Agilent Technologies 8935 Series E6380A CDMA Cellular/PCS Base Station Test Set GPIB Syntax Reference Guide Firmware Version: B.02.
Notice Information contained in this document is subject to change without notice. All Rights Reserved. Reproduction, adaptation, or translation without prior written permission is prohibited, except as allowed under the copyright laws. This material may be reproduced by or for the U.S. Government pursuant to the Copyright License under the clause at DFARS 52.227-7013 (APR 1988).
Contents Manufacturer's Declaration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 Safety Considerations for this Instrument . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33 Certification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :NOTCh:FREQuency? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 :RANGing :RANGing? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 :SMPoint :SMPoint? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 :SPEaker:MODE :SPEaker:MODE? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :POLarity? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 :SEND:MODE :SEND:MODE? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 :SEND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74 :STOP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :DTMF:OFFTime :DTMF:OFFTime? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :DTMF:ONTime :DTMF:ONTime? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :DTMF:SEQuence :DTMF:SEQuence? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :DTMF:STANdard :DTMF:STANdard? . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :NAMPs|NTACs:FVC:MESS :NAMPs|NTACs:FVC:MESS? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 :NAMPs|NTACs:FVC:RATE :NAMPs|NTACs:FVC:RATE? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96 :NAMPs|NTACs:FVC:AM :NAMPs|NTACs:FVC:AM? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96 :NAMPs|NTACs:FVC:FM :NAMPs|NTACs:FVC:FM? . . . . . . . . . . . . . . . . . . .
Contents :PNINcrement :PNINcrement? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 :PNMode :PNMode? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108 :PNOFfset :PNOFfset? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108 :POWer:GAIN :POWer:GAIN? . . . . . . . . . . . . . . . . . . . . . . .
Contents :EVENt:QUALifier :EVENt:QUALifier? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 :EVENt:TRIGger :EVENt:TRIGger? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120 :EVENt:TRIGger:DELay :EVENt:TRIGger:DELay? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120 :FPOWer:NAVG :FPOWer:NAVG? . . . . . . . . . . . . . . . . . . . . . .
Contents :THRShld :THRShld? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :IS2000:CONTrols :IS2000:CONTrols? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :IS2000:GAIN:MODE :IS2000:GAIN:MODE? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :IS2000:GAIN:PATH :IS2000:GAIN:PATH? . . . . . . . . . . . . . . . . . . . . . . . .
Contents :IS2000:POWer:UNIT :IS2000:POWer:UNIT? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 141 :IS2000:THReshold :IS2000:THReshold? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142 :IS2000:TRIGger:ARM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 143 :IS2000:TRIGger:DARM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :NOTChmode :NOTChmode? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :OFLevel:MODE :OFLevel:MODE? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :OFLevel:ANTenna :OFLevel:ANTenna? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :OFLevel:DUPLex :OFLevel:DUPLex? . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :RFIMped :RFIMped? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164 :SPOR9|SPORT9|SB9|SP9:BAUD :SPOR9|SPORT9|SB9|SP9:BAUD? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 165 :SPOR9|SPORT9|SB9|SP9:PARity :SPOR9|SPORT9|SB9|SP9:PARity? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 165 :SPOR9|SPORT9|SB9|SP9:DATA :SPOR9|SPORT9|SB9|SP9:DATA? . . . . . . . . . . . . . . . . .
Contents :SPOR9|SPORT9|SB9|SP9:MODem:SECurity:PASSword :SPOR9|SPORT9|SB9|SP9:MODem:SECurity:PASSword? . . . . . . . . . . . . :SPOR9|SPORT9|SB9|SP9:SIN|SINP :SPOR9|SPORT9|SB9|SP9:SIN|SINP? . . . . . . . . . . . . . . . . . . . . . . . . . . . :SPOR9|SPORT9|SB9|SP9:STATus:LINE? . . . . . . . . . . . . . . . . . . . . . . . . :SPOR9|SPORT9|SB9|SP9:STATus:MODem? . . . . . . . . . . . . . . . . . . . . . . :SPOR10|SPORT10|SB10|SP10:BAUD :SPOR10|SPORT10|SB10|SP10:BAUD? . . . . . . . . . . . .
Contents :SPOR10|SPORT10|SB10|SP10:MODem:SECurity:STATe :SPOR10|SPORT10|SB10|SP10:MODem:SECurity:STATe? . . . . . . . . . . . . 182 :SPOR10|SPORT10|SB10|SP10:MODem:SECurity:PASSword :SPOR10|SPORT10|SB10|SP10:MODem:SECurity:PASSword? . . . . . . . . 183 :SPOR11|SPORT11|SB11|SP11:BAUD :SPOR11|SPORT11|SB11|SP11:BAUD? . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183 :SPOR11|SPORT11|SB11|SP11:PARity :SPOR11|SPORT11|SB11|SP11:PARity? . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :SPOR11|SPORT11|SB11|SP11:MODem:SECurity:PASSword :SPOR11|SPORT11|SB11|SP11:MODem:SECurity:PASSword? . . . . . . . . 192 :SPSelect :SPSelect? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 :SRLocation :SRLocation? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 :TIME :TIME? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :NAMPs|NTACs:STANdard :NAMPs|NTACs:STANdard? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 204 :NAMPs|NTACs:TRIGger:PATTern :NAMPs|NTACs:TRIGger:PATTern? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 204 DISPlay subsystem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 205 DISPlay DISPlay? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :AFRequency:FREQuency :AFRequency:FREQuency? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :AFRequency:SELect :AFRequency:SELect? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :AFRequency:SINAD :AFRequency:SINAD? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :AFRequency:SNR :AFRequency:SNR? . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :CDANalyzer:ADC :CDANalyzer:ADC? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226 :CDANalyzer:CARRier:FEEDthrough :CDANalyzer:CARRier:FEEDthrough? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226 :CDANalyzer:CPOWer :CDANanlyzer:CPOWer? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 227 :CDANalyzer:ERRor:FREQuency :CDANalyzer:ERRor:FREQuency? . . . . . . .
Contents :CDANalyzer:IS2000:PNumber:OFFSet? :CDANalyzer:IS2000:PNUMber:OFFSet? . . . . . . . . . . . . . . . . . . . . . . . . . . . 240 :CDANalyzer:IS2000:RHO[:ESTimated]? . . . . . . . . . . . . . . . . . . . . . . . . . . . 241 :CDANalyzer:IS2000:TIME:OFFSet? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 241 :CDANalyzer:IS2000:TRACe:ABSolute:POWer[:BASic][:VALue]? . . . . . . . . 242 :CDANalyzer:IS2000:TRACe:ABSolute:POWer[:BASic]:ACTive? . . . . . . . .
Contents :CDANalyzer:IS2000:TRACe:POWer:NOISe[:VALue]? . . . . . . . . . . . . . . . . . 257 :CDANalyzer:IS2000:TRACe:POWer:POWer:ACTive? . . . . . . . . . . . . . . . . . . 258 :CDANalyzer:IS2000:TRACe:POWer:POWer:ALL? . . . . . . . . . . . . . . . . . . . . 258 :CDANalyzer:IS2000:TRACe:POWer:POWer[:VALue]? . . . . . . . . . . . . . . . . . 259 :DEC:AMPS|TACS:NBITs? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 259 :DEC:AMPS|TACS:CDATa? . . . . . . . . . . . . . . . . . . .
Contents :DEC:NAMP:DTMF:HIGH:DISPlay :DEC:NAMP:DTMF:HIGH:DISPlay? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 269 :DEC:NAMP:DTMF:TIME:ON :DEC:NAMP:DTMF:TIME:ON? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 270 :DEC:NAMP:DTMF:TIME:OFF :DEC:NAMP:DTMF:TIME:OFF? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 270 :DEC:NAMP:DTMF:SYMBol? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :MARKer:NPEak . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 285 :MARKer:PPEak . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 286 :MARKer:POSition :MARKer:POSition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 286 :SCALe:TIME :SCALe:TIME? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents [:SELected]:WAIT [:SELected]:WAIT? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 297 RAM Usage Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .298 SPEC:RAMDISKALLOC? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 298 SPEC:RAMFORIBASIC? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 298 SPEC:SAVEREGALLOC? . . . . . . . . . . . . . . .
Contents :CHANnel :CHANnel? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 309 :FM:COUPling :FM:COUPling? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 309 :FM:DCZero . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 309 :FREQuency :FREQuency? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :MARKer[:NORMal]:NPLevel :MARKer[:NORMal]:NPLevel? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :MARKer[:NORMal]:PEAK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :MARKer[:NORMal]:POSition :MARKer[:NORMal]:POSition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :MARKer:REFmode :MARKer:REFmode? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :MASK:TYPE :MASK:TYPE? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 329 :RFGenerator :RFGenerator? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 330 :RLEVel :RLEVel? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 330 :SPAN :SPAN? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :HARD1[:EVENt?]:NTRansition :HARD1[:EVENt?]:NTRansition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :HARD1[:EVENt?]:PTRansition :HARD1[:EVENt?]:PTRansition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :HARD2:CONDition :HARD2:CONDition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :HARD2:ENABle :HARD2:ENABle? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents :CDMA1:ENABle :CDMA1:ENABle? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 343 :CDMA1[:EVENt?]:NTRansition :CDMA1[:EVENt?]:NTRansition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 343 :CDMA1[:EVENt?]:PTRansition :CDMA1[:EVENt?]:PTRansition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 343 :IBASic:CONDition? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Regulatory Information Manufacturer's Declaration This statement is provided to comply with the requirements of the German Sound Emission Directive, from 18 January 1991. This product has the following sound pressure emission specification: • sound pressure Lp <70 dB(A) • at the operator position • under normal operation • according to ISO 7779:1988/EN 27779:1991 (Type Test).
Safety GENERAL This product and related documentation must be reviewed for familiarization with safety markings and instructions before operation. This product has been designed and tested in accordance with IEC Publication 1010, "Safety Requirements for Electronic Measuring Apparatus," and has been supplied in a safe condition. This instruction documentation contains information and warnings which must be followed by the user to ensure safe operation and to maintain the product in a safe condition.
Safety Considerations for this Instrument SAFETY EARTH GROUND A uninterruptible safety earth ground must be provided from the main power source to the product input wiring terminals, power cord, or supplied power cord set. CHASSIS GROUND TERMINAL To prevent a potential shock hazard, always connect the rear-panel chassis ground terminal to earth ground when operating this instrument from a dc power source.
WARNING Whenever it is likely that the protection has been impaired, the instrument must be made inoperative and be secured against any unintended operation. If this instrument is to be energized via an autotransformer (for voltage reduction), make sure the common terminal is connected to the earth terminal of the power source. If this product is not used as specified, the protection provided by the equipment could be impaired.
CAUTION Always use the three-prong ac power cord supplied with this product. Failure to ensure adequate earth grounding by not using this cord may cause personal injury and/or product damage. This product is designed for use in Installation Category II and Pollution Degree 2 per IEC 1010 and IEC 664 respectively. For indoor use only. This product has autoranging line voltage input, be sure the supply voltage is within the specified range.
Certification Agilent Technologies certifies that this product met its published specifications at the time of shipment from the factory. Agilent further certifies that its calibration measurements are traceable to the United States National Institute of Standards and Technology, to the extent allowed by the Institute’s calibration facility, and to the calibration facilities of other International Standards Organization members.
Agilent Technologies Warranty Statement for Commercial Products Agilent Technologies 8935 Series E6380A CDMA Cellular/PCS Base Station Test Set Duration of 1. Agilent Technologies warrants Agilent hardware, accessories and Warranty: 1 Year supplies against defects in materials and workmanship for the period specified above.
7. TO THE EXTENT ALLOWED BY LOCAL LAW, THE ABOVE WARRANTIES ARE EXCLUSIVE AND NO OTHER WARRANTYOR CONDITION, WHETHER WRITTEN OR ORAL IS EXPRESSED OR IMPLIED AND AGILENT TECHNOLOGIES SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OR CONDITIONS OR MERCHANTABILITY, SATISFACTORY QUALITY, AND FITNESS FOR A PARTICULAR PURPOSE. 8.
Assistance Product maintenance agreements and other customer assistance agreements are available for Agilent Technologies products. For any assistance, contact your nearest Agilent Technologies Sales and Service Office. Maintenance Agreements Regional Sales and Service Offices Table 1 Regional Sales and Service Offices United States of America: Agilent Technologies Test and Measurement Call Center P.O. Box 4026 Englewood, CO 80155-4026 Canada: Agilent Technologies Canada Inc.
Power Cables Table 2 Power Cables Plug Type Earth Ground Line Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Straight Straight/90° 8120-1689 8120-1692 79 inches, mint gray 79 inches, mint gray Neutral Used in the following locations Afghanistan, Albania, Algeria, Angola, Armenia, Austria, Azerbaijan, Azores Bangladesh, Belgium, Benin, Bolivia, Boznia-Herzegovina, Bulgaria, Burkina Faso, Burma, Burundi, Byelarus Cameroon, Canary Islands, Central AfricanRepu
Table 2 Power Cables Plug Type Earth Ground Line Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Straight Straight/90° 8120-1689 8120-1692 79 inches, mint gray 79 inches, mint gray Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Straight 8120-0698 90 inches, black Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Straight Straight/90° 8120-2104 8120-2296 79 inches, gray
Table 5 Power Cables Plug Type 125V Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Straight Straight/90 Straight/Straight 8120-1378 8120-1521 8120-1751 90 inches, jade gray 90 inches, jade gray 90 inches, jade gray Earth Ground Neutral Line Used in the following locations American Samoa Bahamas, Barbados, Belize, Bermuda, Brazil, Caicos, Cambodia, Canada, Cayman Islands, Columbia, Costa Rica, Cuba Dominican Republic Ecuador, El Salvador French West Indie
Table 6 Power Cables Plug Type JIS C 8303, 100 V Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Straight Straight/90° 8120-4753 8120-4754 90 inches, dark gray 90 inches, dark gray Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions 90° /STRAIGHT 8120-2956 8120-2957 8120-3997 79 inches, gray 79 inches, gray 79 inches, gray Earth Ground Neutral Line Used in the following locations Japan Table 7 Power Cables Plug Type 90
Table 8 Power Cables Plug Type Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Lesotho Malawi South-West Africa (Namibia), Swaziland Zambia, Zimbabwe Table 9 Power Cables Plug Type (Male) Earth Ground Line Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions 90°/Straight 8120-1351 8120-1703 90 inches, mint gray 90 inches, mint gray 90°/90° Neutral Used in the following locations Bahrain, British Indian Ocean Terr.
Table 10 Power Cables Plug Type Earth Ground Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Straight Straight/90° 8120-1369 8120-0696 79 inches, gray 80 inches, gray Neutral Line Used in the following locations Argentina, Australia China (People’s Republic) New Zealand Papua New Guinea Uruguay Western Samoa Table 11 Power Cables Plug Type Earth Ground Line Plug Descriptions male/female Agilent Part # (cable & plug) Cable Descriptions Straight/Str
Attention ATTENTION Static Sensitive Devices This instrument was constructed in an ESD (electro-static discharge) protected environment. This is because most of the semiconductor devices used in this instrument are susceptible to damage by static discharge. Depending on the magnitude of the charge, device substrates can be punctured or destroyed by contact or mere proximity of a static charge. The result can cause degradation of device performance, early failure, or immediate destruction.
Conventions Used in This Manual The following conventions are used throughout this manual to help clarify instructions and reduce unnecessary text: • “Test Set” refers to the Agilent Technologies 8935 CDMA Cellular/PCS Base Station Test Set. • Test Set keys are indicated like this: Preset • Test Set screen information, such as a measurement result or an error message, is shown like this: TX Channel Power -1.3 dBm NOTE HP-IB and GPIB are one and the same.
Trademark Acknowledgments Hewlett-Packard and HP are registered trademarks of Hewlett-Packard Company. Microsoft‚ Windows, and MS-DOS‚ are registered trademarks of Microsoft Corporation. ProComm‚ is a registered trademark of DataStorm Technologies, Inc. HyperTerminal is a registered trademark of Hilgraeve, Incorporated. Pentium is a registered trademark of Intel Corporation.
Which Documents are Required The following documents are part of the Test Set’s document set. Use the table to help you decide which document you need. Table 12 Document Navigation Document Part Number Usage CDMA Application Guide E6380-90016 Use this manual for basic CDMA measurements and for getting started with the Test Set. AMPS Application Guide E6380-90017 Use this manual for making AMPS base station measurements.
1 GPIB Command Dictionary This is the GPIB command dictionary. It contains syntax and guidelines for the GPIB commands available in the Test Set.
GPIB Command Dictionary Notice Notice Permission to use, copy, and distribute this template is hereby granted, provided that the above copyright notice appears in all copies and that both that copyright notice and this permission notice appear in supporting hardcopy and online documentation. All other rights reserved. The name of Agilent Technologies, Inc.
GPIB Command Dictionary Using This Dictionary Using This Dictionary This dictionary is arranged according to GPIB subsystem. Each subsystem contains syntax for a specific set of functions within the Test Set. NOTE For all intents and purposes, GPIB and HP-IB may be considered one and the same protocol throughout this manual. When using the electronic form of this guide, you can cut-and-paste the syntax into your programming code.
GPIB Command Dictionary AFANalyzer subsystem AFANalyzer subsystem :AIN :AIN? These commands set/query the input state of the AUDIO IN LO connector. Syntax AFAN:AIN ‘Gnd’ ‘Float’ ‘600 to Hi’ AFAN:AIN? Screen/field equivalent AFAN:AIN sets the Audio In Lo field on the AF ANALYZER screen. :DEMPhasis :DEMPhasis? These commands set/query the state of the de-emphasis networks in the audio analyzer and speaker circuitry.
GPIB Command Dictionary AFANalyzer subsystem :DEMPhasis:GAIN :DEMPhasis:GAIN? These commands set/query the AF analyzer’s amplifier gain. This command is only effective when autoranging is turned off using the AFAN:RANG ‘Hold’ command. Gain is automatically set when the AFAN:RANG ‘Auto’ command is used. If autoranging is enabled (AFAN:RANG ‘Auto’) and you attempt to change the gain setting by sending the AFAN:DEMP:GAIN command, the value you send will be overridden by the autoranging function.
GPIB Command Dictionary AFANalyzer subsystem :DETector :DETector? These commands set/query the type of detector used for AF signals. Syntax AFAN:DET ‘RMS’ 'RMS*SQRT2' 'PK+' 'PK-' 'PK+-/2' 'PK+-MAX' 'PK+ HOLD' 'PK- HOLD' 'PK+-/2 Hd' 'PK+-MX Hd' AFAN:DET? Screen/field equivalent AFAN:DET controls the Detector field on the AF ANALYZER screen. :DETector:PKLocation :DETector:PKLocation? These commands set/query the signal source for the peak detector measurements.
GPIB Command Dictionary AFANalyzer subsystem :DETector:SETTling :DETector:SETTling? These commands set/query the settling time for audio measurements. (Use Fast when measuring signals greater than 200 Hz). Syntax AFAN:DET:SETT ‘Fast’ ‘Slow’ AFAN:DET:SETT? Screen/field equivalent AFAN:DET SETT controls the Settling field on the AF ANALYZER screen. :ELResistor :ELResistor? These commands set/query the external load resistance for measurements using the AUDIO IN HI and LO connectors.
GPIB Command Dictionary AFANalyzer subsystem :FILT1|FILTER1 :FILT1?|FILTER1? These commands set/query the audio filter 1 selection. Syntax AFAN:FILT1 ‘20Hz HPF’ ‘50HZ HPF’ ‘300Hz HPF’ ‘C MESSAGE’ AFAN:FILT1? Screen/field equivalent AFAN:FILT1 controls the Filter 1 field on the AF ANALYZER screen :FILT2|FILTER2 :FILT2?|FILTER2? These commands set/query the audio filter 2 selection.
GPIB Command Dictionary AFANalyzer subsystem :GTIMe :GTIMe? This command sets the gate time (how long the AF counter samples the input signal) for the audio frequency counter. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax AFAN:GTIM !valid from 10 milliseconds to 1 second AFAN:GTIM? Screen/field equivalent AFAN:GTIM controls the AF Cnt Gate field on the AF ANALYZER screen.
GPIB Command Dictionary AFANalyzer subsystem :INPut:GAIN :INPut:GAIN? These commands set/query the input gain setting for the audio analyzer. This command is only effective when autoranging is turned off using the AFAN:RANG ‘Hold’ command. Gain is automatically set when the AFAN:RANG ‘Auto’ command is used. If autoranging is enabled (AFAN:RANG ‘Auto’) and you attempt to change the gain setting by sending the AFAN:INP:GAIN command, the value you send will be overridden by the autoranging function.
GPIB Command Dictionary AFANalyzer subsystem :NOTCh:GAIN :NOTCh:GAIN? These commands set/query the gain of the AF analyzer’s notch filter amplifier. This command is only effective when autoranging is turned off using the AFAN:RANG ‘Hold’ command. Gain is automatically set when the AFAN:RANG ‘Auto’ command is used.
GPIB Command Dictionary AFANalyzer subsystem :RANGing :RANGing? These commands set/query the gain control mode of the AF analyzer. Syntax AFAN:RANG ‘Auto’ ‘Hold’ AFAN:RANG? Screen/field equivalent AFAN:RANG controls the Gain Cntl field on the AF ANALYZER screen. :SMPoint :SMPoint? These commands set/query the signal source for the oscilloscope.
GPIB Command Dictionary AFANalyzer subsystem :SPEaker:MODE :SPEaker:MODE? These commands set/query the automatic level control (ALC) function for the instrument’s internal speaker. Syntax AFAN:SPE:MODE ‘On’ ‘Off’ AFAN:SPE:MODE? Screen/field equivalent AFAN:SPE:MODE controls the Speaker ALC field on the AF ANALYZER screen. :SPEaker:VOLume :SPEaker:VOLume? These commands set/query the speaker volume, which is controlled by the Volume knob when ‘Pot’ is selected.
GPIB Command Dictionary AFG1|AFGENERATOR1 subsystem AFG1|AFGENERATOR1 subsystem :AM :AM? This command sets AM modulation depth when the AFG1:DEST ‘AM’ is used first. This command utilizes the “Real Number Setting Syntax” on page 299. Syntax AFG1:AM AFG1:AM? !returns the value of the amplitude modulation Screen/field equivalent AFG1:AM controls the AFGen1 To field (lower subfield) on the RF GENERATOR screen.
GPIB Command Dictionary AFG1|AFGENERATOR1 subsystem :FM :FM? This command sets FM modulation deviation when the AFG1:DEST ‘FM’ command is used. This command utilizes the “Real Number Setting Syntax” on page 299. Syntax AFG1:FM AFG1:FM? Screen/field equivalent AFG1:FM controls the AFGen1 To field (lower subfield) on the RF GENERATOR screen. :FREQuency :FREQuency? This command set the frequency of audio frequency generator 1.
GPIB Command Dictionary AFG1|AFGENERATOR1 subsystem :OUTPut :OUTPut? This command sets the amplitude of the audio signal (volts rms) at the AUDIO OUT connector if the AFG1:DEST is ‘Audio Out’. This command utilizes the “Real Number Setting Syntax” on page 299 Syntax AFG1:OUTP AFG1:OUTP? Screen/field equivalent AFG1:OUTP controls the AFGen1 To field (lower subfield) on the RF GENERATOR screen.
GPIB Command Dictionary AFG2|ENCoder subsystem AFG2|ENCoder subsystem :AM :AM? This command sets AM modulation depth if the command AFG2:DEST ‘AM’ is used first. This command utilizes the “Real Number Setting Syntax” on page 299. Syntax AFG2:AM AFG2:AM? !returns the value of the amplitude modulation Screen/field equivalent AFG2:AM controls the AFGen2 To field (lower subfield) on the RF GENERATOR screen when the upper subfield is set to AM.
GPIB Command Dictionary AFG2|ENCoder subsystem :DESTination :DESTination? :DEST sets/queries the destination of the AF generator 2’s signal. Syntax AFG2:DEST ‘AM’ ‘FM’ ‘Audio Out’ AFG2:DEST? Screen/field equivalent AFG2:DEST controls the AFGen2 To field (upper subfield) on the RF GENERATOR screen.
GPIB Command Dictionary AFG2|ENCoder subsystem :FILTer :FILTer? To improve performance, one of four premodulation filters is automatically selected for each encoder mode. The automatically selected filter can be changed only by using GPIB commands. We recommend that you leave this setting at its automatically selected setting. If it is necessary to override the automatic settings, the AFG2:FILT:MODE ‘ON’ command must be executed first (filter mode OFF is the power up default state.
GPIB Command Dictionary AFG2|ENCoder subsystem :FILTer:MODE :FILTer:MODE? These commands set/query the premodulation filter’s control. We recommend that you leave this setting at its default setting (filter mode OFF is the power up default state.) See the :FILTer command on page 69 for more information about the premodulation filters. Syntax AFG2:FILT:MODE ‘ON’ ‘OFF’ AFG2:FILT:MODE? Screen/field equivalent AFG2:FILT:MODE has no screen/field equivalent.
GPIB Command Dictionary AFG2|ENCoder subsystem :FREQuency :FREQuency? This command set/queries the output frequency of AF generator 2. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax AFG2:FREQ AFG2:FREQ? Screen/field equivalent AFG2:FREQ controls the AFGen2 Freq field on the RF GENERATOR screen. :MODE :MODE? This command sets the type of signaling encoder.
GPIB Command Dictionary AFG2|ENCoder subsystem :OUTPut :OUTPut? This command sets the amplitude of the audio signal (volts rms) at the AUDIO OUT connector if the AFG2:DEST is ‘Audio Out’. This command utilizes the “Real Number Setting Syntax” on page 299. Syntax AFG2:OUTP AFG2:OUTP? Screen/field equivalent AFG2:OUT controls the AFGen2 To field (lower subfield) on the RF GENERATOR screen when the upper subfield is set to Audio Out.
GPIB Command Dictionary AFG2|ENCoder subsystem :POLarity :POLarity? This command causes the digitally modulated signals to be sent with a normal or inverted response to the digital data. When Inverted, a digital 1 produces a frequency shift in an FM carrier opposite to normal operation. Syntax AFG2:POL ‘Norm’ ‘Invert’ AFG2:POL? Screen/field equivalent AFG2:POL controls the Polarity field on the SIGNALING ENCODER screen when the Mode field is set to AMPS-TACS or NAMP-NTAC.
GPIB Command Dictionary AFG2|ENCoder subsystem :SEND This command sends the encoder data stream. Syntax AFG2:SEND Screen/field equivalent AFG2:SEND controls the Send field on the SIGNALING ENCODER screen when the Mode field is set to AMPS-TACS, NAMP-NTAC, or DTMF. :STOP This command stops the data stream that is being output when AFG2:SEND:MODE is ‘Cont’ or ‘Burst’.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:BUSY :AMPS|TACS:BUSY? These commands set/query the busy/idle status information included in the signaling sequence. • ‘Idle’ sets the busy/idle bits of the forward control channel information to indicate an idle state. • ‘Busy’ sets the busy/idle bits of the forward control channel information to indicate an busy state.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:BUSY:DELay These commands set/query the number of bits that are counted before a busy/idle bit changes from the idle state to the busy state. This function is used in conjunction with the WS Delay and 1stBitDly settings of the AFG2:AMPS|TACS:BUSY command. This command also requires that the AFG2:AMPS:CHAN command is specifies ‘Cntl’. This command utilizes only the :INCR command of the “Integer Number Setting Syntax” on page 206.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:DATA:AM :AMPS|TACS:DATA:AM? These commands set/query the data level when the AFG2:DEST ‘AM’ command is used first. The data level units are %. This command utilizes the “Real Number Setting Syntax” on page 299. Syntax AFG2:AMPS:DATA:AM AFG2:AMPS:DATA:AM? Screen/field equivalent AFG2:AMPS:DATA:AM controls the Data Level field when AFGen2 To field is set to AM on the SIGNALING ENCODER screen when the Mode field is set to AMPS-TACS.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:DATA:LEVel :AMPS|TACS:DATA:LEVel? These commands set/query the data level when the AFG2:DEST ‘Audio Out’ command is used first. The data level units are mV. This command utilizes the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:FILLer:DATA1 :AMPS|TACS:FILLer:DATA2 :AMPS|TACS:FILLer:DATA1? :AMPS|TACS:FILLer:DATA2? These commands set/query FOCC filler data. Each filler contains 7 hexadecimal characters representing the 2 type bits and 26 information bits of the control filler/message word. The control filler is sent continuously when the :AMPS|TACS:FILL:SEND command is used or after a control message has been sent using :AMPS|TACS:SEND.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:FILLer:STOP This command stops the output of filler data. To use this command, AFG2:AMPS:CHAN must be set to ‘Cntl’. Syntax AFG2:AMPS:FILL:STOP Screen/field equivalent AFG2:AMPS:FILL:STOP controls the Stop Filler field on the SIGNALING ENCODER screen when the Mode field is set to AMPS-TACS and the Channel field is set to Cntl.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:MESSage:DATA1 :AMPS|TACS:MESSage:DATA2 :AMPS|TACS:MESSage:DATA1? :AMPS|TACS:MESSage:DATA2? These commands set/query FOCC Stream A and Stream B message data. Like the filler data, the message information can only be input in full (seven digit) lines. Also, message streams A and B must have the same number of lines in them. To use this command, AFG2:AMPS:CHAN must be set to ‘Cntl’.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:SAT:FM :AMPS|TACS:SAT:FM? These commands set/query the SAT level when the AFG2:DEST ‘FM’ and AFG2:AMPS:CHAN ‘Voice’ commands are used. The SAT level’s units are kHz. This command utilizes the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary AFG2|ENCoder subsystem :AMPS|TACS:SAT:FREQuency These commands set/query the supervisory audio tone’s frequency. This signal is sent continuously whenever AFG2:AMPS:CHAN ‘Voice’ is used, but is interrupted when a FVC message is sent. This command utilizes the “Real Number Setting Syntax” on page 299 but does not use the :STATe command.
GPIB Command Dictionary AFG2|ENCoder subsystem :DTMF:FREQuency:COLumn :DTMF:FREQuency:COLumn? These commands set/query the frequencies for the vertical columns in the symbol frequencies table of the DTMF encoder. Syntax AFG2:DTMF:FREQ:COL , AFG2:DTMF:FREQ:COL? Screen/field equivalent AFG2:DTMF:FREQ:COL controls vertical columns in the Symbol Frequencies (Hz): table on the SIGNALING ENCODER screen when the Mode field is set to DTMF.
GPIB Command Dictionary AFG2|ENCoder subsystem :DTMF:ONTime :DTMF:ONTime? These commands set/query the length of time each DTMF tone is on during the sequence. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax AFG2:DTMF:ONT AFG2:DTMF:ONT? Screen/field equivalent AFG2:DTMF:ONT controls the On Time field on the SIGNALING ENCODER screen when the Mode field is set to DTMF.
GPIB Command Dictionary AFG2|ENCoder subsystem :DTMF:STANdard :DTMF:STANdard? These commands set/query the standard applied to the encoded data. The standard affects the types of frames that can be sent, the range of valid channel numbers, the encoding of the frame data, and the interpretation of received frames. Syntax AFG2:DTMF:STAN ‘Bell’ AFG2:DTMF:STAN? Screen/field equivalent AFG2:DTMF:STAN controls the Standard field on the SIGNALING ENCODER screen when the Mode field is set to DTMF.
GPIB Command Dictionary AFG2|ENCoder subsystem :FGENerator:SUNits :FGENerator:SUNits? These commands set/query whether the signal’s output is in units of rms or peak. The AFG2:DEST ‘Audio Out’ command must be used with this command. Syntax AFG2:FGEN:SUN ‘RMS’ ‘Peak’ AFG2:FGEN:SUN? Screen/field equivalent AFG2:FGEN:WAV controls the Sine Units field on the SIGNALING ENCODER screen when the Mode field is set to Func Gen and the AFGen2 To field is set to Audio Out.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs:BUSY :NAMPs|NTACs:BUSY? These commands set/query the busy/idle status information included in the signaling sequence. • ‘Idle’ sets the busy/idle bits of the forward control channel information to indicate an idle state. • ‘Busy’ sets the busy/idle bits of the forward control channel information to indicate an busy state.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs:BUSY:DELay This command sets the number of bits that are counted before a busy/idle bit changes form the idle state to the busy state. This function is used in conjunction with the WS Delay and 1stBitDly settings of the :NAMPs|NTACs:BUSY command. This command utilizes only the :INCR command of the “Integer Number Setting Syntax” on page 206.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs:DSAT:MESS :NAMPs|NTACs:DSAT:MESS? These commands set/query the 24-bit digital supervisory audio tone (DSAT) sequence. The seven standard sequences are: 2556CB, 255B2B, 256A9B, 25AD4D, 26AB2B, 26B2AD, and 2969AB. (These codes are the inverse of the seven DST codes.) DSAT is output continuously when AFG2:NAMP:DSAT:SEND is sent. It is only stopped when AFG2:NAMP:DSAT:STOP is sent, or when the DST message stream is sent.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs:DSAT:STOP This command stops the DSAT if it is being sent. See “:NAMPs|NTACs:DSAT:SEND :NAMPs|NTACs:DSAT:SEND?” on page 90. Syntax AFG2:NAMP:DSAT:STOP Screen/Field Equivalent AFG2:NAMP:DSAT:STOP controls the Stop DSAT field on the SIGNALING ENCODER screen when the Mode field is set to NAMP-NTAC, and the Channel field is set to Voice.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs[:FOCC]:FM :NAMPs|NTACs[:FOCC]:FM? This command sets/queries the data level when the AFG2:DEST ‘FM’ command is used. The data level units are kHz. This command utilizes the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs[:FOCC]:RATE :NAMPs|NTACs[:FOCC]:RATE? These commands set/query the data rate of the encoded message. This command utilizes the “Real Number Setting Syntax” on page 299 but does not use the :STATe command.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs[:FOCC]:FILLer:SEND This command sends the filler information that is entered with the AFG2:FILL:DATA1 and AFG2:FILL:DATA2 commands. To use this command, AFG2:NAMP:CHAN must be set to ‘Cntl’. Syntax AFG2:NAMP[:FOCC]:FILL:SEND Screen/field equivalent AFG2:NAMP[:FOCC]:FILL:SEND controls the Send Filler field on the SIGNALING ENCODER screen when the Mode field is set to NAMP-NTAC, and the Channel field is set to Cntl.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPS|NTACS[:FOCC]:MESSage:DATA1 :NAMPS|NTACS[:FOCC]:MESSage:DATA2 :NAMPS|NTACS[:FOCC]:MESSage:DATA1? :NAMPS|NTACS[:FOCC]:MESSage:DATA2? These commands set/query FOCC Stream A and Stream B message data. Like the filler data, the message information can only be input in full (seven digit) lines. Also, message streams A and B must have the same number of lines in them. To use this command, AFG2:NAMP:CHAN must be set to ‘Cntl’.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs:FVC:RATE :NAMPs|NTACs:FVC:RATE? These commands set/query the data rate of the encoded message. This command utilizes the “Real Number Setting Syntax” on page 299 but does not use the :STATe command.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs:FVC:FM :NAMPs|NTACs:FVC:FM? This command sets/queries the data level when the AFG2:DEST ‘FM’ command is used. The data level units are kHz. This command utilizes the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary AFG2|ENCoder subsystem :NAMPs|NTACs:SEND :NAMPs|NTACs:SEND? This command sets/queries the type of data sent when the AFG2:SEND command is used. • Selecting ‘Message’ sends the contents of the forward voice message (AFG2:NAMP:FVC:MESS ). • Selecting ‘DST’ causes the digital signaling tone sequence to be output. The DST sequence that is sent is the inverse of the sequence entered in the DSAT message (AFG2:DSAT:MESS ).
GPIB Command Dictionary CANalyzer subsystem CANalyzer subsystem The CANalyzer subsystem controls functions unique to the CDMA ANALYZER screen. :ACP:POWer:CALibrate This command initiates calibration of the adjacent channel power measurement for the current RF analyzer frequency at the selected frequency offset and filter bandwidth. Syntax CAN:ACP:POW:CAL Example CAN:ACP:POW:CAL !calibrates ACP measurement Screen/field equivalent CAN:ACP:POW CAL controls the ACP Cal field on the CDMA ANALYZER screen.
GPIB Command Dictionary CANalyzer subsystem :ACP:POWer:OFFSet :ACP:POWer:OFFSet? This command sets the frequency offset used when making adjacent channel power measurements. The setting designates the frequency offset from the center frequency at which the measurement is made. Valid values are 100 kHz to 3 MHz. Syntax CAN:ACP:POW:OFFS CAN:ACP:POW:OFFS? Example CAN:ACP:POW:OFFS 100 kHz !sets the freq. offset to 100 kHz CAM:ACP:POW:OFFS? !returns freq.
GPIB Command Dictionary CANalyzer subsystem :AUTO:GAIN? This command returns the gain setting. The value and mode of the gain are set by the commands :PATH:GAIN and :PATH:GAIN:MODE. This query is valid only while measuring rho, EVM or channel power. Syntax CAN:AUTO:GAIN? Screen/field equivalent CAN:AUTO:GAIN? queries the Gain field of the CDMA ANALYZER screen. This field is displayed when a rho, EVM, or channel power measurement is selected. :AUTO:POWer:GAIN? This command returns the gain setting.
GPIB Command Dictionary CANalyzer subsystem :CHANnel:POWer:FILTer :CHANnel:POWer:FILTer? These commands set/query the filter for the channel power measurement. • ‘1.23M’ measures the absolute channel power level of the RF signal in a 1.23 MHz bandwidth centered around the RF channel or tune frequency setting. This measurement must be calibrated using the CAN:CHAN:CPOW:CAL command each time the frequency is changed.
GPIB Command Dictionary CANalyzer subsystem :DIRection :DIRection? These commands set/query the direction of the CDMA analyzer. This command is valid only when frequency tuning mode is selected (CONF:RFD ‘Freq’). :DIR is not used while measuring average power. Syntax CAN:DIR ‘Fwd’ ‘Rev’ CAN:DIR? Screen/field equivalent CAN:DIR controls the Anl Dir field of the CDMA ANALYZER screen. :EVENt:QUALifier :EVENt:QUALifier? These commands set/query the qualifying event for the trigger.
GPIB Command Dictionary CANalyzer subsystem :EVENt:TRIGger :EVENt:TRIGger? These commands set/query the trigger setting of the CDMA ANALYZER screen. Syntax CAN:EVEN:TRIG ‘27 ms’ ‘20 ms’ ‘80 ms’ ‘2 s’ ‘Delay’ ‘Immed’ CAN:EVEN:TRIG? Example CAN:EVEN:TRIG ‘Delay’ !sets the trigger to run after the delay has been set by the CAN:EVEN:TRIG:DEL command.
GPIB Command Dictionary CANalyzer subsystem :MODE :MODE? These commands set/query the measurement displayed in the upper left corner of the display. Syntax CAN:MODE ‘Avg Pwr’ ‘ACP’ ‘Rho’ ‘EVM’ ‘Chan Pwr’ CAN:MODE? Screen/field equivalent CAN:MODE selects the measurement to be displayed in the upper-left corner of the screen.
GPIB Command Dictionary CANalyzer subsystem :PATH:GAIN :PATH:GAIN? These commands set/query the gain of the CDMA analyzer. This command will only be enabled when autoranging is turned off (CAN:PATH:MODE ‘Hold’). This command may conflict with the code domain analyzer’s settings CDAN:PATH:GAIN and CDAN:PATH:MODE. For example, if autoranging is turned off (‘Hold’) in the CDMA analyzer and turned on in the Code Domain Analyzer (‘Auto’) the ‘Hold’ setting will always override the ‘Auto’ setting.
GPIB Command Dictionary CANalyzer subsystem :PATH:GAIN:MODE :PATH:GAIN:MODE? These commands set/query the mode of the Gain field, allowing you to choose between an autoranging gain (‘Auto’) or a fixed gain (‘Hold’). This command may conflict with the code domain analyzer’s settings CDAN:PATH:GAIN and CDAN:PATH:MODE. For example, if autoranging is turned off (‘Hold’) in the CDMA analyzer and turned on in the Code Domain Analyzer (‘Auto’), the ‘Hold’ setting will always override the ‘Auto’ setting.
GPIB Command Dictionary CANalyzer subsystem :PNMode :PNMode? These commands set/query the PN offset mode. • ‘Auto’ is used to calculate the system’s PN offset if it is unknown. When ‘Auto’ is selected, the CAN:PNIN command can be used to enter a PN increment and speed the PN offset calculation. • ‘Manual’ is used to enter a known PN offset. When ‘Manual’ is selected, the PN offset is entered using the CAN:PNOF command.
GPIB Command Dictionary CANalyzer subsystem :POWer:GAIN :POWer:GAIN? These commands set/query the gain of the CDMA analyzer. These commands are valid only when an average power (Avg Pwr) measurement is selected. For channel power, EVM, or rho measurements, use the CAN:PATH:GAIN command.
GPIB Command Dictionary CANalyzer subsystem :POWer:GAIN:MODE :POWer:GAIN:MODE? These commands set/query the mode of the Pwr Gain field, allowing you to choose between automatic gain (Auto) or fixed gain (Hold).This command is valid only when average power is selected. For channel power, EVM and rho measurements, use the CAN:PATH:GAIN:MODE command.
GPIB Command Dictionary CANalyzer subsystem :POWer:ZERO This command zeroes the power meter for an average power measurement. Syntax CAN:POW:ZERO Screen/field equivalent CAN:POW:ZERO controls the Pwr Zero field on the CDMA ANALYZER screen. This field is only available when the average power measurement is selected. :POWer:ZERO:MODE :POWer:ZERO:MODE? These commands set/query whether the power meter is automatically zeroed or if the zero function must be manually activated.
GPIB Command Dictionary CANalyzer subsystem :SAMPle:TIME :SAMPle:TIME? These commands set/query the amount of time that rho or EVM is measured. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax CAN:SAMP:TIME !values from 0.00025 to 0.02 seconds, for Forward Analyzer Direction (CAN:DIR ‘Fwd’) !values from 0.0025 to 0.
GPIB Command Dictionary CANalyzer subsystem :TRIGger:STATe :TRIGger:STATe? These commands set/query the state of the trigger. CAN:TRIG:STAT can be overridden with the TRIG:MODE:RETR REP and TRIG:MODE:RETR SING trigger commands. When the trigger commands are used, the state of the field on the display is not updated. (For instance, the screen may show Single selected when TRIG:MODE:RETR REP is used.
GPIB Command Dictionary CBUFfer subsystem CBUFfer subsystem CBUF controls the CDMA data buffer. This system allows you to send CDMA data through the CDMA generator. You can send all zeroes, external data via the DATA IN connector, random data, or data supplied via GPIB. :DATA <48 or 72 character hex string> :DATA? These commands set/query the actual data string sent in the CDMA data buffer.
GPIB Command Dictionary CBUFfer subsystem :FRAMe:STARt , :FRAMe:STARt? These commands set/query the first frame of data to be sent. This command utilizes the “Multiple Real Number Setting Syntax” on page 282, but does not use the :DUNits and :UNITs commands. Syntax CBUF:FRAM:STAR , CBUF:FRAM:STAR? Screen/field equivalent CBUF:FRAM:STAR controls the Start Frame field of the CDMA GENERATOR screen.
GPIB Command Dictionary CBUFfer subsystem :STATe :STATe? These commands set/query the mode of the data buffer. Syntax CBUF:STAT ‘Idle’ ‘Send’ CBUF:STAT? Screen/field equivalent CBUF:STAT controls Idle/Send subfield of the Data Source field on the CDMA GENERATOR screen. The Data Source field must be set to Data Buff to display these choices.
GPIB Command Dictionary CCOMmon subsystem CCOMmon subsystem :PATH :PATH? These commands set/query RF path of the CDMA generator. Syntax CCOM:PATH ‘Bypass’ ‘IQ’ CCOM:PATH? Screen/field equivalent CCOM:PATH controls the CW RF Path field of the CDMA GENERATOR screen.
GPIB Command Dictionary CDANalyzer subsystem CDANalyzer subsystem CDAN controls the code domain analyzer. :CONTrol :CONTrol? These commands set/query the control menu displayed on the code domain analyzer, when the CDMA standard is set to “IS-95 Only”.
GPIB Command Dictionary CDANalyzer subsystem :CPOWer:CALibrate This command initiates the channel power calibration. When this command is received, an internally generated calibration signal is measured using the average power technique. Channel power is also measured and a correction factor is generated. This correction factor is applied to subsequent channel power measurements.
GPIB Command Dictionary CDANalyzer subsystem :EVENt:TRIGger :EVENt:TRIGger? These commands set/query the trigger setting of the CODE DOM screen. Syntax CDAN:EVEN:TRIG ‘27 ms’ ‘20 ms’ ‘80 ms’ ‘2 s’ ‘Delay’ ‘Immed’ CDAN:EVEN:TRIG? Screen/field equivalent CDAN:EVEN:TRIG sets the Trig Event field of the CODE DOM screen, when the CDMA standard is set to “IS-95 Only”. This field is displayed on the Trigger menu.
GPIB Command Dictionary CDANalyzer subsystem :FPOWer:NAVG :FPOWer:NAVG? These commands set/query the number of averages made by the fast power measurement. Syntax CDAN:FPOW:NAVG CDAN:FPOW:NAVG? Screen/field equivalent CDAN:FPOW:NAVG controls the Num Avgs field on the FP Setup menu of the CODE DOM screen, when the CDMA standard is set to “IS-95 Only”. :FPOWer:TOFFset :FPOWer:TOFFset? These commands set/query the time offset for the fast power measurement.
GPIB Command Dictionary CDANalyzer subsystem :GAIN :GAIN? These commands set/query the gain of the code domain analyzer. This command will only be enabled when autoranging is turned off (CDAN:GAIN:MODE ‘Hold’). This command may conflict with the CDMA analyzer’s settings CAN:PATH:GAIN and CAN:PATH:MODE. For example, if autoranging is turned off (‘Hold’) in the CDMA analyzer and turned on in the Code Domain Analyzer (‘Auto’), the ‘Hold’ setting will always override the ‘Auto’ setting.
GPIB Command Dictionary CDANalyzer subsystem :GAIN:MODE :GAIN:MODE? These commands set/query the mode of the Gain field, allowing you to choose between an autoranging gain (‘Auto’) or a fixed gain (‘Hold’). This command may conflict with the CDMA analyzer’s settings CAN:PATH:GAIN and CAN:PATH:MODE. For example, if autoranging is turned off (‘Hold’) in the CDMA analyzer and turned on in the Code Domain Analyzer (‘Auto’), the ‘Hold’ setting will always override the ‘Auto’ setting.
GPIB Command Dictionary CDANalyzer subsystem :MARKer:POSition :MARKer:POSition? These commands set/query the position of the marker. Syntax CDAN:MARK:POS !values from 0 to 63 CDAN:MARK:POS? Screen/field equivalent CDAN:MARK:POS controls the Walsh Chan field on the Marker menu of the CODE DOM screen, when the CDMA standard is set to “IS-95 Only”. :MEASure :MEASure? These commands set/query the type of measurement performed in the CODE DOM screen.
GPIB Command Dictionary CDANalyzer subsystem :MODE :MODE? These commands set/query the measurement state of the code domain analyzer. CDAN:MODE can be overridden with the TRIG:MODE:RETR REP and TRIG:MODE:RETR SING trigger commands. When the trigger commands are used, the state of the field on the display is not updated. (For instance, the screen may show Single selected when TRIG:MODE:RETR REP is used.
GPIB Command Dictionary CDANalyzer subsystem :PNINcrement :PNINcrement? These commands set/query the PN increment. If you know the PN incrment, enter it with this command to speed the PN offset search. If you do not know the increment, enter a 1. This command utilizes the :INCR command of the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary CDANalyzer subsystem :PNOFfset :PNOFfset? These commands set/query the PN offset of the system. This command utilizes the :INCR command of the “Real Number Setting Syntax” on page 299. Syntax CDAN:PNOF !values from 0.0 to 511.984375 CDAN:PNOF? !returns the value of the PN Offset Screen/field equivalent CDAN:PNOF controls the PN Offset field on the CODE DOM screen when the CDMA standard is set to “IS-95 Only”.
GPIB Command Dictionary CDANalyzer subsystem :PUNit :PUNit? These commands set/query whether power measurements are absolute power measurements or relative power measurements. • ‘Abs’ - Absolute code domain power displays the power in each of the 64 Walsh channels, relative to the total power inside a 1.23 MHz bandwidth centered at the tune frequency. The 64 Walsh channels (0 through 63) are represented by a vertical bar on the analyzer’s display.
GPIB Command Dictionary CDANalyzer subsystem :SCALe:PHASe :SCALe:PHASe? These commands set/query the scale that is used when measuring code domain phase when using the code domain analyzer. Syntax CDAN:SCAL:PHAS ‘1 mRad’ ‘2 mRad’ ‘5 mRad’ ‘10 mRad’ ‘20 mRad’ ‘50 mRad’ CDAN:SCAL:PHAS? Screen/field equivalent CDAN:SCAL:PHAS controls the Phase/div field on the Phase measurement menu of the CODE DOM screen when the CDMA standard is set to “IS-95 Only”.
GPIB Command Dictionary CDANalyzer subsystem :SCALe:TIME :SCALe:TIME? These commands set/query the time per division portion of the scale that is used when measuring code domain timing. Syntax CDAN:SCAL:TIME ‘1 ns’ ‘2 ns’ ‘5 ns’ ‘10 ns’ ‘20 ns’ ‘50 ns’ CDAN:SCAL:TIME? Screen/field equivalent CDAN:SCAL:TIME controls the Time/div field on the Marker menu of the CODE DOM screen when the CDMA standard is set to “IS-95 Only”.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:CONTrols :IS2000:CONTrols? These commands set/query the controls menu displayed on the Code Domain analyzer screen when the CDMA standard is set to “IS-2000”. Syntax CDAN:IS2000:CONT ‘Main’ ‘Marker’ ‘Trigger’ ‘Aux’ ‘Gain’ ‘Reference’ ‘PN Setup’ ‘FP Setup’ CDAN:IS2000:CONT? Screen/field equivalent CDAN:IS2000:CONT controls the menu Controls field of the CODE DOMAIN screen when the CDMA standard is set to “IS-2000”.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:GAIN:MODE :IS2000:GAIN:MODE? For IS-2000 only. These commands set/query the mode of the Gain field, allowing you to choose between an autoranging gain (‘Auto’) or a fixed gain (‘Hold’). This command may conflict with the CDMA analyzer’s settings CAN:PATH:GAIN and CAN:PATH:MODE.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:GAIN[:SETTing] :IS2000:GAIN[:SETTing]? For IS-2000 only. These commands set/query the gain of the Code Domain analyzer. This command will only be enabled when autoranging is turned off (CDAN:IS2000:GAIN:MODE ‘Hold’). This command may conflict with the CDMA analyzer’s settings CAN:PATH:GAIN and CAN:PATH:MODE.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:GAIN:VALue? IS-2000 only. This query returns the gain value, as a string, that is shown in the gain field of the code domain screen. This command will only be enabled when autoranging is turned on (CDAN:IS2000:GAIN:MODE ‘Auto’).
GPIB Command Dictionary CDANalyzer subsystem :IS2000:MARKer:POSition :IS2000:MARKer:POSition? IS-2000 only. These commands set/query the integer that corresponds to the current position of the marker in the CODE DOMAIN screen when the CDMA standard is set to “IS-2000”.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:MARKer:SCALe :IS2000:MARKer:SCALe? IS-2000 only. These commands set/query the scale that is used when measuring code domain power in dB/div units in the code domain analyzer. Syntax CDAN:IS2000:MARK:SCAL ‘1 dB/div’ ‘2 dB/div’ ‘5 dB/div’ CDAN:IS2000:MARK:SCAL? Screen/field equivalent CDAN:IS2000:MARK:SCAL controls the Pwr Scale field on the Marker image of the CODE DOMAIN screen when the CDMA standard is set to “IS-2000”.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:MEASurement:MODE :IS2000:MEASurement:MODE? IS-2000 only. These commands set/query the measurement state for the code domain analyzer. This mode can be overridden with the TRIG:MODE:RETR REP and TRIG:MODE:RETR SING trigger commands. When the trigger commands are used, the state of the field on the display are not updated. For example, the screen may show Single selected when TRIG:MODE:RETR REP is used.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:MEASurement[:TYPE] :IS2000:MEASurement[:TYPE]? IS-2000 only. These commands set/query the type of measurement performed in the CODE DOMAIN screen. Syntax CDAN:IS2000:MEAS[:TYPE] ‘Power’ ‘Fast Pwr’ ‘Power&Noise’ ‘Complex Pwr’ ‘FstPwr Sync’ CDAN:IS2000:MEAS[:TYPE]? Screen/field equivalent CDAN:IS2000:MEAS[:TYPE] sets the Measurement field of the Main image on the CODE DOMAIN screen when the CDMA standard is set to “IS-2000”.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:PNUMber:MODE :IS2000:PNUMber:MODE? :IS2000:PNumber:MODE :IS2000:PNumber:MODE? IS-2000 only. These commands set/query the PN setup. • ‘Auto’ is used to calculate the system’s PN offset if it is unknown. When ‘Auto’ is selected, the CDAN:IS2000:PNUM:INCR command can be used to enter a PN increment and speed the PN offset calculation. • ‘Manual’ is used to enter a known PN offset.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:PNUMber:OFFSet :IS2000:PNUMber:OFFSet? :IS2000:PNumber:OFFset :IS2000:PNumber:OFFset? IS-2000 only. These commands set/query the contents of the PN offset field in the Code Domain analyzer. This command utilizes the :INCR command of the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:POWer:FAST:NAVG :IS2000:POWer:FAST:NAVG? IS-2000 only. These commands set/query the number of averages made during fast power measurements. Syntax CDAN:IS2000:POW:FAST:NAVG CDAN:IS2000:POW:FAST:NAVG? Screen/field equivalent CDAN:IS2000:POW:FAST:NAVG controls the Num Avgs field of the FP Setup menu on the CODE DOMAIN screen when the CDMA standard is set to “IS-2000”. :IS2000:POWer:UNIT :IS2000:POWer:UNIT? IS-2000 only.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:THReshold :IS2000:THReshold? IS-2000 Only. These commands set/query the minimum display threshold for code domain measurements. Walsh channels that have power levels below the threshold are not displayed as active channels. Syntax CDAN:IS2000:THR !values minus 80 to 0.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:TRIGger:ARM IS-2000 only. This command arms code domain measurements. This command does not affect continuous measurement and will always be overridden by GPIB triggering commands. To effectively put the code domain analyzer in single triggering mode, use the TRIG:MODE:RETR SING command. For continuous triggering, use TRIG:MODE:RETR REP. See “TRIGger subsystem” on page 346 for a more complete discussion of GPIB triggering.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:TRIGger:DELay :IS2000:TRIGger:DELay? IS-2000 only. This command/query sets/returns the real number that matches the Trig Delay field in the code domain measurements. The contents are measured in microseconds.
GPIB Command Dictionary CDANalyzer subsystem :IS2000:TRIGger:QUALifier :IS2000:TRIGger:QUALifier? IS-2000 only. This command returns the string that matches the Qual Event field in the code domain measurements.
GPIB Command Dictionary CGENerator subsystem CGENerator subsystem :CONTrol :CONTrol? These commands set/query the CDMA generator’s mode. It defines the type of data being sent. Syntax CGEN:CONT ‘Data’ ‘Eb/No’ ‘Noise’ CGEN:CONT? Screen/field equivalent CGEN:CONT controls the Gen Mode field of the CDMA GENERATOR screen. :DATA:SOURce :DATA:SOURce? These commands set/query the type or source of the data being sent.
GPIB Command Dictionary CGENerator subsystem :DATA:RATE :DATA:RATE? :DATA:RATE sets the data transfer rate for data from the :DATA:SOUR command. Syntax CGEN:DATA:RATE ‘14.4 Kbps’ ‘9.6 Kbps’ CGEN:DATA:RATE? Screen/field equivalent CGEN:DATA:RATE controls the Data Rate field of the CDMA GENERATOR screen. :DIRection :DIRection? :DIR sets/queries the direction of the CDMA generator. Fwd produces QPSK modulation to imitate a base station.
GPIB Command Dictionary CGENerator subsystem :EBNO:LEVel :EBNO:LEVel? These commands set/query the level of the generator when it is in Eb/No mode. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax CGEN:EBNO:LEV !values from −5 to +25 dB CGEN:EBNO:LEV? Screen/field equivalent :EBNO:LEV controls the generator’s level when the Gen Mode field on the CDMA GENERATOR screen is set to Eb/No.
GPIB Command Dictionary CGENerator subsystem :EVENsec :EVENsec? These commands set/query the even-second input’s setting. When enabled, signals applied to the EVEN SECOND SYNC IN port synchronize the Test Set’s timing circuits. Syntax CGEN:EVEN ‘Enable’ ‘Not’ CGEN:EVEN? Screen/field equivalent CGEN:EVEN controls the Even Sec In field of the CDMA GENERATOR screen. :SPECial :SPECial? These commands set/query the rotation of IQ modulated signals.
GPIB Command Dictionary CONFigure subsystem CONFigure subsystem The CONFigure subsystem contains commands that control several different screens: I/O CONFIGURE, INSTRUMENT CONFIGURE, and PRINTER CONFIGURE. :BADDress :BADDress? These commands set/query the GPIB address for the Test Set. This command utilizes the “Integer Number Setting Syntax” on page 206.
GPIB Command Dictionary CONFigure subsystem :BMODe :BMODe? These commands set/query the GPIB control mode. Syntax CONF:BMOD ‘Control’ ‘Talk&Lstn’ CONF:BMOD? Screen/field equivalent CONF:BMOD controls the Mode field of the I/O CONFIGURE screen. :CDMA:MODE :CDMA:MODE? These commands set/query the standard selected in the CDMA Std field in the INSTRUMENT CONFIGURE screen. CDMA:MODE returns either IS-95 Only or IS-2000 depending on the current state of the field.
GPIB Command Dictionary CONFigure subsystem :DISPlay:MESSages :DISPlay:MESSages? These commands set/query the reporting of messages during normal operation. A ‘Yes’ setting means that all messages are displayed as they occur. Syntax CONF:DISP:MESS ‘Yes’ ‘No’ CONF:DISP:MESS? Screen/field equivalent CONF:DISP:MESS controls the Display User Messages field of the INSTRUMENT CONFIGURE screen. :DATE :DATE? These commands set/query the date set within the Test Set.
GPIB Command Dictionary CONFigure subsystem :NOTChmode :NOTChmode? These commands set/query the coupling between the AF Generator 1 and a notch filter. The frequency and gain of the notch filter is set by the AFAN:NOTC:GAIN and AFAN:NOTC:FREQ commands. Syntax CONF:NOTC ‘AFGen1’ !notch filter switched in ‘None’ !no notch filter CONF:NOTC? Screen/field equivalent CONF:NOTC controls the Notch Coup l field of the INSTRUMENT CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :OFLevel:ANTenna :OFLevel:ANTenna? These commands set/query the path loss from the device-under-test to the Test Set’s ANT IN port. This correction is applied when the CONF:OFL:MODE ‘On’ command is used. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax CONF:OFL:ANT !values: −100.0 to 100.
GPIB Command Dictionary CONFigure subsystem :OFLevel:RFINout :OFLevel:RFINout? These commands set/query the path loss from the RF IN/OUT connector to the device-under-test. This correction is applied when the CONF:OFL:MODE ‘On’ command is used. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax CONF:OFL:RFIN !values: minus 100.0 to 100.
GPIB Command Dictionary CONFigure subsystem :OMODe :OMODe? These commands set/query the state of the RF offset defined in the CONF:OFR command. Syntax CONF:OMOD ‘On’ ‘Off’ CONF:OMOD? Screen/field equivalent CONF:OMOD controls the RF Offset field of the INSTRUMENT CONFIGURE screen. :OPERation:AUTO :OPERation:HOLD These commands control the autoranging routine in the Test Set. :AUTO enables the routines, :HOLD disables them.
GPIB Command Dictionary CONFigure subsystem :PCMCia:CARD:TYPE? This command queries the type of PC card inserted in the Test Set’s front-panel card slot (such as, RAM or ROM). Syntax CONF:PCMC:CARD:TYPE? Screen/Field Equivalent CONF:PCMC:CARD:TYPE? queries the Card Status field on the I/O CONFIGURE screen. :PCMCia:CARD:SIZE? This command queries the size of the PC card inserted in the Test Set’s front-panel card slot (such as, 1M Bytes).
GPIB Command Dictionary CONFigure subsystem :PRINt:LINes|LINE :PRINt:LINes|LINE? :PRIN:LIN sets/queries the number of lines to be printed per page. This command utilizes the “Integer Number Setting Syntax” on page 206. Syntax CONF:PRIN:LIN !values: 5 to 120 CONF:PRIN:LIN? Screen/field equivalent CONF:PRIN:LIN controls the Lines/Page field of the PRINTER CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :PRINt:FFSTart :PRINt:FFSTart? These commands set/query a form feed (blank page) at the start of printing. Syntax CONF:PRIN:FFST ‘Yes’ ‘No’ CONF:PRIN:FFST? Screen/field equivalent CONF:PRIN:FFST controls the FF at Start field of the PRINTER CONFIGURE screen. :PRINt:FFENd :PRINt:FFENd? These commands set/query a form feed (blank page) at the end of printing.
GPIB Command Dictionary CONFigure subsystem :PRINt:TITLe :PRINt:TITLe? These commands set/query the title of the print output. Available character set: ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz _0123456789 !@#$%^&*()-+=<>?[]{}\|’;:”,./ Syntax CONF:PRIN:TITL ‘’ !up to 50 characters CONF:PRIN:TITL? Screen/field equivalent CONF:PRIN:TITL controls the Print Title field of the PRINTER CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :REFerence:INPut:EXTernal :REFerence:INPut:EXTernal? These commands set/query the external reference frequency. The external reference is selected using the :REFerence:INPut:SELect command. Syntax CONF:REF:INP:EXT ‘1 MHz’ ‘2 MHz’ ‘5 MHz’ ‘10 MHz’ ‘15 MHz’ ‘1X Chip’ ‘2X Chip’ ‘4X Chip’ ‘8X Chip’ ‘16X Chip’ CONF:REF:INP:EXT? Screen/field equivalent CONF:REF:INP:EXT controls the Ext Ref In field of the INSTRUMENT CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :REFerence:INPut:SELect :REFerence:INPut:SELect? These commands set/query the reference input selection. ‘Internal’ and ‘External’ define an internal or external reference. ‘Auto’ will switch between external and internal inputs, based on the signal’s presence. However, you must still set the frequency of the external reference input (CONF:REF:INP:EXT) even though this is set to ‘Auto’. It does not automatically select the frequency.
GPIB Command Dictionary CONFigure subsystem :RFCStandard :RFCStandard? These commands set/query the RF channel standard. This command is used in conjunction with the CONF:RFD ‘Chan’ command.
GPIB Command Dictionary CONFigure subsystem :RFDisplay :RFDisplay? These commands set/query the RF display mode. See the Reference Guide for more information about frequency and channel tuning. Syntax CONF:RFD ‘Freq’ !sets RF display to frequency tuning mode ‘Chan’ !sets RF display to channel tuning mode CONF:RFD? Screen/field equivalent CONF:RFD controls the RF Display field of the INSTRUMENT CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:BAUD :SPOR9|SPORT9|SB9|SP9:BAUD? These commands set/query the baud rate of the SERIAL 9 port. Syntax CONF:SPOR9:BAUD ‘150’ ‘300’ ‘600‘ ‘1200‘ ‘2400‘ ‘4800‘ ‘9600‘ ‘19200‘ CONF:SPOR9:BAUD? Screen/field equivalent CONF:SPOR9:BAUD controls the Serial Baud field of the I/O CONFIGURE screen. :SPOR9|SPORT9|SB9|SP9:PARity :SPOR9|SPORT9|SB9|SP9:PARity? These commands set/query the parity of the SERIAL 9 port.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:DATA :SPOR9|SPORT9|SB9|SP9:DATA? These commands set/query the number of data bits per data word sent over the SERIAL 9 port. Syntax CONF:SPOR9:DATA ‘7 bits’ ‘8 bits’ CONF:SPOR9:DATA? Screen/field equivalent CONF:SPOR9:DATA controls the Data Length field of the I/O CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:FCONtrol|FLOW :SPOR9|SPORT9|SB9|SP9:FCONtrol|FLOW? These commands set/query the flow control to set the pace of serial communications for the SERIAL 9 port. Syntax CONF:SPOR9:FCON ‘Xon/Xoff’ ‘None’ CONF:SPOR9:FCON? Screen/field equivalent CONF:SPOR9:FCON controls the Flow Control field of the I/O CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:IECHo :SPOR9|SPORT9|SB9|SP9:IECHo? These commands set/query the character and screen echoing (instrument echo) when using an external ASCII RS-232 terminal or computer to enter or edit the IBASIC program. Syntax CONF:SPOR9:IECH ‘On’ ‘Off’ CONF:SPOR9:IECH? Screen/field equivalent CONF:SPOR9:IECH controls the Inst Echo field of the I/O CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:MODem:CALL:DISConnect This command causes the modem to disconnect from the call in progress. It also cancels any pending call origination retries (CONF:SPOR9:MOD:CONN:RETRy). This field is inactive when CONF:SPOR9:MOD:MODE ‘Disable’ command is used.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:MODem:CONNect:TIMeout :SPOR9|SPORT9|SB9|SP9:MODem:CONNect:TIMeout? This command sets/queries the number of seconds to wait before aborting a connection attempt. This applies to both answer and originate activities. Syntax CONF:SPOR9:MOD:CONN:TIM CONF:SPOR9:MOD:CONN:TIM? Screen/field equivalent CONF:SPOR9:MOD:CONN:TIM controls the Connection Time-out field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 9.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:MODem:CONNect:RETRy :SPOR9|SPORT9|SB9|SP9:MODem:CONNect:RETRy? This command sets/queries the number of calls that will be tried before an origination attempt is terminated. The total number of tries will be the number entered in this field, plus one for the original attempt.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:MODem:CONFigure:STRing1 :SPOR9|SPORT9|SB9|SP9:MODem:CONFigure:STRing1? :SPOR9|SPORT9|SB9|SP9:MODem:CONFigure:STRing2 :SPOR9|SPORT9|SB9|SP9:MODem:CONFigure:STRing2? :SPOR9|SPORT9|SB9|SP9:MODem:CONFigure:STRing3 :SPOR9|SPORT9|SB9|SP9:MODem:CONFigure:STRing3? These commands are used to enter the modem configuration strings to be sent when the CONF:SPOR9:MOD:CONF:UPD command is executed. Each string has a maximum of 40 characters.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:MODem:CONFigure:ECEQivalent? This command reports the decimal equivalent of the escape character entered with the CONF:SPOR9:MOD:CONF:ECH. Syntax CONF:SPOR9:MOD:CONF:ECEQ? Screen/field equivalent CONF:SPOR9:MOD:CONF:ECEQ? queries the Decimal Equivalent field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 9.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:MODem:SECurity:PASSword :SPOR9|SPORT9|SB9|SP9:MODem:SECurity:PASSword? This command sets/queries the password required by a security challenge when the CONF:SPOR9:MOD:SEC:STAT ‘On’ command is used. Syntax CONF:SPOR9:MOD:SEC:PASS CONF:SPOR9:MOD:SEC:PASS? Screen/field equivalent CONF:SPOR9:MOD:SEC:PASS controls the Pssword field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 9.
GPIB Command Dictionary CONFigure subsystem :SPOR9|SPORT9|SB9|SP9:STATus:MODem? This command queries the modem status register. Syntax CONF:SPOR9:STAT:MOD? Screen/field equivalent No screen/field equivalent. :SPOR10|SPORT10|SB10|SP10:BAUD :SPOR10|SPORT10|SB10|SP10:BAUD? These commands set/query the baud rate of the SERIAL 10 port.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:DATA :SPOR10|SPORT10|SB10|SP10:DATA? These commands set/query the number of data bits per data word sent over the SERIAL 10 port. Syntax CONF:SPOR10:DATA ‘7 bits’ ‘8 bits’ CONF:SPOR10:DATA? Screen/field equivalent CONF:SPOR10:DATA controls the Data Length field of the I/O CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:FCONtrol|FLOW :SPOR10|SPORT10|SB10|SP10:FCONtrol|FLOW? These commands set/query the flow control to set the pace of serial communications for the SERIAL 10 port. Syntax CONF:SPOR10:FCON ‘Xon/Xoff’ ‘None’ CONF:SPOR10:FCON? Screen/field equivalent CONF:SPOR10:FCON controls the Flow Control field of the I/O CONFIGURE screen. :SPOR10|SPORT10|SB10|SP10:STATus:LINE? This command queries the line status register.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:MODem:MODE :SPOR10|SPORT10|SB10|SP10:MODem:MODE? These commands set/query the modem mode. Syntax CONF:SPOR10:MOD:MODE ‘Disable’ ‘Ignore’ ‘Answer’ ‘Dial Back’ CONF:SPOR10:MOD:MODE? !returns quoted string Screen/field equivalent CONF:SPOR10:MOD:MODE controls the Modem Mode field of the MODEM CONFIGURE screen when the Serial Port field is set to Port 10.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:MODem:CALL:STATus? This command queries the status of the modem. Syntax CONF:SPOR10:MOD:CALL:STAT? Screen/field equivalent CONF:SPOR10:MOD:CALL:STAT? queries the Status field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 10. :SPOR10|SPORT10|SB10|SP10:MODem:CONNect:NUMBer :SPOR10|SPORT10|SB10|SP10:MODem:CONNect:NUMBer? This command queries the status of the modem.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:MODem:CONNect:HDELay :SPOR10|SPORT10|SB10|SP10:MODem:CONNect:HDELay? This command sets/queries the number of seconds to wait before attempting an origination. This applies to the delay prior to attempting a dialback as well as the delay prior to retrying an origination as part of the retry sequence.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:MODem:CONFigure:STRing1 :SPOR10|SPORT10|SB10|SP10:MODem:CONFigure:STRing1? :SPOR10|SPORT10|SB10|SP10:MODem:CONFigure:STRing2 :SPOR10|SPORT10|SB10|SP10:MODem:CONFigure:STRing2? :SPOR10|SPORT10|SB10|SP10:MODem:CONFigure:STRing3 :SPOR10|SPORT10|SB10|SP10:MODem:CONFigure:STRing3? These commands are used to enter the modem configuration strings to be sent when the CONF:SPOR10:MOD:CONF:UPD command is executed.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:MODem:CONFigure:ECEQivalent? This command reports the decimal equivalent of the escape character entered with the CONF:SPOR10:MOD:CONF:ECH. Syntax CONF:SPOR10:MOD:CONF:ECEQ? Screen/field equivalent CONF:SPOR10:MOD:CONF:ECEQ? queries the Decimal Equivalent field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 10.
GPIB Command Dictionary CONFigure subsystem :SPOR10|SPORT10|SB10|SP10:MODem:SECurity:PASSword :SPOR10|SPORT10|SB10|SP10:MODem:SECurity:PASSword? This command sets/queries the password required by a security challenge when the CONF:SPOR10:MOD:SEC:STAT ‘On’ command is used. Syntax CONF:SPOR10:MOD:SEC:PASS CONF:SPOR10:MOD:SEC:PASS? Screen/field equivalent CONF:SPOR10:MOD:SEC:PASS controls the Pssword field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 10.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:PARity :SPOR11|SPORT11|SB11|SP11:PARity? These commands set/query the parity of the SERIAL 11 port. Syntax CONF:SPOR11:PAR ‘None’ ‘Odd’ ‘Even’ ‘Always 1’ ‘Always 0’ CONF:SPOR11:PAR? Screen/field equivalent CONF:SPOR11:PAR controls the Parity field of the I/O CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:STOP :SPOR11|SPORT11|SB11|SP11:STOP? These commands set/query the number of stop bits used for serial communication over the SERIAL 11 port. Syntax CONF:SPOR11:STOP ‘1 bit’ ‘2 bits’ CONF:SPOR11:STOP? Screen/field equivalent CONF:SPOR11:STOP controls the Stop Length field of the I/O CONFIGURE screen.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:STATus:MODem? This command queries the modem status register. Syntax CONF:SPOR11:STAT:MOD? Screen/field equivalent No screen/field equivalent. :SPOR11|SPORT11|SB11|SP11:MODem:MODE :SPOR11|SPORT11|SB11|SP11:MODem:MODE? These commands set/query the modem mode.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:MODem:CALL:DISConnect This command causes the modem to disconnect from the call in progress. It also cancels any pending call origination retries (CONF:SPOR11:MOD:CONN:RETRy). This field is inactive when CONF:SPOR11:MOD:MODE ‘Disable’ command is used.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:MODem:CONNect:TIMeout :SPOR11|SPORT11|SB11|SP11:MODem:CONNect:TIMeout? This command sets/queries the number of seconds to wait before aborting a connection attempt. This applies to both answer and originate activities.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:MODem:CONNect:RETRy :SPOR11|SPORT11|SB11|SP11:MODem:CONNect:RETRy? This command sets/queries the number of calls that will be tried before an origination attempt is terminated. The total number of tries will be the number entered in this field, plus one for the original attempt.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:MODem:CONFigure:STRing1 :SPOR11|SPORT11|SB11|SP11:MODem:CONFigure:STRing1? :SPOR11|SPORT11|SB11|SP11:MODem:CONFigure:STRing2 :SPOR11|SPORT11|SB11|SP11:MODem:CONFigure:STRing2? :SPOR11|SPORT11|SB11|SP11:MODem:CONFigure:STRing3 :SPOR11|SPORT11|SB11|SP11:MODem:CONFigure:STRing3? These commands are used to enter the modem configuration strings to be sent when the CONF:SPOR11:MOD:CONF:UPD command is executed.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:MODem:CONFigure:ECEQivalent? This command reports the decimal equivalent of the escape character entered with the CONF:SPOR11:MOD:CONF:ECH. Syntax CONF:SPOR11:MOD:CONF:ECEQ? Screen/field equivalent CONF:SPOR11:MOD:CONF:ECEQ? queries the Decimal Equivalent field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 11.
GPIB Command Dictionary CONFigure subsystem :SPOR11|SPORT11|SB11|SP11:MODem:SECurity:PASSword :SPOR11|SPORT11|SB11|SP11:MODem:SECurity:PASSword? This command sets/queries the password required by a security challenge when the CONF:SPOR11:MOD:SEC:STAT ‘On’ command is used. Syntax CONF:SPOR11:MOD:SEC:PASS CONF:SPOR11:MOD:SEC:PASS? Screen/field equivalent CONF:SPOR11:MOD:SEC:PASS controls the Pssword field on the MODEM CONFIGURE screen when the Serial Port field is set to Port 11.
GPIB Command Dictionary CONFigure subsystem :SRLocation :SRLocation? These commands set/query the save and recall locations. Syntax CONF:SRL ‘INTERNAL’ ‘CARD’ ‘RAM’ CONF:SRL? Screen/field equivalent CONF:SRL controls the Save/Recall field of the I/O CONFIGURE screen. :TIME :TIME? These commands set/query the Test Set’s time-of-day clock (hh.mm). The clock uses the 24-hour format. For example 1:30 pm is 13.30.
GPIB Command Dictionary DECoder subsystem DECoder subsystem :ARM:MODE :ARM:MODE? These commands set/query the measurement arming mode. This command specifies how long you want the analyzer to decode incoming signals. • ‘Single’ tells the analyzer to display the information received during one gate time. Measurements are triggered using the DGAN:TRIG:ARM and retriggered using the same command. To disarm the measurement, use the DEC:STOP command.
GPIB Command Dictionary DECoder subsystem :LEVel:AM :LEVel:AM? These commands set/query the expected data signal level (after de-emphasis, if used). For more information about the effects of de-emphasis, see the “De-emphasis and Input Level” description in the Reference Guide. The higher the level of signal expected by the analyzer, the higher the trigger level is set. The input level should be set high enough to prevent false triggering, but low enough to allow triggering for valid signals.
GPIB Command Dictionary DECoder subsystem :LEVel:FM :LEVel:FM? These commands set/query the expected data signal level (after de-emphasis, if used). For more information about the effects of de-emphasis, see the “De-emphasis and Input Level” in the Reference Guide. The higher the level of signal expected by the analyzer, the higher the trigger level is set.The input level should be set high enough to prevent false triggering, but low enough to allow triggering for valid signals.
GPIB Command Dictionary DECoder subsystem :LEVel:VOLTs :LEVel:VOLTs? These commands set/query the expected data signal level (after de-emphasis, if used). For more information about the effects of de-emphasis, see the “De-emphasis and Input Level” in the Reference Guide. The higher the level of signal expected by the analyzer, the higher the trigger level is set. The input level should be set high enough to prevent false triggering, but low enough to allow triggering for valid signals.
GPIB Command Dictionary DECoder subsystem :POLarity :POLarity? These commands match/query the polarity of the encoded signal being analyzed. This function is helpful for restoring the proper data polarity when the transmitter, repeater, or receiver in you communications system has an odd number of inversions. These inversions cause the received data to be inverted when decoded. • When DEC:POL ‘Norm’ is used, a logical high (1) is displayed when a positive peak in the received signal is detected.
GPIB Command Dictionary DECoder subsystem :AMPS|TACS:GATE :AMPS|TACS:GATE? This command specifies how long the decoder analyzes a signal after it has been triggered. Up to 6.55 seconds of gate time can be specified. The minimum gate time must be long enough to allow the preamble and all necessary data bits to be captured. If the gate time is too long, the decoder’s buffer becomes full. A message is displayed instructing you to decrease the gate time.
GPIB Command Dictionary DECoder subsystem :AMPS|TACS:STANdard :AMPS|TACS:STANdard? These commands set/query the expected frame structure and channel range of the decoder’s incoming signal. Trying to run a test with the wrong standard selected will result in incorrectly decoded data, or will result in a displayed error message.
GPIB Command Dictionary DECoder subsystem :DTMF:GATE :DTMF:GATE? This command specifies how long the decoder analyzes a signal after it has been triggered. Up to 6.55 seconds of gate time can be specified. If the gate time is too long, the decoder’s buffer becomes full. A message is displayed instructing you to decrease the gate time. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command.
GPIB Command Dictionary DECoder subsystem :NAMPs|NTACs:CHANnel :NAMPs|NTACs:CHANnel? These commands set/query the type of data to decode. • ‘Cntl’ selects reverse control channel (RECC) data. • ‘Voice’ selects reverse voice channel (RVC) data. Syntax DEC:NAMP:CHAN ‘Cntl’ ‘Voice’ DEC:NAMP:CHAN? Screen/field equivalent DEC:NAMP:CHAN controls the Channel field on the SIGNALING DECODER screen when the Mode field is set to AMPS-TACS or NAMP-NTAC.
GPIB Command Dictionary DECoder subsystem :NAMPs|NTACs:DTMF:GATE :NAMPs|NTACs:DTMF:GATE? These commands set/query how long the decoder analyzes a signal after it has been triggered. Up to 6.55 seconds of gate time can be specified. The minimum gate time must be long enough to allow the preamble and all necessary data bits to be captured. If the gate time is too long, the decoder’s buffer becomes full. A message is displayed instructing you to decrease the gate time.
GPIB Command Dictionary DECoder subsystem :NAMPs|NTACs:STANdard :NAMPs|NTACs:STANdard? These commands set/query the expected frame structure and channel range of the decoder’s incoming signal. Trying to run a test with the wrong standard selected will result in incorrectly decoded data, or will result in a displayed error message.
GPIB Command Dictionary DISPlay subsystem DISPlay subsystem The DISPlay subsystem controls the display of screens. A screen should be displayed before a measurement from that screen is made. DISPlay DISPlay? DISP sets/queries which screen is displayed. You use the DISP REM command to lock the Test Set’s display.
GPIB Command Dictionary Integer Number Setting Syntax Integer Number Setting Syntax This syntax is for setting values of commands which require integer values. It is to be used with commands which call for the Integer Number Setting Syntax. An example of a command that requires the Integer Setting Syntax is the RFANalyzer:RFCHannel command (see “RFANalyzer subsystem” on page 303).
GPIB Command Dictionary I/Q Plot Subsystem I/Q Plot Subsystem CONTrols :CONTrols? These commands set/query the string that matches the current field contents. Syntax IQPL:CONT ‘Main’ ‘Trigger’ IQPL:CONT? Screen/field equivalent IQPL:CONT? reads current contents of Controls field on the IQ PLOT screen. Only the images Main and Trigger are available. [:DISPlay]:SCALe [:DISPlay]:SCALe? These commands set/query the string that matches the current field contents. Syntax IQPL[:DISP]:SCAL ‘0.
GPIB Command Dictionary I/Q Plot Subsystem :MEASurement:MODE :MEASurement:MODE? These commands set/query the current measurement mode for the I/Q plot screen. Syntax IQPL:MEAS:MODE ‘Single’ ‘Cont’ IQPL:MEAS:MODE? Screen/field equivalent IQPL:MEAS:MODE reads the Measurement field of the Main image on the IQ PLOT screen. :MEASurement:INTerval :MEASurement:INTerval? These commands set/query the current field contents of the IQ plot screen field, Meas Int.
GPIB Command Dictionary I/Q Plot Subsystem :TRIGger:DARM This command disarms the IQ Plot measurement when it has been put into single triggering mode using the TRIG:MODE:RETR SING. See “TRIGger subsystem” on page 346 for a more complete discussion of GPIB triggering. Syntax IQPL:TRIG:DARM !disarms the IQ Plot measurements. Screen/field equivalent IQPL:TRIG:DARM controls the Disarm selection of the Analyzer field of the Main image of the IQ PLOT screen.
GPIB Command Dictionary I/Q Plot Subsystem :TRIGger:QUALifier :TRIGger:QUALifier? These commands set/query the qualifying event for the trigger in the IQ plot screen. The qualifying event is the event that must occur before a trigger is accepted. The trigger event is set by the IQPL:TRIG:EVEN command.
GPIB Command Dictionary MEASure subsystem MEASure subsystem The MEAS subsystem has a set of unique commands. These are the measurement command set. They control features of the Test Set such as setting measurement limits, units and the meters. See “Number Measurement Syntax” on page 283 for more details about these commands. Most commands have both a parameter and a query command.
GPIB Command Dictionary MEASure subsystem :AFRequency:AM :AFRequency:AM? These commands set/query the AM depth measurement. To use this measurement you must select either the AM Mod or AM Demod audio source (AFAN:INP). Syntax MEAS:AFR:AM !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :AFRequency:DCFM :AFRequency:DCFM? These commands set/query the DC FM measurement. To use this measurement, you must have the DC level measurement selected (see MEAS:AFR:SEL on page 216), and you must be using the FM Demod or FM Mod audio source (see AFAN:INP on page 59). Syntax MEAS:AFR:DCFM !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :AFRequency:DCVolts :AFRequency:DCVolts? These commands set/query the DC voltmeter. To use this measurement, you must have the DC level measurement selected (see MEAS:AFR:SEL on page 216), and have selected one of the following audio sources: SSB Demod, Audio In, Ext Mod, or Audio Out (see AFAN:INP on page 59). Syntax MEAS:AFR:DCV !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :AFRequency:FM :AFRequency:FM? These commands set/query the FM deviation measurement. This measurement is active when FM Mod or FM Demod is selected by using the AFAN:INP command (see page 59) and SNR is not selected by the MEAS:AFR:SEL command (see page 216). Syntax MEAS:AFR:FM !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :AFRequency:SELect :AFRequency:SELect? These commands set/query which audio frequency measurement is displayed on the AF ANALYZER screen.These measurements are also displayed on the RF GENERATOR and RF ANALYZER screens.
GPIB Command Dictionary MEASure subsystem :AFRequency:SNR :AFRequency:SNR? These commands set/query the SNR measurement. SNR must first be selected using the MEAS:AFR:SEL ‘SNR’ command (see page 216). Syntax MEAS:AFR:SNR !controls the SNR command MEAS:AFR:SNR? !returns the measurement’s value Example MEAS:AFR:SNR !displays the measurement Screen/field equivalent MEAS:AFR:SNR? reads to the SNR measurement field on the AF ANALYZER screen.
GPIB Command Dictionary MEASure subsystem :CANalyzer:ADC:EVMadc:LEVel :CANalyzer:ADC:EVMadc:LEVel? These commands set/query the ADC for the EVM measurement. The ADC is a measure of how close the actual input signal is to the maximum input level. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CAN:ADC:EVM:LEV !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CANalyzer:ADC:TPOWeradc:LEVel :CANalyzer:ADC:TPOWeradc:LEVel? These commands set/query the ADC for the channel power measurement. The ADC is a measure of how close the actual input signal is to the maximum input level. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CAN:ADC:TPOW:LEV !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CANalyzer:ERRor:FREQuency :CANalyzer:ERRor:FREQuency? These commands set/query the frequency error measurement. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CAN:ERR:FREQ !See “Number Measurement Syntax” on page 283. MEAS:CAN:ERR:FREQ? Example MEAS:CAN:ERR:FREQ? Screen/field equivalent MEAS:CAN:ERR:FREQ? reads the Frequency Error measurement field on the CDMA ANALYZER screen.
GPIB Command Dictionary MEASure subsystem :CANalyzer:ERRor:PHASe :CANalyzer:ERRor:PHASe? These commands set/query the phase error measurement. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CAN:ERR:PHAS !See “Number Measurement Syntax” on page 283. MEAS:CAN:ERR:PHAS? Example MEAS:CAN:ERR:PHAS? Screen/field equivalent MEAS:CAN:ERR:PHAS? reads the Phase Error measurement field on the CDMA ANALYZER screen.
GPIB Command Dictionary MEASure subsystem :CANalyzer:PNOFfset? This command queries the PN offset measurement. Syntax MEAS:CAN:PNOF? !returns the measurement Screen/field equivalent MEAS:CAN:PNOF? reads the PN Offset measurement field on the CDMA ANALYZER screen. This measurement is also displayed on the CDMA GENERATOR screen. :CANalyzer:POWer:ACP:LRATio :CANalyzer:POWer:ACP:LRATio? These commands set/query lower ratio measurement of the adjacent channel power measurement.
GPIB Command Dictionary MEASure subsystem :CANalyzer:POWer:ACP:URATio :CANalyzer:POWer:ACP:URATio? These commands set/query upper ratio measurement of the adjacent channel power measurement. This ratio is the ratio of the total power in the specified bandwidth at the specified offset above the center frequency, to the power at the center frequency. Syntax MEAS:CAN:POW:ACP:URAT !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CANalyzer:POWer:AVG :CANalyzer:POWer:AVG? These commands set/query the average power measurement. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CAN:POW:AVG !See “Number Measurement Syntax” on page 283. MEAS:CAN:POW:AVG? Example MEAS:CAN:POW:AVG? !returns the measurement Screen/field equivalent MEAS:CAN:POW:AVG? reads the Avg Pwr measurement field on the CDMA ANALYZER screen.
GPIB Command Dictionary MEASure subsystem :CANalyzer:RHO :CANalyzer:RHO? These commands set/query the rho measurement. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CAN:RHO !See “Number Measurement Syntax” on page 283. MEAS:CAN:RHO? Example MEAS:CAN:RHO? Screen/field equivalent MEAS:CAN:RHO? reads the Rho measurement field on the CDMA ANALYZER screen. This measurement is also displayed on the CDMA GENERATOR screen.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:ADC :CDANalyzer:ADC? IS-95 Only mode. These commands set/query the ADC measurement in the code domain analyzer. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CDAN:ADC !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:CPOWer :CDANanlyzer:CPOWer? IS-95 Only mode. These command set/query the channel power measurement. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CDAN:CPOW !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:ERHo? IS-95 Only mode. This command queries the estimated rho measurement. Estimated rho is an approximation of rho that is calculated without taking the system out of service. Syntax MEAS:CDAN:ERH? Screen/field equivalent MEAS:CDAN:ERH? queries the Est Rho field CODE DOM screen when the CDMA standard is set to “IS-95 Only”. :CDANalyzer:MARKer:APOWer :CDANalyzer:MARKer:APOWer? IS-95 Only mode.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:MARKer:LEVel :CDANalyzer:MARKer:LEVel? IS-95 Only mode. These commands set/query the level at the marker on the code domain analyzer’s trace during power or fast power measurements (see :CDAN:MEAS on page 124). This measurement is made relative to the value at Walsh Code 0. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:MARKer:PHASe :CDANalyzer:MARKer:PHASe? IS-95 Only mode. These commands set/query the phase at the marker on the code domain analyzer’s trace during phase measurements (see :CDAN:MEAS on page 124).This measurement is made relative to the value at Walsh Code 0. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CDAN:MARK:PHAS !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:MARKer:TIME :CDANalyzer:MARKer:TIME? IS-95 Only mode. These commands set/query the time at the marker on the code domain analyze’s trace during a timing measurement (see CDAN:MEAS on page 124). This measurement is made relative to the value at Walsh Code 0. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CDAN:MARK:TIME !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:TIME:OFFSet :CDANalyzer:TIME:OFFSet? IS-95 Only mode. These commands set/query the time offset measurement of the code domain analyzer. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CDAN:TIME:OFFS !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:TRACe:TOFFset? IS-95 Only mode. This command queries the timing in the 64 trace points of the code domain analyzer. The measurement returns 64 values (in seconds), one for each point. Syntax MEAS:CDAN:TRAC:TOFF? Screen/field equivalent MEAS:CDAN:TRAC:TOFF? does not correspond to any field on the CODE DOM screen. This applies when the CDMA standard is set to “IS-95 Only”. :CDANalyzer:TRACe:PERRor? IS-95 Only mode.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:ADC :CDANalyzer:IS2000:ADC? IS-2000 only. These commands set/query the ADC measurement in the Code Domain analyzer. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:CDAN:IS2000:ADC !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:CHANnel[:POWer]? IS-2000 only. This query returns the channel power value (when active) with the units dBm. Syntax MEAS:CDAN:IS2000:CHAN[:POW]? Screen/field equivalent MEAS:CDAN:IS2000:CHAN[:POW]? reads the Chan Power measurement field from the Reference menu when the CD pwr unit is set to Abs on the CODE DOMAIN screen when the CDMA standard is set to “IS-2000”. :CDANalyzer:IS2000:FREQuency[:ERRor]? IS-2000 only.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:MARKer:CHANnel:RATE:RC3? IS-2000 only. This query returns the RC-3 data rate value for the channel selected by the Marker’s current position. The return value is an integer. Syntax MEAS:CDAN:IS2000:MARK:CHAN:RATE:RC3? Screen/field equivalent MEAS:CDAN:IS2000:MARK:CHAN:RATE:RC3? reads the RATE RC-3 field of the CODE DOMAIN screen when the CDMA standard is set to “IS-2000” and Sprd Fact is selected.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:MARKer:CHANnel:RATE:RC5? IS-2000 only. This query returns the RC-5 data rate value for the channel selected by the Marker’s current position. The return value is an integer. Syntax MEAS:CDAN:IS2000:MARK:CHAN:RATE:RC5? Screen/field equivalent MEAS:CDAN:IS2000:MARK:CHAN:RATE:RC5? reads the RATE RC-5 field of the CODE DOMAIN screen when the CDMA standard is set to “IS-2000” and Sprd Fact is selected.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:MARKer:CHANnel[:WALSh]:NUMBer? IS-2000 only. This query returns the parenthetical Walsh channel number for the the channel selected by the marker’s current position. The return value is an integer. Syntax MEAS:CDAN:IS2000:MARK:CHAN:WALS:ORD? Screen/field equivalent MEAS:CDAN:IS2000:MARK:CHAN:WALS:ORD? reads the Walsh Ord field of the CODE DOMAIN screen when the CDMA standard is set to “IS-2000”.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:MARKer:COMPlex:I[:LEVel]? IS-2000 only. This query returns the Marker Level for the I channel (Top bar), when the Complex Power Measurement is active. The return is a floating point number.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:MARKer:NOISe? IS-2000 only. This query returns the Marker Level for the Noise, when the Power & Noise measurement is active. The return will be a floating point number. Syntax MEAS:CDAN:IS2000:MARK:NOIS? Screen/field equivalent MEAS:CDAN:IS2000:MARK:NOIS? reads the Noise Lvl field in the RH column of the Marker menu on the CODE DOMAIN screen when the CDMA standard is set to “IS-2000” and measurement is Power & Noise.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:RHO[:ESTimated]? IS-2000 only. This query returns the Estimated Rho when present (not available in FAST Power Measurement). The returned value is a floating point number. Estimated rho is an approximation of rho that is calculated when there are more signals than a pilot alone.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer[:BASic][:VALue]? IS-2000 only. This query returns an array of 128 values representing the true (absolute) power of the Walsh channel on which the Marker is currently positioned. NOTE The value returned represents the absolute power of the Walsh channel not the supplemental channel.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer[:BASic]:ALL? IS-2000 only. This query returns the information necessary to recreate the Code Domain trace when making a Power, Fast Power, or Fast Power Synchronize measurement. The returned entity consists of 128 four-value records for each bar in the trace. The four values for each record are: • Channel number.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:I:ACTive? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:COMBined:ACTive? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:QACTive? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:IS2000:ACTive? IS-2000 only. These queries return the active channel information for the Code Domain trace when making a Complex Power measurement.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:I:ALL? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:COMBined:ALL? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:Q:ALL? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:IS2000:ALL? IS-2000 only. These queries return the information necessary to recreate the Code Domain trace when making a Complex Power measurement. The returned entity consists of 128 four-value records for each bar in the trace.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:I[:VALue]? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:Q[:VALue]? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:COMBined[:VALue]? :CDANalyzer:IS2000:TRACe:ABSolute:POWer:COMPlex:IS2000[:VALue]? IS-2000 only. These queries return an array of 128 values that represent Spreader I Input Power and Spreader Q Input Power. This represents the power of both IS-95 and IS-2000 channels.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer:NOISe:ACTive? IS-2000 only. This query returns active channel information for the Code Domain trace when making a Power and Noise measurement. The return entity consists of an integer representing the number of active channels, followed by a four value record for each channel. The four values for each record are channel number, spread factor for this channel, Power, and Noise for this channel.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer:NOISe:ALL? IS-2000 only. This query returns the information necessary to recreate the Code Domain trace when making a Power and Noise measurement. The return entity consists of 128 four value records for each bar in the trace.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer:POWer:ACTive? IS-2000 only. This query returns active channel information for the Code Domain trace when making a Power and Noise measurement. The return entity consists of an integer representing the number of active channels followed by a four value record for each channel. The four values for each record are channel number, spread factor for this channel, Power, and Noise for this channel ..
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:ABSolute:POWer:POWer:ALL? IS-2000 only. This query returns the information necessary to recreate the Code Domain trace when making a Power and Noise measurement. The return entity consists of 128 four value records for each bar in the trace.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer[:BASic]:ACTive? IS-2000 only. This query returns the active channel information for the Code Domain trace when making a Power, Fast Power or Fast Power Synchronize measurement. The return entity consists of an integer representing the number of active channels followed by a four value record for each channel.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer[:BASic]:ALL? IS-2000 only. This query returns the information necessary to recreate the Code Domain trace when making a Power, Fast Power or Fast Power Synchronize measurement. The return consists of 128 four value records for each bar in the trace.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer:COMPlex:I:ACTive? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:COMBined:ACTive? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:QACTive? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:IS2000ACTive? IS-2000 only. These queries return the active channel information for the Code Domain trace when making a Complex Power measurement.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer:COMPlex:I:ALL? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:COMBined:ALL? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:Q:ALL? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:IS2000:ALL? IS-2000 only. These queries return the information necessary to recreate the Code Domain trace when making a Complex Power measurement. The returned entity consists of 128 four-value records for each bar in the trace.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer:COMPlex:I[:VALue]? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:COMBined[:VALue]? IS-2000 only. This query returns an array of 128 values that represents the Spreader I Input Power of both IS-95 and IS-2000 channels relative to the selected reference power value. NOTE The values returned represent the absolute power of individual Walsh channels not the supplemental channels of which they may be a part.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer:COMPlex:Q[:VALue]? :CDANalyzer:IS2000:TRACe:POWer:COMPlex:IS2000? IS-2000 only. These commands query and return an array of 128 values that represents Spreader Input Q Power relative to the selected reference channel power. NOTE The values returned represent the absolute power of individual Walsh channels not the supplemental channels of which they may be a part.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer:NOISe:ALL? IS-2000 only. This query returns the information necessary to recreate the Code Domain trace when making a Power and Noise measurement. The return consists of 128 four value records for each bar in the trace. The four values for each record are channel number, Power for this channel, Noise for this channel a flag indicating that the next bar should be connected to this bar as part of a wider supplemental channel.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer:POWer:ACTive? IS-2000 only. This query returns the active channel information for theCode Domain trace when making a Power and Noise measurement. The return value consists of an integer representing the number of active channels followed by a four value record for each channel. The four values for each record are channel number, spread factor for this channel, Power for this channel and Noise for this channel.
GPIB Command Dictionary MEASure subsystem :CDANalyzer:IS2000:TRACe:POWer:POWer[:VALue]? IS-2000 only. This query returns an array of 128 values that represent the channel power relative to the selected reference channel power in a Power & Noise measurement. NOTE The values returned represent the relative power of individual Walsh channels not the supplemental channels of which they may be a part.
GPIB Command Dictionary MEASure subsystem :DEC:AMPS|TACS:CDATa? This command queries the decoded data for the control channel. Syntax MEAS:DEC:AMPS:CDAT? Example MEAS:DEC:AMPS:CDAT? !returns a quoted string reporting the decoded data obtained from the control channel measured by the signaling unit.
GPIB Command Dictionary MEASure subsystem :DEC:AMPS|TACS:DATA? This command queries the decoded data for the voice channel. Syntax MEAS:DEC:AMPS:DATA? Example MEAS:DEC:AMPS:DATA? !returns a quoted string reporting the decoded data obtained from the voice channel measured by the signaling unit.
GPIB Command Dictionary MEASure subsystem :DEC:DTMF:LOW:FREQuency:ERRor :DEC:DTMF:LOW:FREQuency:ERRor? These commands set/query the frequency error of the low tone in the DTMF pair. The MEAS:DEC:DTMF:LOW:FREQ:DISP ‘Freq Err’ command must be used to display the frequency error of the low tone.
GPIB Command Dictionary MEASure subsystem :DEC:DTMF:HIGH:FREQuency:ABSolute :DEC:DTMF:HIGH:FREQuency:ABSolute? These command set/query the frequency of the high tone in the DTMF pair. The MEAS:DEC:DTMF:HIGH:FREQ:DISP ‘Freq’ command must be used to display the absolute frequency of the high tone.
GPIB Command Dictionary MEASure subsystem :DEC:DTMF:HIGH:FREQuency:DISPlay :DEC:DTMF:HIGH:FREQuency:DISPlay? These command set/query the display mode of the high tone in the DTMF pair. Syntax MEAS:DEC:DTMF:HIGH:FREQ:DISP ‘Freq’ ‘Frq Err’ MEAS:DEC:DTMF:HIGH:FREQ:ERR? Screen/field equivalent MEAS:DEC:DTMF:HIGH:FREQ:DISP controls the upper subfield of the Hi Tone field on the SIGNALING DECODER screen.
GPIB Command Dictionary MEASure subsystem :DEC:DTMF:SYMBol? These command set/query the symbol number assigned by the encoder for each of the DTMF tones. As each tone is analyzed, the symbol that represents each tone is returned as a quoted string. Syntax MEAS:DEC:DTMF:SYMB? !returns a quoted string Screen/field equivalent MEAS:DEC:DTMF:SYMB? reads the Sym column on the SIGNALING DECODER screen when the Mode field is set to DTMF.
GPIB Command Dictionary MEASure subsystem :DEC:NAMPs|NTACs:RECC:DATA? This command reads the decoded RECC data, serially, as it received. Syntax MEAS:DEC:NAMP:RECC:DATA? !returns a quoted string Screen/field equivalent MEAS:DEC:NAMP:CDAT? reads the RECC Data (hex) measurement field on the SIGNALING DECODER screen when the Mode field is set to NAMP-NTAC , the Measure field is set to Data and the Channel field is set to Cntl.
GPIB Command Dictionary MEASure subsystem :DEC:NAMP:DTMF:LOW:FREQuency:ABSolute :DEC:NAMP:DTMF:LOW:FREQuency:ABSolute? These commands set/query the frequency of the low tone in the DTMF pair. The MEAS:DEC:NAMP:DTMF:LOW:DISP ‘Freq’ command must be used to display the absolute frequency of the low tone.
GPIB Command Dictionary MEASure subsystem :DEC:NAMP:DTMF:LOW:DISPlay :DEC:NAMP:DTMF:LOW:DISPlay? These commands set/query the display mode of the low tone in the DTMF pair. Syntax MEAS:DEC:NAMP:DTMF:LOW:DISP ‘Freq’ ‘Frq Err’ MEAS:DEC:NAMP:DTMF:LOW:ERR? Screen/field equivalent MEAS:DEC:NAMP:DTMF:LOW:DISP controls the upper subfield of the Lo Tone field on the SIGNALING DECODER screen when the Mode field is set NAMP-NTAC and the Measure field is set to DTMF, and the Channel field is set to Voice.
GPIB Command Dictionary MEASure subsystem :DEC:NAMP:DTMF:HIGH:FREQuency:ERRor :DEC:NAMP:DTMF:HIGH:FREQuency:ERRor? These commands set/query the frequency error of the high tone in the DTMF pair. The MEAS:DEC:NAMP:DTMF:HIGH:DISP ‘Frq Err’ command must be used to display the frequency error of the high tone.
GPIB Command Dictionary MEASure subsystem :DEC:NAMP:DTMF:TIME:ON :DEC:NAMP:DTMF:TIME:ON? These commands set/query the timing of the DTMF frequencies.
GPIB Command Dictionary MEASure subsystem :DEC:NAMP:DTMF:SYMBol? This command queries the symbol number assigned by the encoder for each of the DTMF tones. As each tone is analyzed, the symbol that represents each tone is returned as a quoted string.
GPIB Command Dictionary MEASure subsystem :OSCilloscope:MARKer:LEVel:AM :OSCilloscope:MARKer:LEVel:AM? These commands set/query the AM depth measurement at the oscilloscope’s marker position. For this measurement to be valid, you must have AM Mod or AM Demod chosen as the audio input (see AFAN:INP on page 59). This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:OSC:MARK:LEV:AM !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :OSCilloscope:MARKer:LEVel:FM :OSCilloscope:MARKer:LEVel:FM? These commands set/query the FM deviation measurement at the oscilloscope’s marker position. For this measurement to be valid, you must have FM Mod or FM Demod chosen as the audio input (see AFAN:INP on page 59). This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:OSC:MARK:LEV:FM !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :OSCilloscope:MARKer:LEVel:VOLTs :OSCilloscope:MARKer:LEVel:VOLTs? These commands set/query the voltage measurement at the oscilloscope’s marker position. For this measurement to be valid, you must have Audio In, Audio Out, Ext Mod, or SSB Demod chosen as the audio input (see AFAN:INP on page 59). This measurement utilizes the Number Measurement Syntax, but does not use the :METer command.
GPIB Command Dictionary MEASure subsystem :OSCilloscope:TRACe? This command returns an array of 417 real values, corresponding to points on the oscilloscope’s display. 0 corresponds to the first value (left side of trace display) and 416 is the last value (right side of the trace display). Syntax MEAS:OSC:TRAC? Screen/field equivalent MEAS:OSC:TRAC has no corresponding field on the SCOPE screen.
GPIB Command Dictionary MEASure subsystem :RFRequency:FREQuency:ABSolute :RFRequency:FREQuency:ABSolute? These commands set/query the RF frequency measurement when the :RFR:SEL ‘Frequency’ command is used. Syntax :RFR:FREQ:ABS !See “Number Measurement Syntax” on page 283. :RFR:FREQ:ABS? Screen/field equivalent MEAS:RFR:FREQ:ABS? reads the Frequency measurement field on the RF ANALYZER screen. This measurement is also displayed on the RF GENERATOR and AF ANALYZER screens.
GPIB Command Dictionary MEASure subsystem :RFRequency:POWer :RFRequency:POWer? These commands set/query the transmitter power measurement. The measurement is either peak or sampled, as determined by the RFAN:PME:DET command on page 305. Syntax MEAS:RFR:POW !See “Number Measurement Syntax” on page 283. MEAS:RFR:POW? !returns real value Example MEAS:RFR:POW? !returns the value Screen/field equivalent MEAS:RFR:POW? reads the TX Power measurement field on the RF ANALYZER screen.
GPIB Command Dictionary MEASure subsystem :SANalyzer:MARKer:DELTa:FREQuency :SANalyzer:MARKer:DELTa:FREQuency? These commands set/query the delta marker frequency measurement. This measurement is the frequency of the delta marker minus the frequency of the normal marker. If the delta marker is to the right of the normal marker, the delta frequency is positive. If the delta marker is to the left of the normal marker, the delta frequency is negative.
GPIB Command Dictionary MEASure subsystem :SANalyzer:MARKer:DELTa:LEVel :SANalyzer:MARKer:DELTa:LEVel? These commands set/query the delta marker level measurement. This measurement is the level of the normal marker minus the frequency of the delta marker in dBm. If the delta marker is higher than normal marker, the delta level is positive. If the delta marker is lower than the normal marker, the delta level is negative. The units for this measurement are dB.
GPIB Command Dictionary MEASure subsystem :SANalyzer:MARKer[:NORMal]:FREQuency :SANalyzer:MARKer[:NORMal]:FREQuency? These commands set/query the frequency at the marker on the spectrum analyzer’s trace. This measurement utilizes the Number Measurement Syntax, but does not use the :METer command. Syntax MEAS:SAN:MARK:NORM:FREQ !See “Number Measurement Syntax” on page 283.
GPIB Command Dictionary MEASure subsystem :SANalyzer:TRACe? This command returns an array of 417 real values, corresponding to points on the spectrum analyzer’s display. 0 corresponds to the first value (left side of trace display) and 416 is the last value (right side of the trace display). This measurement utilizes the Number Measurement Syntax, but does not use the :METer command.
GPIB Command Dictionary Multiple Real Number Setting Syntax Multiple Real Number Setting Syntax This section defines the syntax to be used with commands that require the Real Number Setting Syntax, but allow multiple numbers to be set in one command. This format is typically used for entering values that are grouped in rows or columns.
GPIB Command Dictionary Number Measurement Syntax Number Measurement Syntax This syntax is used with measurement commands. It applies to both real and integer values.
GPIB Command Dictionary Number Measurement Syntax :Previous Syntax:LLIMit:STATe 1|ON !sets state of the limit :Previous Syntax:LLIMit:STATe 0|OFF !sets state of the limit :Previous Syntax:LLIMit:STATe? !returns 1 or 0 :Previous Syntax:METer[:STATe] 1|ON :Previous Syntax:METer[:STATe] 0|OFF :Previous Syntax:METer[:STATe]? !returns 1 or 0 :Previous Syntax:METer:HEND|LEND :Previous Syntax:METer:HEND|LEND? !returns real value :Previous Syntax:METer:HEND|LEND:DUNits :Previous Syntax:M
GPIB Command Dictionary OSCilloscope subsystem OSCilloscope subsystem :CONTrol :CONTrol? These commands set/query the oscilloscope’s control menus. Syntax OSC:CONT ‘Main’ ‘Trigger’ ‘Marker’ OSC:CONT? Example OSC:CONT ‘Trigger’ !displays the Trigger menu of the oscilloscope Screen/field equivalent OSC:CONT controls the Controls field of the SCOPE screen. :MARKer:NPEak This command moves the marker to the minimum value of the average level of the display. This command has no query.
GPIB Command Dictionary OSCilloscope subsystem :MARKer:PPEak This command moves the marker to the maximum value of the average level of the display. This command has no query. Syntax OSC:MARK:PPE !moves the marker to the maximum Screen/field equivalent OSC:MARK:PPE controls the Marker To Peak+ field on the Marker menu of the SCOPE screen. :MARKer:POSition :MARKer:POSition? These commands set/query the marker the number specified of scale divisions from the left side of the screen.
GPIB Command Dictionary OSCilloscope subsystem :SCALe:TIME :SCALe:TIME? These commands set/query the horizontal sweep time per division. Syntax OSC:SCAL:TIME ‘200 ms’ ‘100 ms’ ‘50 ms’ ‘20 ms’ ‘10 ms’ ‘5 ms’ ‘2 ms’ ‘1 ms’ ‘500 us’ ‘200 us’ ‘100 us’ ‘50 us’ ‘20 us’ ‘10 us’ ‘5 us’ ‘2 us’ ‘1 us’ OSC:SCAL:TIME? !returns present value Example OSC:SCAL:TIME ‘2 ms’ !sets scale to 2 ms Screen/field equivalent OSC:SCL:TIME controls the Time/div field on the Main menu of the SCOPE screen.
GPIB Command Dictionary OSCilloscope subsystem :SCALe:VERTical:AM :SCALe:VERTical:AM? These commands set/query the vertical axis amplitude per division when AM Mod or AM Demod is selected as the audio source (see AFAN:INP on page 59). Syntax OSC:SCAL:VERT:AM ‘50%’ ‘20%’ ‘10%’ ‘5%’ ‘2%’ ‘1%’ ‘0.5%’ ‘0.2%’ ‘0.1%’ ‘0.
GPIB Command Dictionary OSCilloscope subsystem :SCALe:VERTical:FM :SCALe:VERTical:FM? These commands set/query the vertical axis amplitude per division when FM Mod or FM Demod is selected as the audio source (see AFAN:INP on page 59).
GPIB Command Dictionary OSCilloscope subsystem :SCALe:VERTical:OFFSet :SCALe:VERTical:OFFSet? These commands set/query the vertical scale (DC) offset of the vertical axis of the oscilloscope display. This moves the signal up to four divisions up or down with respect to the oscilloscope’s fixed center line. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command.
GPIB Command Dictionary OSCilloscope subsystem :SCALe:VERTical:VOLTs :SCALe:VERTical:VOLTs? These commands set/query the vertical scale of the oscilloscope display. This command is valid when the AFAN:INP command specifies one of the following sources: Audio Out, Audio In, Ext Mod, or SSB Demod.
GPIB Command Dictionary OSCilloscope subsystem :TRIGger:LEVel :TRIGger:LEVel? These commands set/query the level of the oscilloscope’s trigger. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STAT, :DUN, :UNIT, :INCR:MODE, :INCR:DUN, commands. Syntax OSC:TRIG:LEV !values OSC:TRIG:LEV? !returns the level Example OSC:TRIG:LEV 0.4 !sets the level to 0.
GPIB Command Dictionary OSCilloscope subsystem :TRIGger:DELay :TRIGger:DELay? These commands set/query the trigger delay. Positive values delay the trigger, negative values apply a pre-trigger function to each measurement. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STAT, :DUN, :UNIT, :INCR:MODE, :INCR:DUN, commands. The valid range of the delay depends on the Time/div setting. See OSC:SCAL:TIME to set the Time/div.
GPIB Command Dictionary OSCilloscope subsystem :TRIGger:RESet This command triggers an oscilloscope measurement. Syntax OSC:TRIG:RES !triggers the oscilloscope Screen/field equivalent OSC:TRIG:RESet controls the Reset field on the Trigger menu of the SCOPE screen. :TRIGger:SENSe :TRIGger:SENSe? These commands set/query the desired edge of the trigger. ‘Pos’ triggers the measurement on the positive-going edge of the input signal. ‘Neg’ triggers on the negative-going edge.
GPIB Command Dictionary OSCilloscope subsystem :TRIGger:TYPE :TRIGger:TYPE? These commands set/query how the trigger level is set. ‘Auto’ triggers a measurement if a triggering signal is not detected within approximately 50 ms of the last trigger. ‘Norm’ requires a specific triggering signal before triggering. Syntax OSC:TRIG:TYPE ‘Auto’ ‘Norm’ OSC:TRIG:TYPE? Screen/field equivalent OSC:TRIG:TYPE controls the Auto/Norm field on the Trigger menu of the SCOPE screen.
GPIB Command Dictionary PROGram subsystem PROGram subsystem The Program subsystem provides a set of commands which allow an external controller to generate and control an IBASIC program within the Test Set. These commands have no equivalent fields or screens. [:SELected]:DEFine [:SELected]:DEFine? PROG:SEL:DEF downloads an IBASIC program into the Test Set. The query form returns the program. The program must be transferred as IEEE 488.2 Arbitrary Block Program Data.
GPIB Command Dictionary PROGram subsystem [:SELected]:STATe [:SELected]:STATe? These commands set/query (from an external IBASIC controller) the execution state of the IBASIC program currently loaded in the Test Set. Syntax PROG:SEL:STAT PROG:SEL:STAT? PROG:STAT !equivalent command [:SELected]:NUMBer (,) [:SELected]:NUMBer? These commands set/query the value of numeric variables or arrays in the IBASIC program currently loaded in the Test Set.
GPIB Command Dictionary RAM Usage Information RAM Usage Information The number of bytes reported to the remote interface is different than that reported on the screen when using the IB_UTILS program. This is because to calculate kilobytes, the total is divided by 1024 before it is displayed on the screen. SPEC:RAMDISKALLOC? SPEC:RAMDISKALLOC? returns the total RAM disk space that has been used to store programs or test setups in the Test Set.
GPIB Command Dictionary Real Number Setting Syntax Real Number Setting Syntax This syntax is for setting real values in commands. It is to be used with commands that require the Real Number Setting Syntax. An example of a command that requires the Real Number Setting Syntax is the RFANalyzer:FREQuency command. (See “RFANalyzer subsystem” on page 303.
GPIB Command Dictionary [REGister] subsystem [REGister] subsystem Register Subsystem contains the save/recall commands used in the Save/Recall registers. :CLEar This command clears the register defined by the integer value or string argument.
GPIB Command Dictionary [REGister] subsystem :RECall This command recalls the register defined by the integer value or string argument Syntax :REC ‘’ !recalls the register named ‘string’ :REC ‘’ !recalls the numbered register REG:REC ‘’ !equivalent command Screen/field equivalent This command corresponds to recalling a save/recall register using the front panel keys. See the Reference Guide for more information about using the Save and Recall keys.
GPIB Command Dictionary [REGister] subsystem :SAVE:LIST? :SAVE:LIST? lists the save/recall registers that have been named. Syntax REG:SAVE:LIST? :SAVE:LIST? !equivalent command Screen/field equivalent :SAVE:LIST? has no equivalent field.
GPIB Command Dictionary RFANalyzer subsystem RFANalyzer subsystem :ATTenuator :ATTenuator? These commands set/query the amount of input attenuation in the path of the selected input port. CONF:ATT:MODE ‘Auto’ overrides this command. Syntax RFAN:ATT ‘0 dB’ ‘5 dB’ ‘10 dB’ ‘15 dB’ ‘20 dB’ ‘25 dB’ ‘30 dB’ ‘35 dB’ RFAN:ATT? Screen/field equivalent RFAN:ATT controls to the lower subfield of the Input Atten field on the RF ANALYZER screen.
GPIB Command Dictionary RFANalyzer subsystem :FREQuency :FREQuency? These commands set/query the tune frequency for the RF analyzer. This command requires that the CONF:RFD ‘Freq’ command is used. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax RFAN:FREQ RFAN:FREQ? Screen/field equivalent RFAN:FREQ corresponds to the Tune Freq field on the RF ANALYZER screen.
GPIB Command Dictionary RFANalyzer subsystem :IFBW :IFBW? These commands set/query the IF filter bandwidth. Syntax RFAN:IFBW ‘15 kHz’ ‘230 kHz’ RFAN:IFBW? Screen/field equivalent RFAN:IFBW controls the IF Filter field on the RF ANALYZER screen. :INPut :INPut? These commands set/query the RF input port. Note: Some measurements can only be made on one port. Syntax RFAN:INP ‘RF In’ ‘Ant’ RFAN:INP? Screen/field equivalent RFAN:INP controls the RF Input Port field on the RF ANALYZER.
GPIB Command Dictionary RFANalyzer subsystem :PMEasurement:ZERO This command zeroes the TX power measurement. Syntax RFAN:PME:ZERO Screen/field equivalent RFAN:PME:ZERO controls the TX Pwr Zero field on the RF ANALYZER screen. :PMEasurement:ZERO:MODE :PMEasurement:ZERO:MODE? This command sets/queries the zeroing mode of the TX power measurement. ‘Auto’ periodically zeroes power automatically during operation. ‘Manual’ requires you to use the :PME:ZERO command to zero power.
GPIB Command Dictionary RFANalyzer subsystem :SQUelch :SQUelch? :SQU sets/queries the squelch control setting. Syntax RFAN:SQU ‘Pot’ ‘Open’ ‘Fixed’ RFAN:SQU? Screen/field equivalent RFAN:SQU controls the Squelch field on the RF ANALYZER screen.
GPIB Command Dictionary RFGenerator subsystem RFGenerator subsystem The RF generator subsystem controls the functions of the RF GENERATOR screen. :AMPLitude This command sets/queries the amplitude of the RF generator. This field also controls the RF generator viewed in the spectrum analyzer. This command utilizes the “Real Number Setting Syntax” on page 299. Syntax RFG:AMPL RFG:AMPL? Screen/field equivalent RFG:AMPL controls the Amplitude field on the RF GENERATOR screen.
GPIB Command Dictionary RFGenerator subsystem :CHANnel :CHANnel? These commands set/query the RF channel number. Channel tuning must be enabled (CONF:RFD ‘Chan’). You must also choose the correct channel standard (CONF:RFCS ). Syntax RFG:CHAN RFG:CHAN? Screen/Field Equivalent RFG:CHAN controls the upper subfield of the RF Channel field on the RF GENERATOR screen when the RF Display field on the INSTRUMENT CONFIGURE screen is set to Chan.
GPIB Command Dictionary RFGenerator subsystem :FREQuency :FREQuency? These commands set/query the frequency of the RF generator. The Test Set must first be in frequency tuning mode. (See CONF:RFD ‘Freq’ on page 164). This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax RFG:FREQ RFG:FREQ? Screen/field equivalent RFG:FREQ controls the RF Gen Freq field on the RF GENERATOR screen, when in frequency tuning mode.
GPIB Command Dictionary RFGenerator subsystem :MODulation:EXTernal:AM :MODulation:EXTernal:AM? These commands set/query the AM sensitivity of the RF generator when AM is applied through the modulation input port. The modulation input must be set to AM. This command utilizes the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary RFGenerator subsystem :MODulation:EXTernal:FM :MODulation:EXTernal:FM? These commands set/query the FM deviation of the RF generator when FM is applied through the modulation input port. The modulation input must be set to FM. This command utilizes the “Real Number Setting Syntax” on page 299.
GPIB Command Dictionary SANalyzer subsystem SANalyzer subsystem :ATTenuator :ATTenuator? These commands set/query the attenuator setting for the input port. Syntax SAN:ATT ‘0 dB’ ‘5 dB’ ‘10 dB’ ‘15 dB’ ‘20 dB’ ‘25 dB’ ‘30 dB’ ‘35 dB’ SAN:ATT? Screen/field equivalent SAN:ATT controls the lower subfield of the Input Atten field on the SPEC ANL screen’s Auxilliary menu. :ATTenuator:MODE :ATTenuator:MODE? These commands set/query the mode of the attenuator.
GPIB Command Dictionary SANalyzer subsystem :CFRequency :CFRequency? These commands set/query the center frequency of the spectrum analyzer’s display. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax SAN:CFR SAN:CFR? Screen/field equivalent SAN:CFR controls the Center Freq field on the SPEC ANL screen’s Main menu. :CONTrol :CONTrol? These commands set/query the Controls menu for the spectrum analyzer.
GPIB Command Dictionary SANalyzer subsystem :DISPlay:SCALe :DISPlay:SCALe? These commands set/query the vertical scale of the spectrum analyzer display. Syntax SAN:DISP:SCAL ‘1 dB/div’ ‘2 dB/div’ ‘10 dB/div’ SAN:DISP:SCAL? Screen/field equivalent SAN:DISP:SCAL controls the lower subfield of the Sensitivity field on the SPEC ANL screen’s Auxilliary menu. :INPut :INPut? These commands set/query the input to the spectrum analyzer.
GPIB Command Dictionary SANalyzer subsystem :MARKer:DELTa:NPEak This command sets the delta marker at the next peak of the spectrum analyzer display. Syntax SAN:MARK:DELT:NPE Screen/field equivalent SAN:MARK:DELT:NPE controls the Marker To, Next Peak field on the Marker menu of the SPEC ANL screen when the Norm/Delta field is set to Delta. :MARKer:DELTa:NPLevel :MARKer:DELTa:NPLevel? These commands set/query the level of the next peak signal at the delta marker.
GPIB Command Dictionary SANalyzer subsystem :MARKer:DELTa:POSition :MARKer:DELTa:POSition? These commands set/query the position of the delta marker on the spectrum analyzer. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax SAN:MARK:DELT:POS SAN:MARK:DELT:POS? Screen/field equivalent SAN:MARK:DELT:POS controls the Position field on the Marker menu of the SPEC ANL screen when the Norm/Delta field is set to Delta.
GPIB Command Dictionary SANalyzer subsystem :MARKer:MODE :MARKer:MODE? These commands set/query the whether the marker is in normal mode or delta mode. In normal mode the spectrum analyzer measures the frequency and level at the marker’s position. In delta mode the spectrum analyzer displays a second marker and measures the difference (frequency and level) from the “normal” marker position.
GPIB Command Dictionary SANalyzer subsystem :MARKer[:NORMal]:NPEak This command moves the marker to the next peak of the spectrum analyzer’s measurement trace. Syntax SAN:MARK:NORM:NPE Screen/field equivalent SAN:MARK:NORM:NPE controls the Marker To, Next Peak field on the Marker menu of the SPEC ANL screen when Norm/Delta field is set to Norm on the Marker controls menu. :MARKer[:NORMal]:NPLevel :MARKer[:NORMal]:NPLevel? These commands set/query the level of the next peak signal.
GPIB Command Dictionary SANalyzer subsystem :MARKer[:NORMal]:POSition :MARKer[:NORMal]:POSition? These commands set/query the position of the marker on the spectrum analyzer. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command.
GPIB Command Dictionary SANalyzer subsystem :MASK:BEEP :MASK:BEEP? This command turns the failure indicator beeper off or on. Syntax SAN:MASK:BEEP ‘On’ ‘Off’ SAN:MASK:BEEP? Screen/field equivalent SAN:MASK:BEEP controls the Mask Beep field on the Mask menu of the SPEC ANL screen. :MASK:DISPlay :MASK:DISPlay? This command sets/queries which masks will be displayed: upper, lower, both, or none (Off).
GPIB Command Dictionary SANalyzer subsystem :MASK:FIXed:LOWer:POINts:EDIT This command selects/queries the point number to edit on the lower spectrum analyzer mask. The maximum number is 15. Syntax SAN:MASK:FIX:LOW:POIN:EDIT SAN:MASK:FIX:LOW:POIN:EDIT? Screen/field equivalent SAN:MASK:FIX:LOW:POIN:EDIT controls the EditPt field on the Mask menu of the SPEC ANL screen when the Edit Mask field is set to Lower, and the Mask Type field is set to Fix.
GPIB Command Dictionary SANalyzer subsystem :MASK:FIXed:LOWer:POINts:FREQuency1 (through FREQ15) :MASK:FIXed:LOWer:POINts:FREQuency1? (through FREQ15) These commands set/query the frequency (Hz) of the defined points on the lower spectrum analyzer mask. The units for the mask are GHz, MHz, kHz, and Hz.
GPIB Command Dictionary SANalyzer subsystem :MASK:FIXed:UPPer:POINts:EDIT :MASK:FIXed:UPPer:POINts:EDIT? This command selects/queries the point number to edit on the upper spectrum analyzer mask. The maximum number is 15. Syntax SAN:MASK:FIX:UPP:POIN:EDIT SAN:MASK:FIX:UPP:POIN:EDIT? Screen/field equivalent SAN:MASK:FIX:UPP:POIN:EDIT controls the EditPt field on the Mask menu of the SPEC ANL screen when the Edit Mask field is set to Upper, and the Mask Type field is set to Fix.
GPIB Command Dictionary SANalyzer subsystem :MASK:FIXed:UPPer:POINts:FREQuency1 (through FREQ15) :MASK:FIXed:UPPer:POINts:FREQuency1? (through FREQ15) These commands set/query the frequency (Hz) of the defined points on the upper spectrum analyzer mask. The units for the mask are GHz, MHz, kHz, and Hz.
GPIB Command Dictionary SANalyzer subsystem :MASK:RELative:LOWer:POINts:EDIT :MASK:RELative:LOWer:POINts:EDIT? This command selects/queries the point number to edit on the lower spectrum analyzer mask. The maximum number is 15. Syntax SAN:MASK:REL:LOW:POIN:EDIT SAN:MASK:REL:LOW:POIN:EDIT? Screen/field equivalent SAN:MASK:REL:LOW:POIN:EDIT controls the EditPt field on the Mask menu of the SPEC ANL screen when the Edit Mask field is set to Lower, and the Mask Type field is set to Rel.
GPIB Command Dictionary SANalyzer subsystem :MASK:RELative:LOWer:POINts:FREQuency1 (through FREQ15) :MASK:RELative:LOWer:POINts:FREQuency1? (through FREQ15) These commands set/query the frequency (Hz) of the defined points on the lower spectrum analyzer mask (relative to the center line of the display). The units for the mask are GHz, MHz, kHz, and Hz.
GPIB Command Dictionary SANalyzer subsystem :MASK:RELative:UPPer:POINts:EDIT This command selects/queries the point number to edit on the upper spectrum analyzer mask. The maximum number is 15. Syntax SAN:MASK:REL:UPP:POIN:EDIT SAN:MASK:REL:UPP:POIN:EDIT? Screen/field equivalent SAN:MASK:REL:UPP:POIN:EDIT controls the EditPt field on the Mask menu of the SPEC ANL screen when the Edit Mask field is set to Upper, and the Mask Type field is set to Rel.
GPIB Command Dictionary SANalyzer subsystem :MASK:RELative:UPPer:POINts:FREQuency1 (through FREQ15) :MASK:RELative:UPPer:POINts:FREQuency1? (through FREQ15) These commands set/query the frequency (Hz) of the defined points on the upper spectrum analyzer mask. The units for the mask are GHz, MHz, kHz, and Hz.
GPIB Command Dictionary SANalyzer subsystem :RFGenerator :RFGenerator? This command selects between the fixed frequency generator and the tracking generator. The query form returns the mode setting of the generator. Syntax SAN:RFG ‘Track’ ‘Fixed’ SAN:RFG? Screen/field equivalent SAN:RFG controls the Track/Fixed field on the RF Gen menu of the SPEC ANL screen. :RLEVel :RLEVel? These commands set/query the reference level of the spectrum analyzer.
GPIB Command Dictionary SANalyzer subsystem :SPAN :SPAN? These commands set/query the span of the spectrum analyzer display. This command utilizes the “Real Number Setting Syntax” on page 299, but does not use the :STATe command. Syntax SAN:SPAN SAN:SPAN? Screen/field equivalent SAN:SPAN controls the Span field on the Main menu SPEC ANL screen. :TGENerator:AMPLitude :TGENerator:AMPLitude? These commands set/query the amplitude of the tracking generator.
GPIB Command Dictionary SANalyzer subsystem :TGENerator:DESTination :TGENerator:DESTination? These commands set/query the output port for the tracking generator. To select the tracking generator use the SAN:RFG ‘Track’ command. Syntax SAN:TGEN:DEST ‘RF Out’ ‘Dupl’ SAN:TGEN:DEST? Screen/field equivalent SAN:TGEN:DEST controls the RF Out/Dupl subfield of the Port/Sweep field on the RF Gen menu of the SPEC ANL screen. The Track/Fixed field must be set to Track.
GPIB Command Dictionary SANalyzer subsystem :TGENerator:SWEep :TGENerator:SWEep? These commands set/query the sweep type of the tracking generator. To select the tracking generator use the SAN:RFG ‘Track’ command. ‘Norm’ specifies a sweep from low to high frequency. ‘Invert’ specifies a sweep from high to low frequency.
GPIB Command Dictionary SANalyzer subsystem :TRACe:MHOLd :TRACe:MHOLd? These commands set/query the type of averaging used in the spectrum analyzer’s display. Syntax SAN:TRAC:MHOL ‘No Pk/Avg’ ‘Pk Hold’ ‘Avg 1’ ‘Avg 2’ ‘Avg 3’ ‘Avg 4’ ‘Avg 5’ ‘Avg 10’ ‘Avg 20’ ‘Avg 50’ ‘Avg 100’ ‘Off’ SAN:TRAC:MHOL? Screen/field equivalent SAN:TRAC:MHOL controls averaging field on the Auxilliary menu of the SPEC ANL screen. This field is located under the menu control field.
GPIB Command Dictionary SANalyzer subsystem :TRACe:NORMalize :TRACe:NORMalize? These commands set/query the type of trace display. ‘A Only’ provides a continuously updated display (normal operation). ‘A-B’ displays the difference between the trace saved using SAN:TRAC:SAVE and the currently displayed trace.
GPIB Command Dictionary STATus STATus The STATus subsystem reports many of the modes of the Test Set, including the states. These commands do not correspond to fields in specific screens. For detailed information about status registers, see “Status Reporting” in the Advanced Operations chapter of the Test Set’s Programmer’s Guide. :PRESet This command presets the Test Set. Syntax STAT:PRES :CALibration:CONDition? This command queries the state of the calibration. This query returns an integer value.
GPIB Command Dictionary STATus :CALibration:NTRansition :CALibration:NTRansition? These commands set/query the state of the negative transition of the calibration. This query returns an integer value. Syntax STAT:CAL:NTR STAT:CAL:NTR? :CALibration[:EVENt?]:PTRansition :CALibration[:EVENt?]:PTRansition? These commands set/query the state of the positive transition of the calibration. This query returns an integer value.
GPIB Command Dictionary STATus :COMMunicate[:EVENt?]:NTRansition :COMMunicate[:EVENt?]:NTRansition? This query returns an integer value. Syntax STAT:COMM:NTR STAT:COMM:NTR? :COMMunicate[:EVENt?]:PTRansition :COMMunicate[:EVENt?]:PTRansition? This query returns an integer value. Syntax STAT:COMM:PTR STAT:COMM:PTR? :HARD1:CONDition? Status reporting for hardware. This query returns an integer value. Syntax STATHARD1:COND? :HARD1:ENABle :HARD1:ENABle? This query returns an integer value.
GPIB Command Dictionary STATus :HARD1[:EVENt?]:PTRansition :HARD1[:EVENt?]:PTRansition? This query returns an integer value. Syntax STAT:HARD1:PTR STAT:HARD1:PTR? :HARD2:CONDition :HARD2:CONDition? This query returns an integer value. Syntax STAT:HARD2:COND STAT:HARD2:COND? :HARD2:ENABle :HARD2:ENABle? This query returns an integer value. Syntax STAT:HARD2:ENAB STAT:HARD2:ENAB? :HARD2[:EVENt?]:NTRansition :HARD2[:EVENt?]:NTRansition? This query returns an integer value.
GPIB Command Dictionary STATus :OPERation:CONDition? This query returns an integer value. Syntax STAT:OPER:COND? :OPERation:ENABle :OPERation:ENABle? This query returns an integer value. Syntax STAT:OPER:ENAB STAT:OPER:ENAB? :OPERation[:EVENt?]:NTRansition :OPERation[:EVENt?]:NTRansition? This query returns an integer value. Syntax STAT:OPER:NTR STAT:OPER:NTR? :OPERation[:EVENt?]:PTRansition :OPERation[:EVENt?]:PTRansition? This query returns an integer value.
GPIB Command Dictionary STATus :CALibrating:ENABle :CALibrating:ENABle? This query returns an integer value. Syntax STAT:CAL:ENAB STAT:CAL:ENAB? :CALibrating[:EVENt?]:NTRansition :CALibrating[:EVENt?]:NTRansition? This query returns an integer value. Syntax STAT:CAL:NTR STAT:CAL:NTR? :CALibrating[:EVENt?]:PTRansition :CALibrating[:EVENt?]:PTRansition? This query returns an integer value. Syntax STAT:CAL:PTR STAT:CAL:PTR? :QUEStionable:CONDition? This query returns an integer value.
GPIB Command Dictionary STATus :QUEStionable[:EVENt?]:NTRansition :QUEStionable[:EVENt?]:NTRansition? This query returns an integer value. Syntax STAT:QUES:NTR STAT:QUES:NTR? :QUEStionable[:EVENt?]:PTRansition :QUEStionable[:EVENt?]:PTRansition? This query returns an integer value. Syntax STAT:QUES:PTR STAT:QUES:PTR? :MEASuring:CONDition? This query returns an integer value. Syntax STAT:MEAS:COND? :MEASuring:ENABle :MEASuring:ENABle? This query returns an integer value.
GPIB Command Dictionary STATus :MEASuring[:EVENt?]:PTRansition :MEASuring[:EVENt?]:PTRansition? This query returns an integer value. Syntax STAT:MEAS:PTR STAT:MEAS:PTR? :CDMA1:CONDition? This query returns an integer value. Syntax STAT:CDMA1:COND? :CDMA1:ENABle :CDMA1:ENABle? This query returns an integer value. Syntax STAT:CDMA1:ENAB STAT:CDMA1:ENAB? :CDMA1[:EVENt?]:NTRansition :CDMA1[:EVENt?]:NTRansition? This query returns an integer value.
GPIB Command Dictionary STATus :IBASic:CONDition? This query returns an integer value. Syntax STAT:IBAS:COND? :IBASic:ENABle :IBASic:ENABle? This query returns an integer value. Syntax STAT:IBAS:ENAB STAT:IBAS:ENAB? :IBASic[:EVENt?]:NTRansition :IBASic[:EVENt?]:NTRansition? This query returns an integer value. Syntax STAT:IBAS:NTR STAT:IBAS:NTR? :IBASic[:EVENt?]:PTRansition :IBASic[:EVENt?]:PTRansition? This query returns an integer value.
GPIB Command Dictionary SYSTem:[ERRor?] SYSTem:[ERRor?] This command returns an integer followed by quoted string.
GPIB Command Dictionary TRIGger subsystem TRIGger subsystem The Trigger subsystem contains commands for triggering measurements. There are no screen/field equivalents for the trigger subsystem commands. These commands will override any triggering control fields on individual screens. :ABORt This command ends a measurement cycle in progress. Syntax TRIG:ABOR :IMMediate This command triggers all selected measurements.
Index Symbols # of Frames, 114 #Pts, 321, 323, 325, 327, 329 Numerics 0 dB ref, 127 A A Only/A-B, 335 abort measurement, 346 AC Level, 211 ACP, 105 ACP Cal CDMA analyzer, 99 ACP Fltr BW CDMA analyzer, 99 ACP Offset CDMA analyzer, 100 ADC FS average power, 217 channel power, 219 EVM, 218 rho, 218 ADCfs, 226 address, HP-IB, 150 adjacent channel power, 105 adjacent channel power (ACP) center channel, 223 lower ratio, 222 upper ratio, 223 AF ANALYZER screen, 205 AF Anl In, 59 AF Cnt Gate, 59 AF Freq, 215 AFGen
Index Control, 151, 152 Controls code domain analyzer, 118, 123 oscilloscope, 285 spectrum analyzer, 314 CW RF Path, 117 Serial 9 Port, 169 Distn, 214 distortion measurement, 214 division, 282, 299 DSAT, 90 Duplex Out, 154 D Data Buff, 146 data buffer, 114 Data Length Serial 10 Port, 176 Serial 11 Port, 184 Serial 9 Port, 166 Data Level (AMPS-TACS) AM, 77 FM, 77 mV, 78 Data Level (NAMP-NTAC) FOCC AM, 91 FM, 92 mV, 92 FVC AM, 96 FM, 97 mV, 97 Data Rate, 147 AMPS-TACS, 78 NAMP-NTAC FOCC, 93 FVC, 96 Data So
Index hexadecimal values, 206 Hi Limit key, 283 Hi Tone Freq, 263, 268 Frq Err, 263, 269 Holdoff Delay Serial 9 Port, 170 HP-IB Adrs, 150 HP-IB, printer port, 158 I I/O CONFIGURE screen, 205 IBASIC Echo Serial 9 Port, 167 Idle/Send, 116 IF Filter, 305 Incoming Call Security Serial 9 Port, 173 Incr Set key, 299 increment, 282, 299 incrementing integer values, 206 Input Atten, 303 Auto/Hold, 303 spectrum analyzer, 313 Auto/Hold, 313 Input Gain, 60 Input Level AM, 195 FM, 196 volts, 197 Inst Echo Serial 9 Por
Index oscilloscope, 273, 274 frequency at spectrum analyzer, 280 level at code domain analyzer, 228, 229, 235, 236, 237, 238, 239, 240 phase at code domain analyzer, 230, 240 RF level at spectrum analyzer, 279, 280 time at code domain analyzer, 231 oscilloscope, 274 Mask Type Fix, 321, 322, 323, 324, 325, 329 Rel, 325, 326, 327, 328, 329 mathematical operations averaging, 283 division, 282, 299 multiplication, 282, 299 Meas Intvl, 112, 128 Measure, 203 Measure, IQ Plot Display, 271 Measure, IQ Plot Display
Index Phase/div, 129 Phse, 230 PK-, 56 Pk Det To, 56 PK- HOLD, 56 Pk Hold, 334 PK+, 56 PK+ HOLD, 56 PK+-/2, 56 PK+-/2 Hd, 56 PK+-MAX, 56 PK+-MX Hd, 56 PN Increment, 107, 126 PN Offset, 108, 127, 222 PN Ofs, 231 Polarity, 73 decoder, 198 Port/Sweep Norm/Invert, 333 RF Out/Dupl, 332 Pos/Neg, 294 Position, 286 spectrum analyzer marker, 317, 320 Power, 124, 136, 137, 138 power cables, 40 Pre-Emp, 72 Preset key, 336 Print Title, 160 Printer Adrs, 157 PRINTER CONFIGURE screen, 205 printer model, 160 Printer Port
Index questionable, 341 status register groups, 336 See also Staus Reporting in the Programmer’s Guide Stop encoder, 74 Stop Filler AMPS-TACS, 80 NAMP-NTAC FOCC, 94 Stop Length Serial 10 Port, 176 Serial 11 Port, 185 Serial 9 Port, 166 Stop Meas, 198 sweep, oscilloscope, 287 Sym, 265 Symbol Frequencie (Hz), 84 Symbol Frequency (Hz), 84 T TACS channel standard, 163 Talk&Lstn, 151, 152 TDMA TESTS screen, 205 Threshold, 130 Time marker, CDMA analyzer, 231 marker, Oscilloscope, 274 Time (of day), 193 Time Offs
