4530 SERIESRF POWER METERINSTRUCTION MANUALThis manual is applicable to: Revision date: 07/08/2003to: Revision date: 07/08/2003Manual P/N: 98404800Cer
viiiContents Boonton Electronics4530 Series RF Power MeterList of IllustrationsILLUSTRATION PAGEC-1 4530 Series RF Power Meter . . . . . . . . . . . .
4-26Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterCALCulate:UNITsDescription: Set or return default programming/display unit
4-27Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationCALCulate:LIMit:UPPerDescription: Set or return the upper limit power leve
4-28Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterCALCulate:LIMit:CLEarDescription: Reset (clear to zero) the selected chann
4-29Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationMARKer:POSition:TIMeDescription: Set or return the time (position) of the
4-30Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterDISPlay:%OFSTDescription: Set or return the horizontal trace offset in sta
4-31Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationDISPlay:TXTDescription: Set the display to single channel text mode showin
4-32Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterDISPlay:TRACe:PCTSPANDescription: Set or return the vertical span (sensiti
4-33Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationDISPlay:TEXT:RESolutionDescription: Set or return the display resolution f
4-34Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterTRIGger:HOLDoffDescription: Set or return the trigger holdoff time. Trigg
4-35Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationTRIGger:SLOPeDescription: Set or return the trigger slope or polarity. Wh
ixBoonton Electronics Contents4530 Series RF Power MeterSAFETY SUMMARYThe following general safety precautions must be observed during all phases of o
4-36Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meter4.5.11 TRACe Data Array CommandsThe TRACe group of commands is used to co
4-37Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4.5.12 SENSe:MBUF Data Array CommandsThe MBUF commands (which are grouped
4-38Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSENSe:MBUF:POSitionDescription: Return the current acquisition position in
4-39Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4.5.13 SENSe:SBUF Data Array CommandsThe SBUF commands (which are grouped
4-40Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSENSe:SBUF:COUNtDescription: Set or return the number of samples (power re
4-41Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationSENSe:HIST:COUNtDescription: Set or return the number of histogram element
4-42Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSENSe:CALTAB:INDEXDescription: Set or return the array index for the first
4-43Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationCALibration:{INTernal|EXTernal}:FIXedcalDescription: Performs a single poi
4-44Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterMEMory:SYS:STOReDescription: Saves the current instrument setup to interna
4-45Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationOUTPut:EXTernal:MODulationDescription: Set or return the output modulation
xContents Boonton Electronics4530 Series RF Power Meter Figure C-1 4530 Series RF Power Meter
4-46Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterOUTPut:RECOrder:MEASDescription: Set or return the recorder output’s measu
4-47Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationOUTPut:RECOrder:FASTDescription: Set or return the state of the recorder “
4-48Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meter4.5.18 SYSTem SubsystemThe SYSTem group of commands is used to control sy
4-49Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationSYSTem:LIGHTDescription: Set or return the display backlight status. OFF
4-50Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSYSTem:COMMunicate:GPIB:ADDRessDescription: Set or return the instrument’s
4-51Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationSTATus:OPERation:EVENtDescription: Return the SCPI Operation Status Event
4-52Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSTATus:QUEStionable:CONDitionDescription: Return the current value (condit
4-53Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation*ESEDescription: Set or return the Standard Event Status Enable Register.
4-54Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meter*OPCDescription: Clear or read the OPC (OPeration Complete) status flag.
4-55Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation*STBDescription: Return the current value of the STatus Byte register. Th
xiBoonton Electronics Contents4530 Series RF Power MeterRepair PolicyModel 4531 / 4532 Instrument. If the Boonton Model 4531/4532 RF Power Meter is n
4-56Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meter*TRGDescription: Trigger a measurement. This command is equivalent to rec
4-57Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationCALibration[1 | 2]:{INTernal | EXTernal}:ZERO[?] Performs sensor zero offs
4-58Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterMEMory:SYS[1 | 2 | 3 | 4]:LOAD recall stored instrument setup from setup m
4-59Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationSENSe[1 | 2]:PULse:DISTal <n> set/return pulse distal level in perce
4-60Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSYSTem:COMMunicate:GPIB:ADDRess <n> set/return instrument’s own GPIB
4-61Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4.6 REMOTE SENSOR CALIBRATION4.6.1 AutoCal (Peak or CW Sensors) - When m
4-62Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterThis method is simple but has a disadvantage. You must anticipate the tim
4-63Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4.8 SCPI EXAMPLE PROGRAM FRAGMENTS.4.8.1 Pulse Mode Example - Signal in
4-64Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meterd. Use an internal signal trigger to initiate successive measurements.CAL
4-65Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4.8.2 Modulated Mode Example - Signal in: 100 microsecond wide periodic p
xiiContents Boonton Electronics4530 Series RF Power Meter
4-66Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meterb. Making successive measurements.CALC1:MODE cw Set for CW measurement mo
4-67Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4.9 ERROR AND STATUS CODES.The following table shows codes that will be r
4-68Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meter
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-15. MAKING MEASUREMENTS5.1 SENSOR TYPESThe 4530 Series RF Power Meter c
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-2Frequency and linearity correction factors for Boonton CW Power Sensors
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-3less operation allows continuous measurement of signals without the loss
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-4CW mode measures the average power of CW signals (and modulated signals
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-5Although the sample rate in statistical mode is high enough to gather a
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-65.4 SELECTING THE RIGHT MEASUREMENT MODESince the 4530 Series RF Power
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-75.4.4 Statistical Mode. Statistical Mode is only available when using a
Boonton Electronics Chapter 14530 Series RF Power Meter General Information1-11. GENERAL INFORMATION1.1 DESCRIPTIONThe 4530 Series RF Power Meter is
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-8Averaging (Optional setting for Pulse Mode) - Sets the trace averaging
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-95.6 SETTINGS FOR SOME COMMON SIGNAL TYPESThe following list discusses
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-10Meas Mode: PulseFrequency: 850 MHz (or whatever operating frequency is
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-11Meas Mode: PulseFrequency: 0.815 GHz (or whatever operating frequency i
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-12Meas Mode: PulseFrequency: 2.44 GHz (center frequency of Bluetooth band
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-135.6.6 Measuring HDTV. Both of the common HDTV formats (8-VSB and COFDM
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-14It should be noted that measurement uncertainty calculation is a very c
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-15The formula for calculating RSS measurement uncertainty from worst-case
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-16Source Mismatch Uncertainty. This term is the mismatch error caused by
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-17Sensor Noise. The noise contribution to pulse measurements depends on
Chapter 1 Boonton ElectronicsGeneral Information 4530 Series RF Power Meter1-21.2 FEATURESMulti-mode capability Utilizes CW sensors, Peak Power senso
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-185.7.3 Sample Uncertainty Calculations. The following examples show cal
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-19sensor, and the temperature has not drifted at all, so we can assume a
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-20Typical Example #2: Model 57518 Peak Power SensorMeasurement condition
Boonton Electronics Chapter 54530 Series RF Power Meter Making Measurements5-21Step 6: The Sensor Temperature Drift Error depends on how far the temp
Chapter 5 Boonton ElectronicsMaking Measurements 4530 Series RF Power Meter5-22
Boonton Electronics Appendix A4530 Series RF Power Meter SensorsA-1Appendix A SensorsSENSORSThis appendix lists the characteristics of most common Boo
Appendix A Boonton ElectronicsSensors 4530 Series RF Power MeterA-2Peak Power SensorsModel Frequency Dynamic Range Overload Sensor Risetime
Boonton Electronics Appendix A4530 Series RF Power Meter SensorsA-3CW Power SensorsModel Frequency Dynamic Range Overload Maximu
Appendix A Boonton ElectronicsSensors 4530 Series RF Power MeterA-4CW Power Sensors (Cont)Model Frequency Dynamic Range Overload
Boonton Electronics Appendix B4530 Series RF Power Meter 2530 1GHz CalibratorB-1Appendix B Model 2530 1GHz CalibratorMODEL 2530 1 GHz CALIBRATORThe Mo
Boonton Electronics Chapter 14530 Series RF Power Meter General Information1-31.4.2 Calibration SourcesInternal CalibratorOutput Frequency: 50 MHz ±
Appendix B Boonton Electronics2530 1GHz Calibrator 4530 Series RF Power MeterB-2MiscellaneousPower requirements: 90 to 260 VAC, 47 to 63 Hz, < 50 V
Chapter 1 Boonton ElectronicsGeneral Information 4530 Series RF Power Meter1-41.4.5 Measurement CharacteristicsMeasurements: Average Power*Maximum A
Boonton Electronics Chapter 14530 Series RF Power Meter General Information1-51.4.7 InterfaceVideo Output: Compressed representation of detected RF e
& 1998-2002, 2003 Boonton Electronics. All rights reserved.% is a registered trademark of Boonton Electronics, a subidiaryof Noise/Com, a Wirel
Chapter 1 Boonton ElectronicsGeneral Information 4530 Series RF Power Meter1-61.4.9 Physical SpecificationsDimensions: 3.5 inches (8.9 cm) high,8.4 i
Boonton Electronics Chapter 24530 Series RF Power Meter Installation2-12. INSTALLATION2.1 UNPACKING & REPACKINGThe 4530 Series RF Power Meter is
Chapter 2 Boonton ElectronicsInstallation 4530 Series RF Power Meter2-26. The sensors supplied with the instrument may vary widely in model number and
3-1Boonton Electronics Chapter 34530 Series RF Power Meter Operation3. OPERATION3.1 OPERATING CONTROLS, INDICATORS AND CONNECTIONSControls, indicato
3-2Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.2 KEY FUNCTION SUMMARYTable 3-1 references each operating key or connector to
3-3Boonton Electronics Chapter 34530 Series RF Power Meter OperationESC/Stop Key 7 Aborts any operation in progress when in Menu Mode or Zero/Cal Mode
3-4Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterEXT CAL CONTROL 14 An RJ-11 type modular telephone jack is used to connect the ins
3-5Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.3 DISPLAY FUNCTIONSThe screen display of the 4530 is divided into three sectio
3-6Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.4 OPERATING MODE SUMMARYThe 4530 can operate in several modes. It is possible
3-7Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.4.3 Graph Mode. The Graph Mode can present an oscilloscope style trace of power
iBoonton Electronics Contents4530 Series RF Power MeterContentsCHAPTER/SECTION PAGEList of Tables . . . . . . . . . . . . . . . . . . . . . . . . . .
3-8Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterFigure 3-8. Zero/Cal Mode (Example)3.5 MENU MODE OPERATION3.5.1Entry. When the
3-9Boonton Electronics Chapter 34530 Series RF Power Meter OperationIf a precise value is required, a special digit editing mode (Figure 3-10) may be
3-10Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Metera. Header. The header displays a title line and a line of text describing the cu
3-11Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.6.1 Entry. When the Text key is pressed, the 4530 enters Text Mode.3.6.2 Meas
3-12Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.7.1 Entry. When the Graph key is pressed, the 4530 enters Graph Mode.3.7.2 Mea
3-13Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.8.4 Parameter Editing. The ∧ and ∨ keys are used to increment or decrement the
3-14Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.9 DISPLAY FORMATS3.9.1Channel Selection and Paging. Pressing the ∧ or ∨ keys
3-15Boonton Electronics Chapter 34530 Series RF Power Meter OperationChannel 1 Both Channels Channel 2CW Sensor Peak Sensor (Pulse Mode) Figure 3-15
3-16Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterChannel 1 Both Channels Channel 2CW Sensor Peak Sensor (Pulse Mode)Figure 3-17. T
3-17Boonton Electronics Chapter 34530 Series RF Power Meter OperationSince each sensor is different, the power meter must know the precise relationshi
iiContents Boonton Electronics4530 Series RF Power Meter3.3 Display Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-18Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.10.2 Zero Offset Adjustment. After a CW sensor is connected, and anytime a low
3-19Boonton Electronics Chapter 34530 Series RF Power Meter OperationBOONTON ELECTRONICS BOONTON ELECTRONICSMODEL 4530 MODEL 2530RF POWER METER 1GHZ R
3-20Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterTable 3-4. Zero/Cal MenuZero Chan (ALL SENSOR TYPES) Zero the sensor to remove t
3-21Boonton Electronics Chapter 34530 Series RF Power Meter OperationTable 3-4. Zero/Cal Menu - (Cont)CalSource Selects the calibrator to be used for
3-22Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.11.1 Measure Menu.The Measure menu contains items that control the taking of m
3-23Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.11.2 Channel Menu.The Channel menu contains items that affect a single measure
3-24Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Channel 1 | 2 > Params > FilterSet the integration time of t
3-25Boonton Electronics Chapter 34530 Series RF Power Meter OperationMain Menu > Channel 1 | 2 > Params > DutyCycleSets the duty-cycle in per
3-26Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Channel 1 | 2 > Params > Def Pulse > [ StartGate, EndGate
3-27Boonton Electronics Chapter 34530 Series RF Power Meter OperationMain Menu > Channel 1 | 2 > Params > ImpedanceCharacteristic impedance i
iiiBoonton Electronics Contents4530 Series RF Power Meter3.9 Display Formats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-28Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Channel 1 | 2 > Display > ResolutnSelect the display resolut
3-29Boonton Electronics Chapter 34530 Series RF Power Meter OperationMain Menu > Channel 1 | 2 > FrDepOfst > Ofst SrcSelect which, if either,
3-30Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Channel 1 | 2 > Snsr Data > GainConstDisplays a sensor infor
3-31Boonton Electronics Chapter 34530 Series RF Power Meter OperationHorizontal Horizontal markers appear as horizontal bars, and measure the percent
3-32Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Trig/Time > Trig PosSelects the position of the trigger event o
3-33Boonton Electronics Chapter 34530 Series RF Power Meter OperationMain Menu > Trig/Time > HoldOffSets the trigger holdoff time. Trigger hold
3-34Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.11.5 Statisticl Menu.The Statisticl menu is used to configure data acquisition
3-35Boonton Electronics Chapter 34530 Series RF Power Meter OperationMain Menu > Statisticl > TrmCountSets the terminal count (sample population
3-36Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Calibratr > [ Int Signal, Ext Signal ]Control the on/off state
3-37Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.11.7 Save/Recl Menu.The Calibratr Menu is used to control both the internal, 5
ivContents Boonton Electronics4530 Series RF Power MeterContents (Cont)CHAPTER/SECTION PAGE4.4 Basic Measurement Operation . . . . . . . . . . . . .
3-38Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Utilities > Display > BacklightSelects the operating mode of
3-39Boonton Electronics Chapter 34530 Series RF Power Meter OperationMain Menu > Utilities > IEEE-488 > SRQ MaskSet the GPIB Service Request
3-40Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Utilities > Serial > ParityBitSelect whether the serial port
3-41Boonton Electronics Chapter 34530 Series RF Power Meter OperationManual The recorder output will generate a manually ranged signal that follows th
3-42Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterMain Menu > Utilities > Recorder > Calibrate > Slope AdjAdjusts the s
3-43Boonton Electronics Chapter 34530 Series RF Power Meter OperationMain Menu > Utilities > Sys-Tests > RecorderPerform a diagnostic test of
3-44Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter3.11.11 Menu Summary.The following table is a compressed summary the entire menu
3-45Boonton Electronics Chapter 34530 Series RF Power Meter OperationFrDepOfst . . . . . . . . . . . . . . . . . . . . Freq Dependent Offset SubmenuO
3-46Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterUtilities . . . . . . . . . . . . . . . . . . . . . Instrument Utilities MenuIns
3-47Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.12 ERROR MESSAGES AND STATUS CODESThe following tables show the various error
vBoonton Electronics Contents4530 Series RF Power Meter5. MAKING MEASUREMENTS5.1 Sensor Types . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-48Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power MeterTable 3-8. Sensor Zero / Cal Status Codes00 operation complete, no errors03 coar
3-49Boonton Electronics Chapter 34530 Series RF Power Meter Operation3.13 RECORDER OUTPUT CALIBRATIONThe recorder output may be user calibrated for
3-50Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter6. The slope adjustment has no effect on the output voltage when the force settin
3-51Boonton Electronics Chapter 34530 Series RF Power Meter Operationmain software version, and a DSP software version. They may not be the same, but
3-52Chapter 3 Boonton ElectronicsOperation 4530 Series RF Power Meter
4-1Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4. REMOTE OPERATION4.1 GPIB CONFIGURATION.The 4530 Series GPIB interface i
4-2Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Metercode. Upon receiving this code, the instrument immediately transmits the s
4-3Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationCommand which takes numeric argument: SENSe1:AVERage <n>Command with
4-4Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meter4.5 COMMAND REFERENCE.This section contains a list of all remote commands
4-5Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationMEASure:VOLTageDescription: Return average voltage using a default instrume
viContents Boonton Electronics4530 Series RF Power MeterContents (Cont)CHAPTER/SECTION PAGEAPPENDIX AAvailable Sensors . . . . . . . . . . . . . . .
4-6Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterABORtDescription: Terminates any measurement in progress and resets the sta
4-7Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationFETCh:ARRay:MARKer:POWerDescription: Returns the current power readings at
4-8Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterFETCh:ARRay:PULse:POWerDescription: Returns an array of the current marker
4-9Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationFETCh:ARRay:AMEAsure:POWerDescription: Returns an array of the current auto
4-10Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterREAD:MARKer:POWerDescription: Performs a single measurement and returns th
4-11Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationREAD:ARRay:CW:VOLTageDescription: Performs a single measurement and return
4-12Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterREAD:ARRay:AMEAsure:POWerDescription: Performs a single measurement and re
4-13Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationCH1Description: Configures native mode talk instructions to return Channel
4-14Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterTKSDATADescription: Returns the sensor data table from sensor’s EEPROM. N
4-15Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationTKSCWRGDescription: Returns the CW sensor linearity calibration table from
viiBoonton Electronics Contents4530 Series RF Power MeterList of TablesTABLE PAGE3-1 Keyboard Controls, Indicators and Connectors . . . . . . . . . .
4-16Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterTKPWRDescription: Sets the talkmode to return the average, maximum and min
4-17Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationTKMK2Description: Sets the talkmode to return the reading at marker 2 for
4-18Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterTKPLSPWRDescription: Sets the talkmode to return an array of automatic pow
4-19Boonton Electronics Chapter 44530 Series RF Power Meter Remote Operation4.5.6 SENSE SubsystemThe purpose of the SENSe command subsystem is to dir
4-20Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSENSe:FILTer:TIMeDescription: Set or return the current length of the inte
4-21Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationSENSe:CORRection:FDOFfsetDescription: Set or return the name of the curren
4-22Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power MeterSENSe:PULSe:UNITsDescription: Set the units for entering the pulse distal,
4-23Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationSENSe:PULSe:STARTGTDescription: Set or return the point on a pulse, which
4-24Chapter 4 Boonton ElectronicsRemote Operation 4530 Series RF Power Meter4.5.7 CALCulate SubsystemThe CALCulate group of the command subsystem is
4-25Boonton Electronics Chapter 44530 Series RF Power Meter Remote OperationCALCulate:DCYCDescription: Set or return the pulse duty cycle in percent o
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