bypass. Return parameter LEVel<n> n=1~5 The filters 1 to 5 are shown in the table below. The GSP-9300B will automatically detect the signal frequency. AM/FM Signal Frequency (Hz) Selectable bandwidth of LPF (Hz) <n>=1 <n>=2...
Page 171: [:Sense]:Demod:ifbw
REMOTE CONTROL ≥391 ≥195 ≥78 ≥39 ≥20 ≥8 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>...
Page 172: [:Sense]:Detector[:Function]:Auto
GSP-9300B Programming Manual [:SENSe]:DETector[:FUNCtion]:AUTO Query Turns the trace detection mode to auto (on) or Description manual (off) or queries its state. Syntax [:SENSe]:DETector[:FUNCtion]:AUTO {OFF|ON|0|1} Query Syntax [:SENSe]:DETector[:FUNCtion]:AUTO? Parameter Turn the detection mode to manual (off). Turn the detection mode to auto (on).
Page 173: [:Sense]:Frequency:center
REMOTE CONTROL Syntax [:SENSe]:EMIFilter:BANDwidth|BWIDth[:RESolution] <freq> Parameter <freq> <NRf> (Only 200Hz, 9kHz, 120kHz and 1MHz are valid settings) Example :EMIF:BAND 2.0e+2 [:SENSe]:FREQuency:CENTer Query Sets or queries the center frequency. Description Syntax [:SENSe]:FREQuency:CENTer <freq> Query Syntax [:SENSe]:FREQuency:CENTer? Parameter <freq> <NRf> Return parameter <NR3> Example :FREQ:CENT 1.0e+9 [:SENSe]:FREQuency:CENTer:STEP...
Page 174: [:Sense]:Frequency:offset
GSP-9300B Programming Manual Parameter Turn CF Step to manual (off). Turn CF Step to auto (on). Turn CF Step to manual (off). Turn CF Step to auto (on). Return parameter 0 CF Step is set to manual. CF Step is set to automatic.
Page 175: [:Sense]:Frequency:span:previous
REMOTE CONTROL [: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. Description Syntax [:SENSe]:FREQuency:STARt <freq> Query Syntax [:SENSe]:FREQuency:STARt? Parameter <freq> <NRf> Return parameter <NR3> Example :FREQ:STAR 0 [:SENSe]:FREQuency:STOP Query Sets or queries the stop frequency.
Page 176: [:Sense]:Harmonic:number
GSP-9300B Programming Manual 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> Query Syntax :SENSe:HARMonic:NUMBer? Parameter <NR1> Harmonic number Return parameter <NR1> Returns the harmonic number Example :SENS:HARM:NUMB 3 [:SENSe]:LIMit<n>:DELete...
Page 177: [:Sense]:Jitter:offset:stop
REMOTE CONTROL [:SENSe]:JITTer:OFFSet:STOP Query Sets or queries the stop offset for phase jitter Description measurements. Syntax [:SENSe]:JITTer:OFFSet:STOP <freq> Query Syntax [:SENSe]:JITTer:OFFSet:STOP? Parameter <freq> <NRf> Return parameter <NR3> Example :JITT:OFFS:STOP 1.5e+7 [:SENSe]:NDB:BANDwidth|BWIDth Query Sets or queries the NdB amplitude for NdB Description bandwidth measurements.
Page 178: [:Sense]:Ocbw:percent
GSP-9300B Programming Manual [:SENSe]:OCBW:PERCent Query Sets or queries the OCBW percentage (OCBW %) Description parameter. Syntax [:SENSe]:OCBW:PERCent <integer> Query Syntax [:SENSe]:OCBW:PERCent? Parameter/ <integer> <NR1>0~100 Return parameter Example :OCBW:PERC 90 [:SENSe]:OCBW:SPACe Query Sets or queries the OCBW channel space for Description OCBW measurements.
Page 179: [:Sense]:P1Db:gain:offset
REMOTE CONTROL [:SENSe]:P1DB:GAIN:OFFSet Query Sets or queries the gain offset in dB. Description Syntax :SENSe:P1DB:GAIN:OFFSet <rel_ampl> Query Syntax :SENSe:P1DB:GAIN:OFFSet? Parameter <rel_ampl> <NRf> Return parameter <NR3> Returns the gain offset value in dB. Example :P1DB:GAIN:OFFS 10.00e+00 [:SENSe]:PMETer:FREQuency Query Sets or queries the power meter measurement Description frequency.
Page 180: [:Sense]:Pmeter:hold:state
GSP-9300B Programming Manual [:SENSe]:PMETer:HOLD:STATe Query Turns the power meter Max/Min Hold function Description on/off or queries its state. Syntax [:SENSe]:PMETer:HOLD:STATe {OFF|ON|0|1} Query Syntax [:SENSe]:PMETer:HOLD:STATe? Parameter Turn the Max/Min Hold function off. Turn the Max/Min Hold function on. Turn the Max/Min Hold function off.
Page 181: [:Sense]:Pmeter:recording:time
REMOTE CONTROL Parameter/ LOWNoise Sets the power meter mode to low noise. Return parameter FASTer Set the power meter mode to fast. Example :PMET:PSEN:MODE [:SENSe]:PMETer:RECording:TIME Query Sets or queries the power meter recording time. Description Syntax [:SENSe]:PMETer:RECording:TIME <hour>,<minute>,<second> Query Syntax [:SENSe]:PMETer:RECording:TIME? Parameter/ <hour>...
Page 182: [:Sense]:Semask:bandwidth|Bwidth: Integration
GSP-9300B Programming Manual Parameter/ AUTO Sets the preamplifier to auto mode. Return parameter BYPASS Sets the preamplifier to bypass mode. Example :POW:GAIN AUTO [:SENSe]:SEMask:BANDwidth|BWIDth: INTegration Query Sets or queries the channel integration bandwidth Description for SEM measurements (user defined only).
Page 183: [:Sense]:Semask:carrier:auto
REMOTE CONTROL Syntax [:SENSe]:SEMask:BANDwidth|BWIDth[:RESolution]: AUTO {OFF|ON|0|1} Query Syntax [:SENSe]:SEMask:BANDwidth|BWIDth[:RESolution]: AUTO? Parameter Turn RBW to manual (off). Turn RBW to auto (on). Turn RBW to manual (off). Turn RBW to auto (on). Return parameter 0 RBW is set to manual. RBW is set to automatic. Example :SEM:BAND:AUTO OFF [:SENSe]:SEMask:CARRier:AUTO...
Page 184: [:Sense]:Semask:carrier:power
GSP-9300B Programming Manual Query Syntax [:SENSe]:SEMask:CARRier:CPSD? Parameter/ <NR3> PSD ref unit = dBm/Hz Return parameter Example :SEM:CARR:CPSD 20 [:SENSe]:SEMask:CARRier:POWer Query Sets or queries the value of the TotalPwrRef Description amplitude for SEM measurements. Syntax [:SENSe]:SEMask:CARRier: POWer <ampl> Query Syntax [:SENSe]:SEMask:CARRier: POWer? Parameter <ampl>...
Page 185: [:Sense]:Semask:help:state
REMOTE CONTROL Parameter/ <n>=1 ERP-DSSS/ERP-PBCC/ERP-CCK Return parameter <n>=2 ERP-OFDM/DSSS-OFDM Example :SEM:GWL:MOD GRO1 [:SENSe]:SEMask:HELP:STATe Query Turns the on-screen help window on/off or Description queries its state. Syntax [:SENSe]:SEMask:HELP:STATe {OFF|ON|0|1} Query Syntax [:SENSe]:SEMask:HELP:STATe? Parameter Turns the help window off. Turns the help window on. Turns the help window off.
Page 186: [:Sense]:Semask:offset:Addition: Bandwidth|Bwidth[:Resolution]
GSP-9300B Programming Manual [: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. Query syntax [:SENSe]:SEMask:OFFSet<n>:ADDition: BANDwidth|BWIDth[:RESolution]? 3GPP-FDD BS For operation in bands II, IV, V, X, XII, XIII, XIV and...
Page 187 REMOTE CONTROL 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 188: [:Sense]:Semask:offset:Addition: Frequency:start
GSP-9300B Programming Manual [: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 189: [:Sense]:Semask:offset:Addition: Start:absolute
REMOTE CONTROL [: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 190: [:Sense]:Semask:offset:Bandwidth|Bwidth[:Resolution]:Auto
GSP-9300B Programming Manual 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 191: [:Sense]:Semask:offset:Frequency: Stop
REMOTE CONTROL 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 192: [:Sense]:Semask:offset:State
GSP-9300B Programming Manual 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.
Page 193: [:Sense]:Semask:offset:Stop: Absolute:couple
REMOTE CONTROL [: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. Return parameter 0 Coupling is off.
Page 194: [:Sense]:Semask:offset:Stop: Relative:couple
GSP-9300B Programming Manual [: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.
Page 195: [:Sense]:Semask:type
REMOTE CONTROL Selects or queries the type of spectrum emission Description mask. 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...
Page 196: [:Sense]:Semask:w3Gpp:fdd:addition: Limit
GSP-9300B Programming Manual [: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?
Page 197: [:Sense]:Semask:w3Gpp:fdd:transmit:mode
REMOTE CONTROL Syntax [:SENSe]:SEMask:W3GPP:FDD:MOPower {LEVel<n>} Query Syntax [:SENSe]:SEMask:W3GPP:FDD:MOPower? Parameter/ NONE Return parameter LEVEL<n> n=1 for P>=43 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 198: [:Sense]:Semask:w3Gpp:tdd:mopower
GSP-9300B Programming Manual [: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>...
Page 199: [:Sense]:Semask:wimax:channel: Bandwidth|Bwidth
REMOTE CONTROL [: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. Description Syntax [:SENSe]:SEQuence<n>:DELete...
Page 200: [:Sense]:Sweep:egate:length
GSP-9300B Programming Manual [: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 201: [:Sense]:Sweep:time
REMOTE CONTROL 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 202: [:Sense]:Toi:limit
GSP-9300B Programming Manual 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 203: Amplitude]
REMOTE CONTROL SOURce Commands :SOURce:P1DB:TYPE ..........201 :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude] ............... 201 :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:OFFSet ..........202 :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:STEP ............ 202 :SOURce:POWer[:LEVel][:IMMediate] [:AMPLitude]:STEP:AUTO ........203 :SOURce:POWer:MODE ......... 203 :SOURce:POWer:SWEep .......... 203 :SOURce:P1DB:TYPE Query Sets how the P1dB measurement is normalized. Description Syntax :SOURce:P1DB:TYPE {RF|TG} Query Syntax :SOURce:P1DB:TYPE?
Page 204: Amplitude]:Offset
GSP-9300B Programming Manual 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>...
Page 205: Amplitude]:Step:auto
REMOTE CONTROL :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). Turn TG step level to manual (off).
Page 206 GSP-9300B Programming Manual Parameter <rel_ampl> <NRf> (-5 to +5 dB) Return parameter <NR3> Example :SOUR:POW:SWE 5 db...
Page 207 REMOTE CONTROL SYSTem Commands :SYSTem:ALARm:STATe ......... 205 :SYSTem:CLOCk<n>:DATE ........206 :SYSTem:CLOCk<n>:MODE ........ 206 :SYSTem:CLOCk<n>:STATe ......... 207 :SYSTem:CLOCk<n>:TIME ........207 :SYSTem:COMMunicate:GPIB[:SELF] :ADDRess..............207 :SYSTem:COMMunicate:LANReset ....... 208 :SYSTem:COMMunicate:SERial[:RECeive] :BAUD ................208 :SYSTem:COMMunicate:USB:MODE ....208 :SYSTem:DATE ............208 :SYSTem:ERRor:CLEar ..........209 :SYSTem:ERRor[:NEXT]?........209 :SYSTem:KLOCk ............
Page 208: System:clock:Date
GSP-9300B Programming Manual Return parameter 0 The alarm is off. The alarm is on. 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...
Page 209: System:clock:State
REMOTE CONTROL :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. Turn the wake-up clock off.
Page 210: System:communicate:lanreset
GSP-9300B Programming Manual 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...
Page 211: System:error:clear
REMOTE CONTROL 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 212: System:preset
PRESet Loads the preset (default) settings when the unit is powered up. Example :SYST:POW:TYPE? >LAST :SYSTem:PRESet Returns the GSP-9300B to preset settings. Description Syntax :SYST:PRES :SYSTem:PRESet:TYPE Query Sets the preset type between user-defined and Description factory default.
Page 213: System:shutdown
REMOTE CONTROL :SYSTem:SHUTdown Shut down the GSP-9300B. 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 214: System:version:software
GSP-9300B Programming Manual 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 215 REMOTE CONTROL STATus Commands :STATus:OPERation:CONDition? ......214 :STATus:OPERation:ENABle ......... 214 :STATus:OPERation[:EVENt]?....... 214 :STATus:OPERation:NTRansition ......215 :STATus:OPERation:PTRansition ......215 :STATus:QUEStionable:CONDition? ....216 :STATus:QUEStionable:ENABle ......216 :STATus:QUEStionable[:EVENt]? ......217 :STATus:QUEStionable:NTRansition ....217 :STATus:QUEStionable:PTRansition ..... 218 :STATus:QUEStionable:FREQuency: CONDition? ..............218 :STATus:QUEStionable:FREQuency:ENABle ..219 :STATus:QUEStionable:FREQuency[:EVENt]? ..
Page 216: Status:operation:condition
GSP-9300B Programming Manual :STATus:OPERation:CONDition? Query Returns the bit weight of the Operation Status Description Condition register. Query Syntax :STATus:OPERation:CONDition? 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...
Page 217: Status:operation:ntransition
REMOTE CONTROL 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. Syntax :STATus:OPERation:NTRansition <integer>...
Page 218: Status:questionable:condition
GSP-9300B Programming Manual 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...
Page 219: Status:questionable[:Event]
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: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 220: Status:questionable:ptransition
GSP-9300B 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:NTR 32 :STATus:QUEStionable:PTRansition Query Sets or queries the bit weight of the PTR filter for Description the Questionable Status register.
Page 221: Status:questionable:frequency:enable
REMOTE CONTROL 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 Example :STAT:QUES:FREQ:ENAB 32 :STATus:QUEStionable:FREQuency...
Page 222: Status:questionable:frequency: Ptransition
GSP-9300B Programming Manual 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.
Page 223: Status:questionable:acplimit:enable
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:COND? >1 :STATus:QUEStionable:ACPLimit:ENABle Query Sets or queries the Questionable Status ACP Limit Description Event Enable register.
Page 224: Status:questionable:acplimit: Ntransition
GSP-9300B 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? >3 :STATus:QUEStionable:ACPLimit: NTRansition...
Page 225: Status:questionable:semlimit :Condition
REMOTE CONTROL 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 Example :STAT:QUES:ACPL:PTR 3 :STATus:QUEStionable:SEMLimit...
Page 226: Status:questionable:semlimit:enable
GSP-9300B Programming Manual :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...
Page 227: Status:questionable:semlimit :Ntransition
REMOTE CONTROL 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 Offset 5, Upper fail Offset 5, Lower fail Example...
Page 228: Status:questionable:semlimit:ptransition
GSP-9300B Programming Manual :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...
Page 229: Status:questionable:toilimit:enable
REMOTE CONTROL :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 230: Status:questionable:toilimit:ptransition
GSP-9300B Programming Manual 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>...
Page 231 REMOTE CONTROL 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 232 GSP-9300B Programming Manual 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 >...
Page 233 REMOTE CONTROL TRIGger Commands :TRIGger[:SEQuence]:DELay ........231 :TRIGger[:SEQuence]:DEMod:DELay....231 :TRIGger[:SEQuence]:DEMod:VIDeo:LEVel ..232 :TRIGger[:SEQuence]:DEMod:MODE ....232 :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe ..232 :TRIGger[:SEQuence]:DEMod:SOURce ....233 :TRIGger[:SEQuence]:DEMod:TIME:STARt ..233 :TRIGger[:SEQuence]:DEMod:TIME:STOP ..233 :TRIGger[:SEQuence]:EXTernal:SLOPe ....234 :TRIGger[:SEQuence]:MODE ......... 234 :TRIGger[:SEQuence]:PMETer:SOURce ....234 :TRIGger[:SEQuence]:SOURce ....... 235 :TRIGger[:SEQuence]:VIDeo:FREQuency ... 235 :TRIGger[:SEQuence]:VIDeo:LEVel .....
Page 234: Trigger[:Sequence]:Demod:video:level
GSP-9300B Programming Manual Parameter/ <time> Delay time in seconds Return parameter Example :TRIG:DEM:DEL 1.0 ms :TRIGger[:SEQuence]:DEMod:VIDeo:LEVel Query Sets the video trigger level for AM/FM Description demodulation. Syntax :TRIGger[:SEQuence]:DEMod:VIDeo:LEVel <NRf> Query Syntax :TRIGger[:SEQuence]:DEMod:VIDeo:LEVel? Parameter <NRf> AM unit =% FM unit = Hz Return parameter <NR3>...
Page 235: Trigger[:Sequence]:Demod:source
REMOTE CONTROL Query Syntax :TRIGger[:SEQuence]:DEMod:VIDeo:SLOPe? Parameter/ POSitive Positive slope Return parameter NEGative Negative slope Example :TRIG:DEM:VID:SLOP POS :TRIGger[:SEQuence]:DEMod:SOURce Sets the triggering source for AM/FM Description demodulation Syntax :TRIGger[:SEQuence]:DEMod:SOURce {IMMediate|VIDeo} Parameter IMMediate Free run trigger VIDeo Trigger on the video signal level Example :TRIG:DEM:SOUR IMM :TRIGger[:SEQuence]:DEMod:TIME:STARt...
Page 236: Trigger[:Sequence]:External:slope
GSP-9300B Programming Manual Parameter/ <NRf> Time value in seconds Return parameter Example :TRIG:DEM:TIME:STOP 4.000e-2 :TRIGger[:SEQuence]:EXTernal:SLOPe Query Sets the external trigger slope Description Syntax :TRIGger[:SEQuence]:EXTernal:SLOPe {POSitive|NEGative} Query Syntax :TRIGger[:SEQuence]:EXTernal:SLOPe? Parameter/ POSitive Positive slope Return parameter NEGative Negative slope Example :TRIG:EXT:SLOP POS...
Page 237: Trigger[:Sequence]:Source
REMOTE CONTROL Parameter/ IMMediate Free run trigger Return parameter EXTernal External trigger Example :TRIG:PMET:SOUR IMM :TRIGger[:SEQuence]:SOURce Query Sets the triggering source to immediate, external or Description video. Syntax :TRIGger[:SEQuence]:SOURce {IMMediate|EXTernal|VIDeo} Query Syntax :TRIGger[:SEQuence]:SOURce? Parameter/ IMMediate Free run trigger Return parameter EXTernal External trigger VIDeo...
Page 238: Trigger[:Sequence]:Video:slope
GSP-9300B Programming Manual 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 {POSitive|NEGative} Query Syntax :TRIGger[:SEQuence]:VIDeo:SLOPe? Parameter/ POSitive Positive slope Return parameter NEGative Negative slope Example :TRIG:VID:SLOP POS...
Page 239 REMOTE CONTROL UNIT Commands :UNIT:PMETer:POWer ..........237 :UNIT:POWer ............. 237 :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 Sets the amplitude unit used for the Spectrum Description mode.
Page 240 GSP-9300B Programming Manual 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 229 for details. Decimal Binary ASCII Decimal Binary ASCII...
Page 241: Appendix
APPENDIX 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 00101000 01101000 00101001 01101001 00101010...
Page 242 GSP-9300B Programming Manual 00111101 01111101 00111110 > 01111110 00111111 01111111...
Page 243 Spectrum Analyzer GSP-9300B USER MANUAL ISO-9001 CERTIFIED MANUFACTURER...
Page 244 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 245 Table of Contents Table of Contents SAFETY INSTRUCTIONS ..........3 GETTING STARTED ............8 GSP-9300B Introduction ......9 Accessories .......... 12 Appearance .......... 14 First Use Instructions ......26 BASIC OPERATION ............38 Frequency Settings ....... 41 Span Settings ........45 Amplitude Settings ......
Page 246 Interface Configuration ...... 223 FAQ ................237 APPENDIX ..............238 Replace the Clock Battery ....238 Glossary of Acronyms ......239 GSP-9300B Default Settings ....241 Menu Tree .......... 243 GSP-9300B Specifications ....277 GSP-9300B Dimensions ..... 285 Declaration of Conformity ....286...
Page 247: Safety Instructions
SAFETY INSTRUCTIONS 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 248 GSP-9300B User Manual Safety Guidelines Do not place any heavy object on the instrument. General  Guideline Avoid severe impact or rough handling that leads  to damaging the instrument. CAUTION Do not discharge static electricity to the  instrument.
Page 249 SAFETY INSTRUCTIONS Rating: 11.1V, 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 250 GSP-9300B User Manual 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 251 SAFETY INSTRUCTIONS 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 IMPORTANT: The wires in this lead are coloured in accordance with the following code: Green/ Yellow:...
Page 252 GSP-9300B User Manual ETTING STARTED This chapter provides a brief overview of the GSP-9300B, the package contents, instructions for first time use and an introduction to the front panel, rear panel and GUI. GSP-9300B Introduction .........9 Main Features .................9 Accessories ............12 Appearance ............
Page 253: Getting Started
GETTING STARTED GSP-9300B Introduction The GSP-9300B builds on the strong feature set of the GSP-9330 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-9330, the GSP-9300B features a split window display to view data in spectrum, topographic or spectrographic views.
Page 254 GSP-9300B User Manual Two operating modes: Spectrum and Power  Meter mode SEM measurement  ACPR measurement  OCBW measurement  Phase jitter measurement  Harmonics measurement  P1dB measurement  Channel power measurement  Demodulation analyzer  Diverse marker functions and features with Peak ...
Page 255 GETTING STARTED 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 256: Accessories
GSP-9300B User Manual Accessories Standard Part number Description Accessories Region dependant Power cord User manual CD: Includes: User manual, Programming manual, SpectrumShot quick start guide, SpectrumShot software, IVI driver Quick start guide Certificate of calibration Options Option number Description Opt1.
Page 257 GETTING STARTED Software Downloads PC Software for Windows System (SpectrumShot quick start guide, SpectrumShot software) IVI Driver Supports LabView & LabWindows/CVI Programming...
Page 258: Appearance
GSP-9300B User Manual Appearance GSP-9300B Front Panel Function Main Control File keys display keys keys keys * Power key Marker keys G S P -9 3 0 0 B Spectrum Analyzer CONTROL 9 kHz 3 GHz Sweep Fast/ Frequency BW / AVG...
Page 259 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 260 GSP-9300B User Manual 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. Turns the Markers on/off and Marker Marker configures the markers.
Page 261 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 262 GSP-9300B User 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 263: 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 264 GSP-9300B User Manual Voltage: 11.1V 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. BNC female 3.3V CMOS trigger TRIG IN/GATE IN input/gated sweep input.
Page 265: Display
GETTING STARTED 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 Message and USB settings area...
Page 266 GSP-9300B User Manual This icon indicates the status of the LXI connection. LXI icon For details, see page 224. 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.
Page 267 GETTING STARTED Displays the Start, Center and Stop frequencies, Frequency/ RBW, VBW, Span and Sweep settings. Bandwidth settings This area is used to show system messages, errors Entry/Message area and input values/parameters. Main display showing the input signals, traces Trace and (page 80), limit lines (184) and marker positions waveforms (93).
Page 268: Status Icon Overview
GSP-9300B User Manual 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 269 GETTING STARTED 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. Math Shown when a sequence is running.
Page 270: First Use Instructions
GSP-9300B User Manual First Use Instructions Use the procedures below when first using the GSP-9300B to tilt the stand, insert the battery pack, power up the instrument, set the internal clock, set the wake-up clock, update the firmware and to restore the default settings.
Page 271: Inserting The Battery Pack
GETTING STARTED Inserting the Battery Pack The GSP-9300B has an optional battery pack. Description The battery should be inserted before power is connected to the AC power socket and before the unit is turned on. 1. Ensure the power is off and the AC power is Steps disconnected.
Page 272: Power Up
1. Insert the AC power cord into the power Steps socket. 2. The power button exterior will be lit blue to indicate that the GSP-9300B is in standby mode. 3. Press the power button for a few seconds to turn the GSP-9300B on.
Page 273: Power Down
GETTING STARTED Power Down The GSP-9300B has two methods to power Description down: Normal and Forced Power Down. The normal power down method will save the system state and end any running processes. The state is saved for the next time the instrument is turned back on.
Page 274: Setting The Date, Time And Wake-Up Clock
GSP-9300B User Manual Setting the Date, Time and Wake-Up Clock The GSP-9300B can be setup to power-up Description automatically using the Wakeup Clock function. This feature is useful to wake-up the instrument early and eliminate settling time. Example: Set the System Date to July 1, 2016 System Date 1.
Page 275 GETTING STARTED The System Time will be shown at the top of the Note display. Example: Set the GSP-9300B to wake up at 9:00 System Wake-Up Clock 1. Press >Date/Time[F4]>Wake-Up System Clock[F3]>Select Clock[F1]. 2. Press Clock 1[F1] ~ Clock 7[F7] to choose a clock (1 ~ 7).
Page 276: Firmware Update
GSP-9300B User Manual Firmware Update The GSP-9300B allows the firmware to be Description updated by end-users. Before using the GSP- 9300B, please check the GW Instek website or ask your local distributor for the latest firmware. Before updating the firmware, please check the System version firmware version.
Page 277: Restoring Default Settings
GETTING STARTED 5. Press >More 1/2[F7]>Upgrade[F2]. System 6. The spectrum analyzer will automatically find the firmware on the USB flash drive and start to update the firmware. When finished, the message “Upgrade is finished” will be shown at the bottom of the screen followed by “Rebooting”.
Page 278: Conventions
The following conventions are used throughout the user manual. Read the conventions below for a basic grasp of how to operate the GSP-9300B menu system and front panel keys. The F1 to F7 function keys on the right side of...
Page 279 GETTING STARTED Toggle State & Input Parameter Pressing this menu key will allow you to toggle the state of the function between Auto and Man(ual) state. When in the Man state, the parameter value can be manually edited. Use the numeric keypad to enter the new value or use the scroll wheel to increment/decrement the current value.
Page 280 GSP-9300B User Manual Parameter input Numerical keypad Scroll wheel Preset LOCAL Quick Save BK SP Enter Directional arrow keys Backspace, Enter keys Parameter values can be entered using the numeric keypad, the scroll wheel and occasionally with the arrow keys.
Page 281 GETTING STARTED Use the scroll wheel to alter the current value. Using the scroll Clockwise increases the value, anti-clockwise wheel decreases the value. Use the directional arrows to select discrete Directional arrows parameters or to alter values by a coarser resolution than the scroll wheel.
Page 282 GSP-9300B User Manual ASIC OPERATION Frequency Settings ..........41 Center Frequency ..............41 Start and Stop Frequency ..........42 Center Frequency Step ............43 Frequency Offset ..............44 Span Settings ............45 Span ..................45 Full Span ................46 Zero Span ................46 Last Span ................
Page 283: Basic Operation
BASIC OPERATION Video Bandwidth Settings (VBW) ........66 VBW/RBW Ratio ..............67 Average Trace ...............68 Average Type ................70 EMI Filter ................70 Sweep ..............72 Sweep Time................72 Single Sweep .................73 Continuous Sweep ...............73 Gated Sweep Overview ............74 Using the Gated Sweep Mode ...........75 Sweep Control / Sweep Mode ..........78 Trace ..............
Page 284 GSP-9300B User Manual Adjusting the LCD Brightness ........109 Turning the LCD Backlight Off........109 Setting a Display Line (Reference Level Line) ..... 110 Using the Video Out Port ..........110 Setting the Display Mode ..........111 Spectrogram and Topographic Markers ....... 114 Split Spectrum View ............
Page 285: Frequency Settings
BASIC OPERATION Frequency Settings Center Frequency The center frequency function sets the center Description frequency and centers the display to the center frequency. Operation 1. Press >Center[F1] and enter the Frequency frequency and unit. 0kHz~3GHz Range: Resolution: 1.5GHz Default: Display Center frequency Set Center Frequency...
Page 286: Start And Stop Frequency
GSP-9300B User Manual Start and Stop Frequency The start/stop frequency function will set the Description start and stop frequency of the span. Operation 1. To set the start frequency, press > Start Frequency Freq[F2] and enter the frequency and unit.
Page 287: Center Frequency Step
BASIC OPERATION Center Frequency Step The CF Step function sets the step size of the Description center frequency when using the arrow keys or scroll wheel. When the scroll wheel or arrow keys or are used to alter the center frequency, each turn/press will move the center frequency by the step size specified by the CF Step function.
Page 288: Frequency Offset
GSP-9300B User Manual Frequency Offset The Freq Offset function allows you to add an Description offset to the Center, Start and Stop frequencies as well as the marker frequencies. The offset value does not affect displaying the trace on the display.
Page 289: Span Settings
BASIC OPERATION Span Settings Span The Span function will set the frequency range Description of the sweep. The sweep will be centered around the center frequency. Setting the span will alter the start and stop frequencies. Operation 1. Press > Span[F1] and enter the span Span frequency range and unit.
Page 290: Full Span
GSP-9300B User Manual Full Span The Full Span function will set the span to the Description full frequency range. This function will set the start and stop frequencies to 0Hz and 3GHz respectively. Operation 1. Press > Full Span[F2]. Span...
Page 291: Last Span
BASIC OPERATION Display Time domain 0Hz Span Example: Amplitude modulation The measurement functions such as TOI, SEM, Note CNR, CTB, CSO, ACPR, OCBW, phase, Jitter, Harmonics, NdB, P1dB and other measurement functions are not available with the zero span setting: Last Span The last span function returns the spectrum Description...
Page 292: Amplitude Settings
GSP-9300B User Manual Amplitude Settings The vertical display scale is defined by the reference level amplitude, attenuation, scale and external gain/loss. Reference Level The reference level defines the absolute level of Description the amplitude on the top graticule in voltage or power.
Page 293: Attenuation
BASIC OPERATION Attenuation The attenuation of the input signal level can be Description set to automatic (Auto) or manual (Man). When the attenuation is set to Man, the input attenuator can be changed manually in 1dB steps. Operation 1. Press >...
Page 294: Auto Scale
GSP-9300B User Manual Display Scale The Scale/Div function is only selectable when the Note scale is set to Log (logarithmic). Auto Scale The Auto Scale function will automatically set Description the Scale/Div, Reference level and Attenuation (if set to Auto) to best display the spectrum.
Page 295: View Scale
BASIC OPERATION If the unit scale is changed (i.e. dBm → volts), the Note displayed vertical scale type will remain in the set linear or logarithmic setting. View Scale The Scale function turns the vertical scale Description on/off. The value of each graticule division is displayed with the same units that are used for the Ref Level settings.
Page 296: Vertical Scale Units
GSP-9300B User Manual Vertical Scale Units Change the vertical units for both linear or Description logarithmic scales. Operation 1. Press > More[F7]>Y Axis[F1] and then Amplitude choose the desired units. 2. The units are changed accordingly. dBm, dBmV, dBuV, Units:...
Page 297: Amplitude Correction
BASIC OPERATION Example: Ref: 0dBm Before reference level offset(offset: 0dB) Reference level Ref: 10dBm offset: 10dB After reference level offset (offset: 10dB) Amplitude Correction Amplitude correction adjusts the frequency Description response of the spectrum analyzer by altering the amplitudes at specified frequencies. This allows the spectrum analyzer to compensate for loss or gain from an external network or device at certain frequencies.
Page 298: Create A Correction Set
Create a Correction Set The GSP-9300B can create and edit up to 5 sets Description of correction points. The correction points and associated values are all tabulated for ease of use.
Page 299 BASIC OPERATION 2. Press Edit[F3]. The GSP-9300B will split into two screens. The top screen will show the waveform and the bottom screen will provide an overview of the correction points. Frequency of Spectrum display selected point Correction points 3. Press Point Num[F1] and choose a point number to edit.
Page 300: Amplitude Correction On/Off
GSP-9300B User Manual The frequency of the point values are displayed in the correction table on the bottom display. Correction Table 6. Repeat steps 3 to 5 for any other correction points. 7. To delete the selected point, press Delete Point[F6].
Page 301: Delete Correction Set
BASIC OPERATION 2. Press Correction[F2] and toggle correction on. Deactivate 1. Press > More[F7]>Correction[F3]> Amplitude Correction Correction[F2] to turn correction back off. Delete Correction Set Operation 1. Press > More[F7]>Correction[F3]> Amplitude Correction Set[F1] and choose the correction set to delete. Correction Set: 2.
Page 302 GSP-9300B User Manual Limitations: No spaces  Only 1~9, A~Z, a~z characters allowed  ABCDE FGHIJ KLMNO Lowercase PQRST Return Name> UVWXY Return Return 5. The filename appears on the bottom of the screen as it is created. Filename Press to confirm the filename.
Page 303: Recall Correction Set From Memory
BASIC OPERATION 6. Press Save Now[F7]. 7. The correction set will be saved to the selected location. For more information on Save and Recall, please see page 215. Recall Correction Set From Memory Operation 1. Press > Recall[F1] and choose the recall Recall location: Register, Local, USB, SD...
Page 304: Input Impedance
GSP-9300B User Manual Input Impedance Sets the input impedance to 75Ω or 50Ω. Description Operation 1. Press > More[F7]> More[F7] > Input Z[F1] Amplitude to toggle the input impedance. Range: 75Ω, 50Ω Input Impedance Calibration When an external impedance converter module...
Page 305: Using The Built-In Pre-Amplifier
EMI testing signals, to levels that are easy to handle, over the entire frequency range. The built-in pre-amplifier on the GSP-9300B has a nominal gain of 20dB. In the Auto setting, the pre-amplifier will be automatically turned on when the reference level is less than -30dBm.
Page 306 GSP-9300B User Manual When the pre-amplifier is on, the attenuator Note becomes fixed at 0dB (i.e. Attenuation = 0dB).
Page 307: Autoset
BASIC OPERATION Autoset The Autoset function searches the peak signals in two stages (full span & 0Hz - 100MHz limited span), picks the signal peak with the maximum amplitude, and then shows it in the display. Using Autoset Operation 1. Press >...
Page 308: Limiting The Autoset Vertical Search Range
GSP-9300B User Manual RBW, VBW and sweep settings are reset to Auto Note when the Autoset function is used. Limiting the Autoset Vertical Search Range You can set the amplitude floor so that the Description signals lower than the setting will be ignored by the Autoset search.
Page 309: Bandwidth/Average Settings
BASIC OPERATION Bandwidth/Average Settings BW/AVG key sets the resolution bandwidth (RBW), video bandwidth (VBW) and averaging functions. The resolution, sweep time, and averaging are in a trade-off relationship, so configuration should be done with care. Resolution Bandwidth Setting (RBW) RBW (Resolution Bandwidth) defines the width Description of the IF (intermediate frequency) filter that is used to separate signal peaks from one another.
Page 310: Video Bandwidth Settings (Vbw)
GSP-9300B User Manual Operation 1. Press > RBW[F1] and set the RBW to BW/Avg Auto or Man. 2. Set the resolution bandwidth and unit for Man mode. Auto, Man Mode: 1Hz~1MHz (1-3-10 Frequency Range(3dB): step) Frequency Range(6dB): 200Hz, 9kHz, 120kHz, 1MHz...
Page 311: Vbw/Rbw Ratio
BASIC OPERATION Auto, Man Mode: 1Hz~1MHz (1-3-10 step) Frequency Range(3dB): Display Icon The BW icon is displayed at the bottom of the screen when the VBW is in Man mode. VBW/RBW Ratio The VBW/RBW function is used to view the Description ratio between the video bandwidth and the resolution bandwidth.
Page 312: Average Trace
GSP-9300B User Manual Average Trace The Average function averages the trace for a Description user-defined number of times before it is displayed. This feature smoothes the noise level, but has the drawback of slowing down the display update rate. Operation 1.
Page 313 BASIC OPERATION Example: Average:Off Number of traces that have been averaged Average: On (20)
Page 314: Average Type
GSP-9300B User Manual Average Type The Average Type function determines how the Description GSP-9300B determines the average value. LOG Average: Averages the trace points on a logarithmic scale. Volt Average: Averages the amplitudes of the trace points on a linear voltage scale.
Page 315 BASIC OPERATION Operation 1. Press > EMI Filter[F6] and toggle EMI BW/Avg filter on or off. See the specifications for details on the EMI filter, Note page 277.
Page 316: Sweep
GSP-9300B User Manual Sweep The GSP-9300B has a number of sweep options including setting the sweep time, the sweep run mode (continuous, single) and sweep mode (fast, slow). The GSP-9300B also has gated sweep modes. Sweep Time Sweep time defines the length of time the Description system takes to "sweep”...
Page 317: Single Sweep
BASIC OPERATION Single Sweep The single sweep function is used to perform a Description single sweep. When Sweep Single is pressed the GSP-9300B will perform a single sweep and then stop. Operation 1. Press > Sweep Single[F2] to put the Sweep spectrum analyzer into single sweep mode.
Page 318: Gated Sweep Overview
The Sweep Cont icon is displayed on the right-hand side of the screen when the sweep is in continuous mode. The GSP-9300B will now continuously sweep Note unless the mode is changed to single sweep mode or if the system is waiting for a trigger condition.
Page 319: Using The Gated Sweep Mode
BASIC OPERATION period RF Burst Trigger Gate Delay Length Example: The diagram above demonstrates the relationship between the input trigger, the input signal and the position of the gated sweep relative to the input signal. Please take into consideration RBW settling time. Note Setting the delay time too short may not leave enough time for the RBW filter to resolve.
Page 320 GSP-9300B User Manual Operation 1. Press > GateDelay[F5] and set the gate Sweep delay time. 2. Press > Gated Length[F6] and set the gate Sweep time length. 3. Press > Gated Sweep[F4] and turn the Sweep mode on. 0s ~ 1000s...
Page 321 BASIC OPERATION Example: The example below shows the spectrum of an FSK modulated signal when gated sweep mode is off. The example below shows the same signal with the gated sweep timed to sweep when only the desired frequency is output. Gated sweep icon Gate Delay and Gate Length must first be set Note...
Page 322: Sweep Control / Sweep Mode
GSP-9300B User Manual Sweep Control / Sweep Mode The Sweep Control function and the Sweep Description Sweep Mode key toggles the Sweep Mode from Mode Normal to Fast. The Fast setting speeds up the signal processing and the display update rate to increase the overall sweep time.
Page 323 BASIC OPERATION 28.9ms 655us 101ms 1.96ms 50.9ms 1.31ms 500k 6.88ms 6.88ms 200k 22.9ms 22.9ms 100k 9.83ms 9.83ms 76.4ms 76.4ms 219ms 219ms 109ms 109ms 710ms 710ms 1.98s 1.98s 994ms 994ms 2.65s 2.65s 2.65s 2.65s 2.65s 2.65s...
Page 324: Trace
GSP-9300B User Manual Trace The GSP-9300B is able to set the parameters of up to 4 different traces on the display at once. Each trace is represented by a different color and is updated with each sweep. Selecting a Trace...
Page 325 BASIC OPERATION The maximum or minimum Hold Max/ points are maintained for the Hold Min selected trace. The trace points are updated each sweep if new maximum or minimum points are found. The Hold Max setting also has a threshold setting.
Page 326: Trace Math
GSP-9300B User Manual 2. Select the trace type: Clear & Write[F2] Max Hold[F3] Min Hold[F4] View[F5] Blank[F6] 3. If Max Hold[F3] was selected, set the threshold level. Blank Traces, 2, 3 and 4 are set to by default. Note Trace Math...
Page 327 BASIC OPERATION Adds a reference to the TR1 LOG Offset trace Operation 1. Press > More[F1]>Trace Math[F1]. Trace 2. Press TR1[F1] and select the first trace source: TR1: Trace 1,2, 3, 4* 3. Press TR2[F2] and select the second trace source: TR2: Trace 1, 2, 3, 4*...
Page 328: Trace Detection Mode
GSP-9300B User Manual Display Icon The Math icon is displayed when trace math is turned on. Trace Detection Mode Each time the spectrum analyzer samples data Description for each point on the trace, a number of samples are usually taken for each point, known as a sample bucket.
Page 329 BASIC OPERATION Detects negative peak signals Peak- by selecting the lowest peak value for each point from each bucket. This mode is not recommended for amplitude measurement. Randomly selects a value from Sample the bucket sample. Useful for noise signals. Calculates the RMS average power of all the samples in the Average...
Page 330 GSP-9300B User Manual Below is a flow chart diagram showing the Auto Detector Detector selection for the Auto mode. Selection Method Detector (Auto mode) Are any windows Peak+ set to Topographic? Is Phase Jitter Sample measurement on? Is (trace) Average...
Page 331 BASIC OPERATION 3. The display will return to the Trace menu. Display Icon Normal Peak+ icon Peak- icon Sample icon RMS Average icon...
Page 332: Trigger
GSP-9300B User Manual Trigger The Trigger function sets the signal conditions upon which the spectrum analyzer triggers captured waveforms, including frequency, amplitude, and delay. An external trigger signal, instead of the default internal signal, may be used as required for special conditions.
Page 333 BASIC OPERATION Determines the polarity of the Parameters Video Edge: video trigger. Positive: The signal voltage exceeds the video level at the trigger frequency. Negative: The signal voltage is lower than the video level at the trigger frequency. The trigger voltage level. Video Level: Sets the frequency to start Trigger...
Page 334: Activate External Trigger
GSP-9300B User Manual Set the trigger back to Free Run to disable the Note video trigger. Activate External Trigger The external trigger is used when an external Description trigger signal is input into the rear panel TRIG IN port. The external trigger signal can be configured as positive or negative edge.
Page 335: Selecting The Trigger Mode
BASIC OPERATION The trigger will revert back to the Free Run mode if Note any parameter settings are changed, such as the span or amplitude settings. Selecting the Trigger Mode In free run mode all signals are captured and Description the trigger conditions are not used.
Page 336: Set The Trigger Delay Time
GSP-9300B User Manual Set the Trigger Delay Time Sets the delay time between when the analyzer Description triggers and when the analyzer begins to capture the signal. Delay time range: 1ns to 1ks Operation 1. Press >Trigger Delay[F4] and set the Trigger trigger delay time.
Page 337: Marker
Marker A Marker shows the frequency and amplitude of a waveform point. The GSP-9300B can activate up to 6 markers or marker pairs simultaneously as well as up to 10 peak markers in the marker table. The marker table helps editing and viewing multiple markers in a single display.
Page 338: Marker
GSP-9300B User Manual Activating a Marker There are two basic marker types, normal markers and delta markers. Normal markers are used to measure the frequency/time or amplitude of a point on the trace. Delta markers are used to measure the difference between a reference point and a selected point on the trace.
Page 339: Move Marker Manually
BASIC OPERATION Move Marker Manually Operation 1. Press > Select Marker[F1] and select a Marker marker number. 2. Use the left/right arrow keys to move the marker one grid division. 3. Use the scroll wheel to move the marker in fine increments. 4.
Page 340: Activate Delta Marker
GSP-9300B User Manual Operation 1. Press > Select Marker[F1] and select a Marker marker number. 2. Press and select a marker position: Marker Mkr>Center[F1] Mkr>Start [F2] Mkr>Stop[F3] Mkr>CF Step[F4] Mkr>Ref Lvl[F5] Activate Delta Marker Delta markers are marker pairs that measure...
Page 341: Move Delta Marker(S)Manually
BASIC OPERATION Move Delta Marker(s)Manually Move Delta or 1. Press > Delta[F4]> MoveRef[F2] to move Marker Reference Marker the reference marker. 2. Press > Delta[F4]> MoveDelta[F3] to move Marker the Delta marker. 3. Move the selected marker in the same fashion as a normal marker, see page 95 1.
Page 342: Marker Functions
GSP-9300B User Manual Marker Functions Marker Noise The noise marker function calculates the Description average noise level over a bandwidth of 1Hz, referenced from the marker position. Operation 1. Press > Select Marker[F1] and select a Marker marker number. 2. Press [F2] to turn the selected marker on.
Page 343: Frequency Counter
BASIC OPERATION Frequency Counter The frequency counter function is used to make Description accurate frequency measurements. Operation 1. Press > Select Marker[F1] and select a Marker marker number. 2. Press [F2] to turn the selected marker on. 3. Press Normal[F3] and then position the marker to the desired location.
Page 344: Vswr
RF electrical transmission systems. The VSWR function will use the Tracking Generator of the GSP-9300B as reference signal. See page 196 for more information about the Tracking Generator. 1. Before starting a VSWR measurement, the...
Page 345 BASIC OPERATION 6. Press > Select Marker[F1] and select a Marker marker number. 7. Press [F2] to turn the selected marker on. 8. Press Function[F5]>VSWR[F3] to turn the VSWR measurement on. 9. The display will show the VSWR measurement at the top of the screen. Marker ID, Frequency, VSWR measurement Marker...
Page 346: Move Marker To Trace
GSP-9300B User Manual Move Marker to Trace The Marker Trace function moves the selected Description marker to any of the currently active traces. Operation 1. Press > Select Marker[F1] and select a Marker marker number. 2. Press [F2] to turn the selected marker on.
Page 347: Show Markers In Table
BASIC OPERATION Show Markers in Table The GSP-9300B has a Marker Table function to Description show all the active markers and measurements at once. Operation 1. Press > More[F7]>Marker Table[F2] and Marker turn the marker table on. 2. The display will split into two screens. The...
Page 348: Peak Search
GSP-9300B User Manual Peak Search Move Marker to Peak Description key is used to find trace peaks. Peak Search Operation 1. Press > Select Marker[F1] and select a Marker marker number. 2. Press >Peak Search[F1]. The marker will Peak Search move to the highest signal peak.
Page 349: Search For Peaks
BASIC OPERATION Search for Peaks Description key can be used to search for a Peak Search number of different peaks. Searches for next highest Peak Search Next Peak: peak visible on the display. Searches for the next peak to Next Peak Right: the right of the marker.
Page 350: Peak Configuration
GSP-9300B User Manual Example: Next Peak Right Example: Next Peak Left Peak Configuration There are two peak search configuration Description options: Peak Excursion and Peak Threshold. Peak Excursion sets the Peak Excursion: minimum value above the peak threshold for which...
Page 351: Peak Table
BASIC OPERATION Peak threshold sets the Peak Threshold: minimum threshold level for the analyzer to detect peaks. Any value above the Peak Threshold + Peak Excursion will be detected as a peak. Peak Excursion Peak Excursion Peak Threshold Operation 1. Press >More [F7].
Page 352 GSP-9300B User Manual 2. Press Peak Sort[F2] and set the sorting type: Sort by frequency in Freq: ascending order. Amp: Sort by amplitude in ascending order. 3. Press Peak Table[F1] to turn the peak table on. 4. The display splits in two. The bottom screen shows the peak table with the peak marker ID, X-axis position and amplitude.
Page 353: Display
BASIC OPERATION Display The Display key configures the basic display settings as well as setting up the display mode (spectrum, spectrographic, topographic) and the split screen modes. Adjusting the LCD Brightness The LCD brightness levels can be adjusted to Description three pre-set levels.
Page 354: Setting A Display Line (Reference Level Line)
2. Set the display line level and unit. Example: Display line Display line set at -50dBm Using the Video Out Port The GSP-9300B has a dedicated DVI terminal to Description output the display to an external monitor. The video output is always on. 800 x 600 (fixed) Output resolution 1.
Page 355: Setting The Display Mode
BASIC OPERATION Setting the Display Mode The GSP-9300B has three different display Description modes for viewing: spectrum, spectrograph and topographic. It is also possible to view the spectrum with the spectrographic or topographic views using a split screen. Default display mode.
Page 356 GSP-9300B User Manual Example: Spectrogram The Spectrogram view shows signals in both the frequency and time domain. The X-axis represents frequency, the Y-axis represents time and the color of each point represents the amplitude at a particular frequency & time (Red = high dark blue = low).
Page 357 BASIC OPERATION Topographic The topographic view shows the frequency of events. The topographic view is useful for observing smaller signals that have been overpowered by stronger signals or to easily observe intermittent events. Color is used to represent the frequency of an event. Red represents a high frequency of occurrence, while blue represents events that occur rarely.
Page 358: Spectrogram And Topographic Markers
GSP-9300B User Manual Topographic +Spectrum Displays both topographic and spectrum views of the signal. Spectrogram and Topographic Markers The Spectrogram and Topographic display Description view can also use markers and delta markers to mark the frequency and amplitude of points of interest.
Page 359 BASIC OPERATION 1. When in the Topographic view (single or split Operation screen), press Topographic Marker and turn on. 2. When in the Spectrographic view (single or split screen), press Spectrogram Marker and turn 3. To set the reference marker, press Ref.[F2]>X Axis[F1] and set x-axis position (frequency).
Page 360: Split Spectrum View
GSP-9300B User Manual Example Reference Marker Delta marker Ref. marker and Delta marker positions/measurements Spectrogram view is shown as an example. Split Spectrum View The split spectrum view is able to view two Description different sweep ranges on the display at the same time using a split screen view.
Page 361 BASIC OPERATION Operation 1. Press >Window Setup[F1]>Split Display Spectrum[F2]>Active Win[F1] to activate the upper split screen. 2. Pressing Active Win.[F1] will toggle the sweep between the upper and lower screen. 3. Press Alternate Sweep[F2] for the analyzer to alternate the sweep between the upper and lower screen at the end of each sweep.
Page 362: System Settings
GSP-9300B User Manual System Settings System Information The System Information displays the following: Description Serial Number Installed Options Version: Calibration Date: Software Firmware File sys DNS Hostname MAC Address LXI Password Wordlist Core Operation 1. Press >System Information[F1] to bring up System a list of the system information.
Page 363: Set The System Language
BASIC OPERATION messages from the list. Set the System Language The GSP-9300B supports a number of Description languages. The system language sets the soft menu keys to the selected language. Operation 1. Press >Language[F3] and choose the System system language.
Page 364: Display The Date And Time On The Screen
Operation 1. Press >Date/Time[F4]>Clock[F4] and turn System the clock display on or off. Using the Wake-Up Clock The GSP-9300B has a wake-up clock to allow Description the spectrum analyzer to automatically turn on at a set time. Operation 1. Press >Date/Time[F4]>Wake-Up Clock[F3]...
Page 365: Alarm Output
BASIC OPERATION Alarm Output Allows the pass/fail output to be output via the Description ALARM OUT port. Output: Open collector Alarm Out Operation 1. Press >Alarm Output[F6] and toggle the System ALARM OUT port on or off.
Page 366: Preset
GSP-9300B User Manual Preset The Preset function loads either factory default states or the user- defined states – depending on the Preset configuration settings. Using the Preset Key → from page 122  Save the User Preset Settings→ from page 122 ...
Page 367: Preset Type Settings
BASIC OPERATION Preset Type Settings Description Each time the key is pressed, a set of Preset preset configuration settings are loaded. The preset configuration settings can be either the factory default settings or the user-defined settings. Operation 1. Press >Pwr On/Preset[F5]>Preset Type[2] System and choose the preset type: User Preset[F1]...
Page 368 GSP-9300B User Manual DVANCED OPERATION Measurement ............. 126 Channel Analysis Overview ..........126 ACPR ..............128 OCBW ..............130 AM/FM Analysis .............. 133 AM Analysis ............133 AM Pass Fail Testing .......... 137 FM Analysis ............139 FM Pass Fail Testing ........... 142 AM/FM Demodulation ........
Page 369: Advanced Operation
ADVANCED OPERATION Power Meter ............200 Activating Power Meter Mode ......200 Data Logging Power Meter Measurements ..202...
Page 370: Measurement
GSP-9300B User Manual Measurement This section describes how to use the automatic measurement modes. The GSP-9300B includes the following measurements: ACPR → from page 128  OCBW → from page 130  AM Analysis→ from page 133  FM Analysis → from page 139 ...
Page 371 ADVANCED OPERATION The frequency distance Channel Space between each main channel. Range: Between 0Hz~3GHz The frequency Adjacent channel bandwidth 1 & 2 bandwidth the adjacent channels occupy. Range: Between 0Hz~3GHz (0Hz excepted) The frequency distance Adjacent channel offset between the adjacent 1 ~ 3 channels and main channel.
Page 372: Acpr
GSP-9300B User Manual ACPR Adjacent channel power refers to the amount of Description power leaked to the adjacent channel from the main channel. This measurement is a ratio of the main channel power to power in the adjacent channel. Example...
Page 373 ADVANCED OPERATION Main CH ADJCH1 ADJCH2 ADJCH3 Channel power results 3. Press > Channel Analysis[F1]>ACPR Measure Setup[F1]> and set the following: Set the bandwidth of the Main CHBW[F1] main channel. Main CH H Limit[F2] Set the low limit for the main channel.
Page 374: Ocbw
GSP-9300B User Manual Set the adjacent channel ADJCH Offset[F4] offset. Set the adjacent channel ADJCH HLimit[F5] high limit. Set the adjacent channel ADJCH LLimit[F5] low limit. 2. Repeat the above steps for the other adjacent channels, if needed. Move Channels 1.
Page 375 ADVANCED OPERATION Example OCBW CH BW Operation: 1. Press > Channel Analysis[F1]>OCBW[F4] Measure Setting up the and turn OCBW on. main channel Any other measurement mode will automatically be  disabled. 2. The display splits into two screens. The top shows the channel bandwidth.
Page 376 GSP-9300B User Manual 3. Press OCBW Setup[F3] to enter the OCBW setup: Set the channel CHBW[F1] bandwidth. CH SPC[F2] Set the channel space between main channels. Set the % of the OCBW OCBW%[F3] to CHBW. Move Channels 1. Press > Channel Analysis[F1] and select:...
Page 377: Am/Fm Analysis
ADVANCED OPERATION AM/FM Analysis AM Analysis When amplitude modulation is turned on, the Description input signal is centered on the center frequency and the span is automatically set to zero-span. Current, Min, Cent, Max Measurement AM Depth: items Current, Min, Cent, Max Mod.
Page 378 GSP-9300B User Manual AM waveform AM modulation measurements 4. Press Setup[F2]>IF Bandwidth[F1] and set the Intermediate frequency bandwidth. Set with adequate bandwidth to accommodate  spectrum contained in the carrier. 5. Press LPF[F2] to set the low pass filter frequency, alternatively the frequency can be...
Page 379 ADVANCED OPERATION 6. Press Time Axis [F3] to set horizontal axis parameters: Sets the starting time on Ref. Value[F1] the time axis. Ref. Pos[F2] Shifts the waveform X number of grid subdivisions. Sets the grid division Scale/Div[F3] scale when Auto Scale is Off.
Page 380 GSP-9300B User Manual 9. Press AF Trigger[F5]>Trigger Setup[F2] to set the Operation: triggering conditions: trigger configuration Edge Slope[F1] Sets the trigger to rising or falling edge. Sets the triggering mode: Trigger Mode[F2] Nor.: Normal trigger Sgl.: Single trigger Cont.: Continuously...
Page 381: Am Pass Fail Testing
ADVANCED OPERATION The MAX and MIN measurements are held until Note higher or lower values are found. To reset the MAX and MIN measurements, press > Measure Demod[F2]>AM Analysis[F1]>Min/Max Reset[F3]. AM Pass Fail Testing The Limit Edit function puts a pass limit on the Description AM depth, carrier offset and carrier power.
Page 382 GSP-9300B User Manual 3. The AM Measurement area in the bottom half of the screen will now include Pass/Fail indicators for the AM depth, carrier offset and carrier power. Pass: Fail: Example Pass/Fail judgments...
Page 383: Fm Analysis
ADVANCED OPERATION FM Analysis When frequency modulation is turned on, the Description input signal is centered on the carrier frequency and the span is automatically set to zero-span. Current, Min, Cent, Max Measurement Freq. Deviation: items Current, Min, Cent, Max Mod.
Page 384 GSP-9300B User Manual 4. Press Setup[F2]>IF Bandwidth[F1] and set the Intermediate frequency bandwidth. (10kHz, 30kHz, 100kHz, 300kHz, 1MHz, ) Set with adequate bandwidth to accommodate  spectrum contained in the carrier. 5. Press LPF[F2] to set the low pass filter...
Page 385 ADVANCED OPERATION Toggles auto-scaling Auto Scale[F4] on/off. 7. Press Deviation Axis[F4] to set deviation (vertical) parameters: Ref.Value[F1] Offsets the reference position (in frequency). Sets the reference Ref.Pos[F2] position of the waveform on a vertical grid subdivision (1:10). Sets the vertical grid Scale/Div[F3] division scale.
Page 386: Fm Pass Fail Testing
GSP-9300B User Manual FreeRun[F1] Disables the trigger, this is the default setting. Sets the start time for the Start Time[F3] x-axis for the FM waveform in the top-half of the screen. Sets the stop time for the Stop Time[F4] x-axis for the FM waveform in the top-half of the screen.
Page 387 ADVANCED OPERATION If the measured carrier Carr. Offset[F2] offset is above this limit, it will be judged as Fail. If the measured carrier Carr. Power[F3] power is above this limit, it will be judged as Fail. 2. Press Pass/Fail Test[F6] and turn Pass/Fail on. 3.
Page 388: Am/Fm Demodulation
GSP-9300B User Manual AM/FM Demodulation The GSP-9300B has a convenient AM/FM Description demodulation function to tune into AM or FM broadcast signals and listen to the demodulated baseband signals using the ear phone out socket. 1. Set the center frequency to the desired FM/AM Operation: carrier frequency.
Page 389: Phase Jitter Measurement
ADVANCED OPERATION Phase Jitter Measurement Phase Jitter refers to the amount of phase Description fluctuation and can be used to evaluate stability of a signal in the time domain. The start frequency with Parameters Start Offset: respect to the center frequency.
Page 390 GSP-9300B User Manual Start Stop offset offset Phase jitter measurements 3. Press Start Offset[F2] to set the start offset: (0Hz ~ ½ span freq) Offset: 4. Press Stop Offset[F3] to set the stop offset: (0Hz ~ ½ span freq) Offset:...
Page 391: Spectrum Emission Mask Overview
SEM measurements are often carried out for a number of different wireless standards. For 3GPP, the GSP-9300B supports BS (base station) and UE (user equipment) testing standards for both FDD (frequency-division duplexing) and TDD (time-division duplexing) modes.
Page 392 GSP-9300B User Manual Used to define the span of Chan Span: the main channel when measuring the channel power. Sets the resolution RBW: bandwidth for the main channel when measuring the in-channel power. The total power of the carrier Total Pwr Ref:...
Page 393 ADVANCED OPERATION Sets the relative level limit at Rel Start: the Start Freq for the selected offset number. Sets the relative level limit at Rel Stop: the Stop Freq for the selected offset number. Rel Stop can be set to Couple or Man. Man allows Rel Stop to be user-defined, while Couple will lock Rel Stop to the Rel...
Page 394 GSP-9300B User Manual 1749.9~1784.9MHz 1844.9~1879.9MHz 1710~1770MHz 2110~2170MHz 1427.9~1452.9MHz 1475.9~1500.9MHz 698~716MHz 728~746MHz XIII 777~787MHz 746~756MHz 788~796MHz 758~768MHz Reserved Reserved Reserved Reserved XVII Reserved Reserved XVIII Reserved Reserved 830~845MHz 875~890MHz 832~862MHz 791~821MHz 1447.9~1462.9MHz 1495.9~1510.9MHz 1850~1915MHz 1930~1995MHz *for FDD, referenced from ETSI: 3GPP TS 25.101 version 10.2.0 Release 10...
Page 395 ADVANCED OPERATION 3GPP-FDD BS For the FDD configuration, different limits can by chosen based on the total channel power, P. The default value for Δfmax is 12.5MHz. Δfmax can be user-defined. The channel span is set to 5MHz. Note: A, B, C, D, E denote offsets 1 to 5, respectively. Unit: MHz P≥43 2.5 ≤A<2.7...
Page 396 GSP-9300B User Manual For P<31, two additional power limits (shown below) Additional Max Out. Pwr can be selected via the option for Home BS applications: (The default value for Δfmax is 14.5 MHz. Δfmax can be user-defined) Unit: MHz 6≤P≤20 12.5 ≤E<...
Page 397 ADVANCED OPERATION 3.5 ≤B<7.5 -35~-39dBc -55.8dBm 1MHz 7.5 ≤C<8.5 -39~-49dBc -55.8dBm 1MHz 8.5 ≤D<12.5 -49~-49dBc -55.8dBm 1MHz 3GPP-FDD UE Additional requirements for 3GPP-FDD UE. Additional Unit: MHz Additional Requirements Bands 2.5 ≤A<3.5 -15dBm 30kHz II, IV, X 3.5≤B<12.5 -15dBm 1MHz Unit: MHz Additional Band V...
Page 398 GSP-9300B User Manual Unit: MHz 31≤P<39 2.5 ≤A<2.7 P-53dBm 30kHz P-53~P-65dBm 30kHz 2.7≤B<3.5 3.5≤C<7.5 P-52dBm 1MHz 7.5≤C<12 P-56dBm 1MHz Unit: MHz P≤31 2.5 ≤A<2.7 -22dBm 30kHz -22 ~ -34dBm 30kHz 2.7≤B<3.5 3.5≤C<7.5 -21dBm 1MHz 7.5≤D<12 -25dBm 1MHz *referenced from ETSI: 3GPP TS 25.102 version 10.2.0 Release 10...
Page 399 ADVANCED OPERATION 3GPP-TDD BS The channel span: 7.68 Mcps 7.68Mcps: 10MHz. Unit: MHz P≥43 5 ≤A<5.2 -17dBm 30kHz 5.2≤B<6 -17 ~ -29dBm 30kHz 6≤C<24.5 -16dBm 1MHz Unit: MHz 39≤P<43 -17dBm 30kHz 5≤A<5.2 5.2≤B<6 -17 ~ -29dBm 30kHz 6≤C<15 -16dBm 1MHz 15≤D≤24.5 P-59dB 1MHz...
Page 400 GSP-9300B User Manual 3GPP-TDD UE The channel span: 3.84Mcps: 5MHz. 1.28Mcps: 1.6MHz. 7.68Mcps: 10MHz. Note: A, B, C, D, E denote offsets 1 to 5, respectively. Unit: MHz 3.84Mcps 2.5 ≤A<3.5 -35~-50dBc 30kHz -35 ~ -39dBc 1MHz 3.5≤B<7.5 -39~-49dBc 1MHz 7.5≤C<8.5...
Page 401 ADVANCED OPERATION 802.11g The channel span: ERP-OFDM/DSSS-OFDM : 18MHz ERP-DSSS/ERP-PBCC/ERP-CCK: 22MHz Note: A, B, C, D denote offsets 1 to 4, respectively. Here the default value of “f” is 40MHz (ERP-OFDM/ DSSS-OFDM) or 25MHz (ERP-DSSS/ ERP-PBCC/ ERP-CCK). This can be user-defined. Unit: MHz ERP-OFDM/ 9 ≤A<11...
Page 402 GSP-9300B User Manual Unit: MHz CH BW 19 ≤A<21 0~-20dBc 100kHz 40MHz -20~-28dBc 100kHz 21≤B<40 40≤C<60 -28~-45dBc 100kHz 60≤D<f -45dBc 100kHz *reference: IEEE Std 802.1n-2009 802.16* The channel span: CH BW 20MHz: 19MHz CH BW 10MHz: 9.5MHz Note: A, B, C, D denote offsets 1 to 4, respectively.
Page 403: Spectrum Emission Mask Testing
Spectrum Emission Mask Testing For spectrum emission mask testing, the GSP- Description 9300B has pre-defined testing parameters for 3GPP, 802.11x and 802.16. The GSP-9300B also allows you to perform user-defined SEM testing. Operation: 1. Press > SEM[F5]>SEM[F2] and turn SEM...
Page 404 GSP-9300B User Manual Absolute limit line SEM measurements 1. Press Setup[F1]>User Define[F6]to set SEM User Defined Parameters measurement to user defined parameters. 2. Press Meas Type[F1] choose between TotalPwrRef[F1] or PSDRef[F2]. 3. Press Ref. Channel[F2] and set the following: Sets the channel ChanIntegBW[F1] integration bandwidth.
Page 405 ADVANCED OPERATION 5. Press Offset/Limit[F3] to set the offset parameters: Select which offset to SelectOffset[F1] edit. [F2] Toggles the selected offset on/off. Sets the start frequency StartFreq[F3] of the selected offset. Sets the Stop Frequency StopFreq[F4] of the selected offset. Sets the RBW of the RBW[F5] selected offset.
Page 406 GSP-9300B User Manual Sets the relative stop Rel Stop[F5] level for the selected offset. Man: Allows a user- defined Abs Stop level. Couple: Sets the Rel Stop level to the Rel Start level. 7. Press Fail Mask[F6] to set the Fail Mask...
Page 407 ADVANCED OPERATION defined. 4. Press Return[F7] to return the previous menu. 5. Press Offset/Limit[F3]>Duplexing Mode[F1] and choose FDD or TDD duplexing: 6. For FDD, press FDD Setup[F2] set the FDD parameters, for TDD, press TDD Setup[F3]: Transmission[F1] Toggles between BS and UE testing Selects the bandwidth of Chip Rate[F2]...
Page 408 GSP-9300B User Manual Allows you to view the MinOffset/ Limit Value[F5] parameters of each of the offsets, including start/stop frequency, RBW, Abs Start/Stop and Rel Start/Stop. For details on 802.11x and 802.16 SEM test Pre-Set Test parameters, please see the SEM overview on Parameters: 802.XX...
Page 409: Third Order Intermodulation Distortion (Toi)
ADVANCED OPERATION Third Order Intermodulation Distortion (TOI) Third order intermodulation distortion Description measurement is used to calculate the TOI products caused by two signals that are close together in frequency in a non-linear system. Both the upper and lower third order intercept points (IP3) are calculated.
Page 410 GSP-9300B User Manual Δf Example Limit Order Upper Base Lower Base Upper Order Lower Operation: 1. Press > TOI[F6]>TOI[F1] and turn TOI Measure Any other measurement mode will automatically be  disabled. 2. The display splits into two screens. The top...
Page 411 ADVANCED OPERATION 3. Press Reference[F2] to set the reference to the upper or lower base frequencies. icon will be displayed next to the selected upper or lower reference. 4. Press Limit[F3] and set the limit for the upper and lower 3 order intermodulation product amplitude.
Page 412 GSP-9300B User Manual ΔMarker: User defined delta marker position. frequency, amplitude Measurement Visual Carrier items amplitude difference Δ f frequency difference between visual carrier and noise marker. Example Visual carrier marker Noise Δ1 marker Color subcarrier, Δf aural carrier Channel...
Page 413 ADVANCED OPERATION the previous menu. 5. Press CNR[F2] and turn CNR on. Any other measurement mode will automatically be  disabled. Ensure the aural and color subcarriers are disabled  before CNR is turned on. 6. The display splits into two screens. The top shows the trace with the visual carrier marker and the noise marker.
Page 414: Composite Second Order (Cso)
GSP-9300B User Manual Ensure the aural and color subcarriers are turned Note off when making CNR measurements. Composite Second Order (CSO) Composite Second Order measurement Description calculates the difference in amplitude between the carrier signal and the composite second order beat.
Page 415: Composite Triple Beat (Ctb)
ADVANCED OPERATION Visual carrier CSO beat marker marker CSO measurements 4. Press CSO CH SPC[F3] to set the channel space. 0~3GHz Range: 5. Press Channel Move Down[F4] or Channel Move Up [F5] to move to next or previous channel. Composite Triple Beat (CTB) Composite triple beat measurement calculates Description the difference in amplitude between the visual...
Page 416 GSP-9300B User Manual Example Visual carrier marker CTB Beat marker Channel spacing To next main channel Operation: 1. Press > More[F7]>CNR/CSO/CTB[F1]> Measure Setup[F1]> CTB[F3]>Return[F7] to choose CTB measurement and return to the previous menu. 2. Press CTB[F2] and turn CTB on.
Page 417 ADVANCED OPERATION 4. Turn off the visual carrier signal from the input and press the key on the front panel. Enter 5. A second trace will appear to mark the CTB amplitude. This will place a marker ( 2 ) on the second trace and ...
Page 418: Harmonic Measurements
GSP-9300B User Manual Harmonic Measurements The Harmonic function can be used to easily Description measure the amplitude of the fundamental frequency and its harmonic frequencies up to the 10 harmonic. The function can also measure the amplitude relative to the fundamental (dBc) and the total harmonic distortion (THD).
Page 419 ADVANCED OPERATION disabled. 2. The display splits into two screens. The top shows a bar graph with fundamental measurement (1) and the each of the harmonic frequencies (2~ 10). The bottom screen shows the amplitude, dBc and THD results. Fundamental frequency Nth order harmonics Harmonic measurement 3.
Page 420: N Db Bandwidth
GSP-9300B User Manual N dB Bandwidth N dB bandwidth measurements are used to Description measure the frequency bandwidth that covers a specified amplitude (N dB) from the top of the peak. Example N dB N dB Operation 1. Press > More[F7]>NdB Bandwidth[F3]>...
Page 421 ADVANCED OPERATION NdB BW N dB BW Measurement 3. Press NdB[F2] to set the NdB amplitude: 0.1dB ~ 80.0 dB Amplitude: The NdB bandwidth measurements are strongly Note tied to the RBW and VBW.
Page 422: P1Db Measurement
GSP-9300B User Manual P1dB Measurement The P1dB compression point describes the Description point at which the gain of an active DUT is 1dB less than the ideal linear gain (or small signal gain) relative to the input. Example response Input power (dBm) Connect the DUT to the RF input.
Page 423 ADVANCED OPERATION has been completed (see step 3), the top shows the trace (yellow) with the ideal response in red. The P1dB measurement is shown in green. The bottom screen shows the P1dB measurement results in real time. P1dB measurements The measurement results display a total of 31 points, incremented in 1dB steps from -30dBm to 0 dBm.
Page 424 GSP-9300B User Manual 6. To help smooth the actual frequency response and measure the P1dB compression point more accurately, press Average[F3] to set the average number. This is especially useful if Start is set around -50dB. 1 ~ 200 Average number: 7.
Page 425: P1Db Normalization
ADVANCED OPERATION P1dB Normalization The normalize function is used to compensate Description for any loss from a long cable that may cause inaccurate measurements. This function relies on the DUT being directly connected to either the TG or the RF input. The position of the long cable in relation to the DUT (input or output) will affect the P1dB measurement.
Page 426 GSP-9300B User Manual Example 1 Location = Prev Normalized DUT response DUT response with line loss before DUT input Input power (dBm) Example 2 Location = Post Normalized DUT response DUT response with line loss after DUT output Input power (dBm)
Page 427 ADVANCED OPERATION 2. Press > More[F7]>P1dB[F4] Measure >Normalize[F3]. 3. Press Execute Norm[F3]. This will normalize the cable loss. The cable loss will be shown in the Execute Norm icon. 4. Next connect the DUT either directly to the TG or directly to the RF input. The location of the DUT will determine whether the cable loss is normalized before or after the DUT.
Page 428: Limit Line Testing
> Edit Select Limit[F1]>Limit Line Line [F1] and choose a limit line. Limit line: 2. Press Point by Point[F2]. The GSP-9300B is split into two screens. The top screen shows the trace and limit lines and the bottom screen shows the limit line table.
Page 429 ADVANCED OPERATION Spectrum display Limit Line Table 3. Press Point Num[F1] and choose a point number to edit with the number pad (must start at #1). 4. Press Frequency[F2] and set the frequency of the point. 5. Press Limit[F3] and set the amplitude level of the point.
Page 430: Creating A Limit (From Trace Data)
[F1] and choose a limit line. Limit line: 2. Press Trace Data to Limit Line[F3]. The GSP-9300B is split into two screens. The top screen shows the trace and limit lines and the bottom screen shows the limit line table.
Page 431: Creating A Limit (From Marker Data)
[F1] and choose a limit line. Limit line: 2. Press Mkr Data to Limit Line[F4]. The GSP-9300B is split into two screens. The top screen shows the trace and limit lines and the bottom screen shows the limit line table.
Page 432: Delete Limit Line
GSP-9300B User Manual to edit (must start at #1). 4. Press Limit Offset[F3] and set the offset level for the point. This will only create an offset for the currently selected  point, not all the points. 5. Press Mkr Data to Point[F2].This adds the currently active marker’s position to the...
Page 433: Pass Fail Testing
ADVANCED OPERATION Pass Fail Testing Before pass/fail testing can begin, limit lines for Description the upper and lower limits must first be saved. See page 184, 186 & 187 to save limit lines. Operation 1. Press >Pass/Fail Test. Limit Line 2.
Page 434 GSP-9300B User Manual Display Icon The alarm icon is shown at the bottom of the display whenever testing is turned on. Example Limit line Pass/Fail inidicator At least one limit line (high or low) must be turned Note on to enable testing.
Page 435: Sequence
ADVANCED OPERATION Sequence The Sequence function records and plays back user-defined macros. There are up to 5 sequences available in repeat or single running mode, with up to 20 steps each. Delays and pauses can also be introduced into a sequence to view measurement results during a sequence.
Page 436 GSP-9300B User Manual Start Edit/ Sequence Main display Stop Edit icon function menu Sequence Editor window Up to 20 steps can be added to each sequence. Add a Step Each panel operation is recorded as a step. After each panel operation is performed, press...
Page 437 ADVANCED OPERATION The arrow keys can be used to move the cursor to Note Sequence the desired step when in the menu. The delay function adds a delay between steps. Add Delay to Sequence 1. Press Delay Time[F2]> and enter the delay time. 100ms ~ 10s Range: 2.
Page 438 GSP-9300B User Manual Inserts another sequence into the current Insert Sequence sequence. 1. Press Do Sequence[F4]> and select a sequence to insert into the current sequence. The selected sequence will be inserted as a step.  The current sequence cannot be inserted into Note itself.
Page 439: Running A Sequence
ADVANCED OPERATION After a sequence has been edited (and stopped) Save Current it can be saved. Sequence 1. Press >Save Sequence[F4] > to save the Sequence sequence. 2. The selected sequence will be saved. Delete Current 1. Press >Delete Sequence [F5] > to delete Sequence Sequence the current sequence.
Page 440: Tracking Generator
The tracking generator is a factory installed option that generates a sweep signal with its sweep time and frequency range matching the GSP-9300B. The amplitude is maintained at a constant value over the entire frequency range. This is useful for testing the frequency response of a DUT.
Page 441: Normalize The Tracking Generator
ADVANCED OPERATION the set TG Level and increases/decreases linearly to the set Power Sweep level at the end of the sweep. -5dB to +5dB Range: Normalize the Tracking Generator The normalize function subtracts the trace after Background each sweep with a reference trace. The resultant trace is added to a normalized reference level.
Page 442 GSP-9300B User Manual 4. Press Norm. Ref. Position[F3] offsets the normalized trace on the screen. 10~0 grid divisions. Range: (top to bottom) 5. Press Norm.[F4] to toggle the normalized data on/off. Alternatively, press Exe. Norm.[F1] to perform the normalization again.
Page 443 ADVANCED OPERATION Trace without normalization Trace with normalization on and the reference position set to the 5 grid. Response of the DUT The normalized data will be turned off Note automatically if any X-axis related parameters are changed or if the TG output level is changed. The warning message, “Execute Normalization again!”...
Page 444: Power Meter
Data Logging Power Meter Measurements → from page 202  Activating Power Meter Mode Connect the power sensor to the front panel Connection USB A port on the GSP-9300B. Connect the RF source to the power meter. USB A PORT Power Sensor...
Page 445 ADVANCED OPERATION Power meter bar Power meter measurement Data log of power measurements 3. Press Power Unit[F2] and choose the unit: dBm, W Unit 4. Press Frequency[F3] choose measurement frequency (use the number pad): 1MHz~6200MHz Frequency 1MHz Resolution: 5. Press Sensor Mode[F4] to choose measurement speed (and thus accuracy) of the power meter: 100ms/sample, typical Low Noise:...
Page 446 GSP-9300B User Manual Fail Icon: 7. Press More[F6]>Trigger[F1] to toggle between a free run (internal) trigger and an external trigger. Free, Ext Trigger: 3.3V CMOS Ext trigger input: 8. Press More[F6]> MAX/MIN HOLD[F2] to toggle the MAX/MIN hold measurements on/off in the power meter bar.
Page 447 ADVANCED OPERATION 3. Data Source[F3] will automatically be set to Power State. 4. Press PMET Record Option[F4] and set the recording options: Sets the recording time for Record Stop[F1]: automatic data logging: 00 :00 :00 (continuous) or 00 :00 :01 ~ 23 : 59: 59 20msec ~ 999sec Record Step[F2]: 5.
Page 448 GSP-9300B User Manual ABCDE FGHIJ KLMNO Lowercase PQRST Return Name> UVWXY Return Return 8. The filename appears on the bottom of the screen as it is created. Filename Press to confirm setting the filename. Enter If the file name is not user-defined, a file name will...
Page 449 ADVANCED OPERATION To manually stop the recording, press Record Stop Recording Stop[F2].
Page 450: File
File Overview The File function is used for basic file related operations including navigation, sorting copying and deleting. The GSP-9300B has a number of different file formats for trace data, limit lines, amplitude correction, sequences and other panel operations. File source and destination locations (local, USB or micro SD) can also be chosen with the file function.
Page 451 The GSP-9300B can save to an external USB flash memory drive. 1.1/2.0 (FAT32 and USB Type: NTFS formatted) The GSP-9300B can save to a micro SD card. Micro SD SDSC, SDHC (FAT32 Format: formatted) File Types The file types are listed in order as shown in the Overview File menu.
Page 452 GSP-9300B User Manual Center frequency  Span  Resolution Bandwidth  Video Bandwidth  Reference Level  Sweep Time  Point number (trace data points)  Contains the JPEG file of the display (800X600) Screen The limit line data contains the following in...
Page 453 FILE The power meter data contains: Power Meter Date  Time  Power in dBm  Start time/end time  Step time  Using the File Explorer To view files on a USB flash drive or micro SD Connect External card, insert the appropriate device into the front Memory panel port.
Page 454 GSP-9300B User Manual The file explorer can be configured to only view View Files by Type files of a certain type. For details on file types, please see page 207. 1. Press Type[F2] and select a file type to view:...
Page 455 FILE Example W hen Preview is turned on, other file types will not Note be viewable. Copy Files Files from local memory can be copied to Description external memory such as a USB flash drive or micro SD card and vice versa. Insert either a USB flash drive or micro SD card Connect External Memory...
Page 456 GSP-9300B User Manual The USB and micro SD card options will only be Note available when a flash drive/SD card is inserted into the front panel ports. Move Files Files from local memory can be moved to Description external memory such as USB or micro SD card and vice versa.
Page 457 FILE To delete files on a USB flash drive or micro SD Connect External card, insert the appropriate device into the front Memory panel port. Delete File 1. Press >File Explorer. File 2. Select a file from local or external memory. 3.
Page 458 GSP-9300B User Manual To rename files on a USB flash drive or micro Connect External SD card, insert the appropriate device into the Memory front panel ports. Rename File 1. Press >File Explorer. File 2. Select a file from local or external memory.
Page 459 FILE Filename 6. Press to confirm the renaming of the file. Enter The USB and micro SD card options will only be Note available when a flash drive/SD card is inserted into the front panel ports. Save Files Any function settings or configurations that Description have been applied to the spectrum analyzer can be saved using the...
Page 460 GSP-9300B User Manual Power meter data* Power meter *see page 202 for details. 3. Press Data Source[F3] to select a data source for the file type if possible: Local state data (fixed, not For state data: selectable) Trace1~4 For trace data:...
Page 461 FILE 7. To name the selected file, press Name[F5]. Name the selected file using the F1~F7 keys, as shown below or use the numeric keypad to enter numbers.: Limitations: No spaces  Only 1~9, A~Z, a~z characters allowed  ABCDE FGHIJ KLMNO Lowercase...
Page 462 GSP-9300B User Manual 10. To save the selected file type, press Save Now[F7]. A message “SaveFinish‼” will be displayed at the bottom of the screen when the save is successful. If the file name is not user-defined, a file name will...
Page 463 FILE To recall files from a USB flash drive or micro Connect External SD card, insert the appropriate device into the Memory front panel ports. 1. Press to enter the Recall menu. Recall 2. Press Type[F2] and select a file type to recall. See page 207 for details on file types: State data State:...
Page 464 GSP-9300B User Manual 3. A message “Finish‼” will be displayed at the bottom of the screen when the recall is successful. The USB and micro SD card options will only be Note available when a flash drive/SD card is inserted into the front panel ports.
Page 465 FILE 2. A “Save Finish‼” message will be shown at the bottom of the screen when the save has been completed. The file name will be automatically created in the Note following format for data files: File name: Type_data source_XX.file extension The image file names will be automatically created in the following format: File name: QuickJpg_XX.jpg...
Page 466: Remote Control
EMOTE CONTROL This chapter describes basic configuration of IEEE488.2 based remote control. For a command list, refer to the programming manual, downloadable from the GW Instek website, www.gwinstek.com Interface Configuration ........223 Configure to USB Remote Interface ......223 Configure GPIB Interface ..........223 Configure the LAN and LXI Interface ......
Page 467: Interface Configuration
REMOTE CONTROL 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 468 No loop or parallel connection  Configure the LAN and LXI Interface The GSP-9300B 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-9300B also supports HiSlip.
Page 469 REMOTE CONTROL 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] Toggles the LAN LAN Config[F5] configuration between DHCP and manual settings.
Page 470 GSP-9300B User Manual 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 3. The password appears on the bottom of the screen as it is created.
Page 471 The WLAN settings operate using any standard 3G USB modem. For remote locations, using a 3G modem allows you to access the GSP-9300B web server or to control the GSP-9300B via remote control commands. To use the GSP-9300B as a server using a 3G...
Page 472 GSP-9300B User Manual 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 473 REMOTE CONTROL 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. By default the password is set to: lxiWNpwd 4.
Page 474 GSP-9300B User Manual 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.
Page 475 REMOTE CONTROL Each time the LAN is reset, the default Note password is restored. Default password: lxiWNpwd 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...
Page 476 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. LXI Browser Interface and Function Check Enter the IP address of the spectrum analyzer in...
Page 477 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-9300B display will Note flash when the Identification setting is turned on.
Page 478 GSP-9300B User 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 479 [Note: password is case sensitive.] The Get Image page allows the browser to Get Image remotely capture a screenshot of the GSP-9300B display. For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com.
Page 480 Please use the National Instruments Functionality Measurement & Automation Controller check software to confirm GPIB/LAN functionality. See the National Instrument website, http://www.ni.com for details. For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com.
Page 481: Faq
• The performance does not match the specification I connected the signal but it does not appear on screen. Run Autoset and let the GSP-9300B find the best display scale for your target signal. Press the Autoset key, then press Autoset[F1].
Page 482: Appendix
The system clock and wake-up clock keep time Background using a button battery. Battery type: CR2032, 3V, 210mAh 1. Turn off the GSP-9300B and Connection remove the battery cover and battery (if connected). 2. Replace the battery with the same type and...
Page 483: Glossary Of Acronyms
APPENDIX Glossary of Acronyms Acronym Definition 3GPP Generation Partnership Project ACPR Adjacent Channel Power Ratio Base Station Center Frequency CH BW Channel Bandwidth CH SPC Channel Space International Special CISPR Committee on Radio Interference Carrier to Noise Ratio Composite Second Order Composite Triple Beat DANL Displayed Average Noise Level...
Page 484 GSP-9300B User Manual P1dB One-dB compression point Resolution Bandwidth Reference Spectrum Emission Mask SINAD Signal to Noise and Distortion Ratio Time-Division Duplexing Tracking Generator Third Order Intercept User Equipment Up Link Video Bandwidth...
Page 485: Gsp-9300B Default Settings
APPENDIX GSP-9300B Default Settings The following default settings are the factory configuration settings for the spectrum analyzer (Function settings/Test settings). Frequency Center Frequency: 1.5GHz Start Frequency: 0Hz Stop Frequency: 3GHz CF Step: Auto Frequency Offset: 0Hz Span Span: 3GHz Amplitude Reference level: 0.00dBm...
Page 486 GSP-9300B User Manual Meas All measurement functions: Off EMC Pretest All EMC test functions: Off Limit Line Limit lines: Off Pass/Fail Test: Off Trigger Free Run Trigger Condition: Video Trigger Mode: Norm. Trigger Delay: 50ms File Type: All Sort by: Name...
Page 487: Menu Tree
APPENDIX Menu Tree Amplitude Amplitude Ref Level Y Axis> -30 dB Attenuation Scale Type 10dB dBmV Auto Scale/Div Correction> dBuV RefLvlOffset Auto Scale Watts 0.000dB Scale Preamp Volts Auto Bypass Scale Pos. Return Left Cent. Right More More Select Point Num Input Z Correction>...
Page 488 GSP-9300B User Manual Y Axis> dBmV dBmV -dBm dBuV Watts Volts dBuV dBmV dBuV...
Page 489 APPENDIX Frequency, Span, Autoset, BW Avg, Sweep Frequency Span Autoset Center Freq Span Autoset 1.2345GHz 1.2345GHz Amp. Floor Start Freq Full Span -80.00dBm 1.2345GHz Auto Span Stop Freq Zero Span 3.000000MHz 1.2345GHz Auto CF Step 1.00000MHz Last Span Auto Freq Offset 0.00Hz BW/Avg Sweep...
Page 490 GSP-9300B User Manual Limit Line Limit Line Edit Limit Line> Point Num Limit 1 Select Limit> Pass/Fail Frequency Point by Point> Limit 2 Test> Trace Data to Limit Limit 3 Limit Line> 0.00 dBm Mkr Data to Limit 4 Limit Line>...
Page 491 APPENDIX Trigger, Sequence Trigger Video Edge Free Run Video> Trigger Ext. Edge Video Level Condition> 10.00dBm Video Trigger Mode Trigger Freq Norm. Sgl. Cont. 1.12345M Hz Trigger Delay 50.0 ms Action Now Return Return Only for when “Wait to go” is used in the sequence Sequence Sequence>...
Page 492 GSP-9300B User Manual Trace Trace Select Trace> TR1> Trace Math> Trace 1 Trace 2 Detection> TR2> Clear & Write Normal Trace 2 Trace 2 Auto Max Hold Power Diff Trace 3 -130.0dBm TR1-TR2 Log Diff Min Hold -50.00dBm Trace 4...
Page 493 APPENDIX Display Display Active Win. Window Setup> Spectrum Upper Lower LCD Brightness Alternate Split Spectrum> Sweep LCD Backlight Spectrogram Display Line -50.00dBm Topographic Spectrogram Spectrum Topographic Spectrum Return Return Spectrogram Topographic X Axis X Axis Marker Marker Y Axis Y Axis Ref.>...
Page 494 GSP-9300B User Manual Marker Marker Select Marker> Marker 1 Delta Marker 2 Move Ref Normal Marker 3 Move Delta Move Pair Delta> Marker 4 Span Move Pair Function> Marker 5 Center All Off Marker 6 More Return Marker Trace> Freq Counter...
Page 495 APPENDIX Peak Search, Marker Peak Search Peak Track Peak Table Peak Search Peak Excursion Peak Sort Mkr>Center 10.00dB Freq Peak Threshold Next Peak -50.00dBm Next Peak Right Next Peak Left Peak Table> Min Search More Return Return Marker Mkr>Center Mkr>Start Mkr>Stop Mkr>CF Step Mkr>RefLvl...
Page 496 GSP-9300B User Manual System System System Show Error Power On User Preset Information message Last Preset Error message> Prev Page Preset Type> Factory Preset Language> Save User Next Page English Preset Date/Time> Pwr On/preset> Alarm Output Clear Error queue More...
Page 497 APPENDIX From: System> Lan guage Eng lish 簡体中文繁體中文 Pусский 日本語 Return From: System>Date/ Time>Wake-Up Clo ck E dit> Sele ct Clo ck> Clock 1 Monda y State Clock 2 Tuesday Hour Clock 3 Wedne sda y Minute Clock 4 Thursday...
Page 498 GSP-9300B User Manual From: System>More 1/2> Rmt Interface Config> GPIB Addr IP Address LAN Config> 0.0.0.0 Subnet Mask LAN> WLAN Config> 0.0.0.0 Default LAN Reset LXIPassword> Gateway 0.0.0.0 RS232 Hi SLIP Port DNS Server Baud Rate> 115200 4880 USB Mode...
Page 499 APPENDIX From: System>More 1/2> Rmt Interface Config>LAN>LXIPassword ABCDE FGHIJ KLMNO PQRST UVWXY Lowercase Return Return Return...
Page 500 GSP-9300B User Manual Option Control Option Control Tracking Exe. Norm. Generator> Norm. TG Level Power Meter> Ref. Level 0.00dBm 0.000dB Norm. TG Lvl Offset Ref. Position 0.000dB TG Lvl Step Norm 0.000dB Auto Power Sweep 0.000dB Normalize> Return Return Power Meter...
Page 501 APPENDIX File File File Explorer> Media> Media> Local Local Local Local Type> Copy Now Move Now Sort by SD Card Name Date Copy to> Delete> Rename> Move to> Return Return...
Page 502 GSP-9300B User Manual From: File>Type From: File>Delete Sequence Delete Now .seq Delete Warning State Power Meter Don’t Ask Ask .sta .pmet Trace Delete All .tra Screen .jpg Limit Line Correction .cor More 1/2 Return 2/2 Return From: File>Rename ABCDE FGHIJ...
Page 503 APPENDIX Save (Mode = Power Meter) See: Save>Save To Save Save To> Record Stop Hour State Local 00: 00: 00 Type> Record Step Minute State Data Source> Second Screen Local State PMET Record Option> Name> Record Stop Record Now Power Meter Return Return See: File>Rename...
Page 504 GSP-9300B User Manual From: Save>Save To Register> Register 1 Local Register 2 Register 3 SD Card Register 4 Register 5 Register 6 Return Return...
Page 505 APPENDIX (Mode = Spectrum) See: Save>Save To Save Save To> State Trace Local Type> Trace Trace + State Trace Data Source> Screen Trace 1 Format> Line Line Trace Name> Correction Sequence Save Now Power Meter See: File>Rename Local State Trace 1 Normal Limit 1 Correction 1...
Page 506 GSP-9300B User Manual Recall (Mode = Power Meter) Recall Recall From> Register> Register 1 Local Type> Local Register 2 State Destination> Register 3 Local State Recall Now SD Card Register 4 Register 5 Register 6 Return Return According to type:...
Page 507 APPENDIX (Mode = Spectrum) Recall Recall From> State Register> Register 1 Local .sta Type> Trace Local Register 2 Trace .tra Destination> Register 3 Trace 1 Recall Now Line Line SD Card Register 4 .lmt Correction Register 5 .cor Sequence Register 6 .seq Power Meter Return...
Page 508 GSP-9300B User Manual Measure See: Meas>Demod Measure Channel Main CHBW ACPR Setup> CNR/CSO/CTB> Analysis> 2.000000MHz Main CH ACPR Demod> HLimit Harmonic> 0.00dBm Main CH OCBW Setup> LLimit Bandwidth> 0.00dBm OCBW CH SPC Phase Jitter> P1dB> 2.000000MHz Channel ADJCH SEM> Move Up Setup>...
Page 509 APPENDIX From: Measure>More> From: Measure>Demod From: Measure>TOI NdB Bandwidth Earphone Out NdB BW AM Analysis> Volume Reference N dB FM Analysis> Lower Upper 0.000dB Digital Gain Limit Sound> Control -30.00dBm 0.000dB Demod Type Pass/Fail Test Return Return Return Return From: Measure>More>CNR/CSO/CTB Setup>...
Page 510 GSP-9300B User Manual From: Measure>Demod>AM Analysis IF Bandwidth AM Analysis Bypass 300kHz LPF> 1.6MHz Setup> Bypass Time Axis> 781kHz Min/Max Reset Decimation Depth Axis> 521kHz frequency* AF Trigger> 391kHz Limit Edit> Squelch Level Pass/Fail Test 313kHz -130.0dBm Return Return Ref. Value Ref.
Page 511 APPENDIX From: Measure>Demod>FM Analysis IF Bandwidth FM Analysis Bypass 300kHz LPF> 16kHz Setup> Bypass Time Axis> 7.8kHz Min/Max Reset Decimation Deviation Axis> 5.2kHz frequency* AF Trigger> 3.9kHz Limit Edit> Pass/Fail Test 3.1kHz Return Return Ref. Value Ref. Value Edge Slope Free Run 0.0ns 30Hz...
Page 512 GSP-9300B User Manual From: Measure>Demod>AM Analysis>Limit Edit AM Depth 100.0% Carr.Offset 200.000kHz Carr.Power 0.00dBm Return From: Measure>Demod>FM Analysis>Limit Edit Freq. Deviation 200.000kHz Carr.Offset 200.000kHz Carr.Power 0.00dBm Return...
Page 513 APPENDIX From: Measure>SEM SEM Setup> Meas Type> Meas Type> 3GPP> 3GPP Total pwr Ref PSD Ref 802.11b> Ref. Channel> Ref. Channel> Def. Help 802.11g> Offset/Limit> Offset/Limit> 802.11n> 802.16> User Define> Return Return Return Return From: Measure>SEM>3GPP> From: Measure>SEM>3GPP> REF. Channel Offset/Limit Chan Integ BW Duplexing Mode...
Page 514 GSP-9300B User Manual From: Measure>SEM>3GPP> Offset/Limit>FDD Setup Transmission P>=43 None BS Mode Max Out Pwr> 39<=P<43 6<=P<=20 P>=43 Additional Max Out Pwr> 31<=P<39 P<6 None Add. Limits P<31 None Min Offset/Limit Value> Return Offset Offset None Band XIII Abs Start...
Page 515 APPENDIX From: Measure>SEM>3GPP> Offset/Limit>FDD Setup Transmission None Band XIII UE Mode Band II Band XIV Band IV Add. Limits Band V None Min Offset/Limit Band X Value> Band XII Return More 1/2 Offset Offset Abs Start -22 dBm Start Freq Abs Stop 27 MHz -22dBm...
Page 516 GSP-9300B User Manual From: Measure>SEM>3GPP> Offset/Limit>TDD Setup Chip Rate = 3.84/7.68M Transmission Offset Offset P>=43 Mode Chip Rate Abs Start 3.84M 1.28M 39<=P<43 -22dBm 7.68M Max Out Pwr> Start Freq Abs Stop 31<=P<39 P>=43 2.7MHz -22dBm Min Offset/Limit Stop Freq P<31...
Page 517 APPENDIX From: From: From: Measure>SEM> Measure>SEM> Measure>SEM> 802.11b/g/n/ 802.11g>Offset/ 802.11n>Offset/ 802.16>Ref. Channel Limit Limit Modulation> Chan Integ BW ERP-OFDM/ CH BW ERP-OFDM/ 3.84MHz DSSS-OFDM DSSS-OFDM ERP-DSSS/ Chan Span Min Offset/Limit Min Offset/Limit ERP-PBCC/ 3.96MHz Value> Value> ERP-CCK 10kHz PSD Ref -74.3dBm/Hz Return Return...
Page 518 GSP-9300B User Manual From: Measure>SEM>802.11g> Offset/Limit>Min Offset/Limit 802.11g modulation=DSSS Offset Offset Start Freq 2.7MHz Stop Freq Rel Start 2.7MHz -22dBc Rel Start -22dBc More Return Return From: Measure>SEM>802.11g> Offset/Limit>Min Offset/Limit 802.11g modulation=OFDM Offset Offset Start Freq 2.7MHz Stop Freq Rel Start 2.7MHz...
Page 519 APPENDIX From: Measure>SEM> User Define> Meas Type> Chan Integ BW Total Pwr Ref Total Pwr Ref 3.84MHz Chan Span Ref. Channel> PSD Ref 3.96MHz Offset/Limit> 10kHz Auto Total Pwr Ref -74.3dBm Auto Return Return Offset Offset Absolute Abs Start Relative -22dBm Start Freq Abs Stop...
Page 520 GSP-9300B User Manual From: Measure>More From: Measure> >Harmonic More>NdB Bandwidth From: Measure>TOI NdB BW Harmonic Fundamental Reference Freq. 3.000dB Lower Upper 1.000000MHz Limit Number of Order 0.00dBm Pass/Fail Test 10kHz Auto Return Return Return From: Measure>More>P1dB P1dB Center Freq Exec. Norm 100.000MHz...
Page 521: Gsp-9300B Specifications
APPENDIX GSP-9300B Specifications The specifications apply when the GSP is powered on for 45 minutes* to warm-up to a temperature of 20˚C to 30˚C, unless specified otherwise. 45 minutes typical, 90 minutes maximum.  Frequency Frequency Range 9 kHz to 3 GHz...
Page 522 GSP-9300B User Manual Phase Noise Offset from Fc =1 GHz; RBW = 1 Carrier kHz, VBW = 10 Hz; Average ≥ 40 Typical 10 kHz <-88 dBc/Hz Typical 100 kHz <-95 dBc/Hz Typical 1 MHz <-113 dBc/Hz Resolution Bandwidth (RBW) Filter...
Page 523 APPENDIX 1 dB Gain Compression Typical ;Fc ≥ 50 MHz; Total Power at 1st > 0 dBm Mixer preamp. off ;Fc ≥ 50 MHz; Typical Total Power at the > -22 dBm Preamp preamp. on mixer power level (dBm)= input power (dBm)- attenuation (dB) Displayed Average Noise Level (DANL) Preamp off...
Page 524 GSP-9300B User Manual Absolute Amplitude Accuracy Absolute Point Center=160 MHz ; RBW 10 kHz; VBW 1 kHz; span 100 kHz; log scale; 1 dB/div; peak detector; 23°C±1°C; Signal at Reference Level Preamp off ± 0.3 dB Ref level 0 dBm;...
Page 525 APPENDIX Spurious Response Second Harmonic Preamp off; signal input -30dBm; 0 Intercept dB attenuation Typical +35 dBm ; 10 MHz < fc < 775 MHz Typical ; 775 MHz ≤ fc < 1.625 GHz +60 dBm Third-order Preamp off; signal input -30dBm; 0 Intercept dB attenuation >...
Page 526 GSP-9300B User Manual Power for Option Connector Type SMB male Voltage/Current DC +7V / 500 mA max With short-circuit protection USB Host Connector Type A plug Protocol Version 2.0 Supports Full/High/Low speed MicroSD Socket Protocol SD 1.1 Supported Cards microSD, microSDHC...
Page 527 APPENDIX IF Output Connector Type SMA female Impedance 50 ohm Nominal IF Frequency 886 MHz Nominal Output level -25 dBm 10 dB attenuation; RF input: 0 dBm @ 1 GHz Earphone Output Connector Type 3.5mm stereo jack, wired for mono operation Video Output Connector Type DVI-I ( integrated analog and digital) , Single...
Page 528 GSP-9300B User Manual Tracking Generator (Optional) Frequency Range 9 kHz to 3 GHz Output Power -50 dBm to 0 dBm in 0.5 dB steps Absolute Accuracy ± 0.5 dB @160 MHz, -10 dBm, Source attenuation 10 dB, 20 to 30°C...
Page 529: Gsp-9300B Dimensions
APPENDIX GSP-9300B Dimensions G S P -9 3 0 0 B Spectrum Analyzer CONTROL 9 kHz 3 GHz Sweep Fast/ Frequency BW/AVG Sweep Mode Normal FILE MARKER AUXILIARY Span Measure File Marker Sequence Limit Option Amplitude Trace Save Marker Line...
Page 530: Declaration Of Conformity
GSP-9300B User Manual Declaration of Conformity GOOD WILL INSTRUMENT CO., LTD. declare that the below mentioned product Type of Product: Spectrum Analyzer Model Number: GSP-9300B is herewith confirmed to comply with the requirements set out in the Council Directive on the Approximation of the Laws of the Member States relating to the EMC: 2014/30/EU, LVD: 2014/35/EU, WEEE: 2012/19/EU and RoHS: 2011/65/EU.
Page 531: Index
INDEX NDEX Accessories ......... 12 Composite triple beat ....171 ACPR ......... 128 Conventions ........ 34 Adjacent channel power ..128 CSO ..........170 Alarm output ......121 CTB ..........171 AM Analysis ......133 Date, Time, Wake-up clock ..30 AM/FM demodulation sound Declaration of conformity ..
Page 532 GSP-9300B User Manual Power meter data ....... 209 Peak search ......... 104 Quick save ........220 Peak table ........107 Recall files ........218 Table ..........103 Rename files ........ 213 Marketing Save files ........215 Contact ........237 Screen files........208 Measurement Sequence data ......
Page 533 INDEX OCBW ........130 Last span ........47 Setting ..........45 Occupied bandwidth ....130 Zero span ........46 P1dB measurement ....178 Specifications ......277 P1dB normalization ....181 Amplitude ........278 Peak search ....... 104 Dimensions ......... 285 Peak table ........
Page 534 GSP-9300B User Manual Video trigger ......... 88 Video out port ......110 UK power cord ......7 Warning symbol ......3 USB function check ....236 Web server function check ..232 VBW ..........66 VBW/RBW ratio ......67...