OPERATING MANUALAGILENT 603xA FAMILYAUTORANGING SYSTEM DCPOWER SUPPLIESAGILENT Part No. 5959-3342Microfiche Part No. 5959-3343 Edition 1 Printed: Sept
10Table Of Contents (continued) Register Functions...
Standard Commands for Programmable Instruments (SCPI)100Query Syntax STATus:OPERtion:EVENt?Returned Parameters <NR1> (Register Value) Examples
Standard Commands for Programmable Instruments (SCPI)101STAT:QUES:COND?Returns the value of the Questionable Condition register. That is a read-only r
Standard Commands for Programmable Instruments (SCPI)102Command Syntax STATus:QUEStionable:NTRansition <NRf>STATus:QUEStionable:PTRansition <
Standard Commands for Programmable Instruments (SCPI)103Trigger SubsystemThis subsystem controls remote triggering of the power supply.TRIG[:IMM]When
Standard Commands for Programmable Instruments (SCPI)104Query Syntax [SOURce]:VOLTage[:LEVel] [:IMMediate][:AMPLitude]?[SOURce]:VOLTage[:LEVel] [:IMM
Standard Commands for Programmable Instruments (SCPI)105Table C-5. Bit Configuration of Status Reister GroupsBit Signal MeaningOperation Status Group5
Standard Commands for Programmable Instruments (SCPI)106Figure C-4. Power Supply Status StructureTable C-2. STAT:QUES CommandsRegister Command Query C
Standard Commands for Programmable Instruments (SCPI)107Table C-3. Examples of Questionable Status Register Bit ProgrammingExample Signal Cond Reg PTR
Standard Commands for Programmable Instruments (SCPI)108NOTE Since the power supply impliments *PSC, this register is cleared at power turn on if *PSC
Standard Commands for Programmable Instruments (SCPI)109Status Programming ExamplesSRE 255Enables all bits to generate seruice requestsSRE 239Excludes
General Information111General InformationIntroductionThis manual contains specifications, installation instructions, and operating instructions for Sy
Standard Commands for Programmable Instruments (SCPI)110Hardware Errors During Operation. If an error does not occur during selftest but after the pow
Standard Commands for Programmable Instruments (SCPI)111Table C-5. Summary of Error Messages (continued)Error Number Error String [Description/Explana
Standard Commands for Programmable Instruments (SCPI)112Command Summary (continued)Subsystem CommandsCommand Parameters OUTP[:STAT] <space>{0|O
Standard Commands for Programmable Instruments (SCPI)113ARPS/SCPI CommandsTable C-6 lists the ARPS commands and compares them with the equivalent SCPI
Programming the Agilent 603xA Power Supplies Using Basic115DProgramming the Agilent 603xA Power Supplies UsingBasicIntroductionThe examples in this ap
Programming the Agilent 603xA Power Supplies Using Basic116Note the use of a semicolon as a separator between the device command and the data in the s
Programming the Agilent 603xA Power Supplies Using Basic117120 !130 DEF FNSettled(OPTIONAL Band, Rdgs.Timelimit)140 ! BAND=SETTLING BAND IN VOLTS1
Programming the Agilent 603xA Power Supplies Using Basic118Output Inhibit / EnableThe output of the supply can be inhibited without disturbing other p
Programming the Agilent 603xA Power Supplies Using Basic11980 !90 DEF FNOr_mode100 COM /Ps/ @Ps110 OUTPUT @Ps; “STS”120 ENTER @Ps; Stat130 RETURN BIT
General Information12A fault indicator (FLT) and remote inhibit (INH) circuit provides additional shutdown protection, should either the GP-IBand/or c
Programming the Agilent 603xA Power Supplies Using Basic120Fault and Mask RegistersTwo additional registers provide the user with the ability to obtai
Programming the Agilent 603xA Power Supplies Using Basic121Condition•RQS ERR RDY••PON FAUBit position76543210Bit Weight128 64 32 16 8 4 2 1Where
Programming the Agilent 603xA Power Supplies Using Basic122Service RequestService request provides the programmer with the means for interrupting the
Programming the Agilent 603xA Power Supplies Using Basic123Delay TimeWhen changing the output voltage or current level of the supply it may change sta
Programming the Agilent 603xA Power Supplies Using Basic12480 SUB Err_trap90 OFF KEY100 COM /Ps/ @Ps110 OUTPUT @Ps:”ERR?”120 ENTER@Ps;Err130 OUTPUT 2
Programming the Agilent 603xA Power Supplies Using Basic125Protection FunctionsOvervoltageThe trip level of the overvoltage protection circuit can be
Programming the Agilent 603xA Power Supplies Using Basic126Advanced TopicsHold ModeAt times it may become necessary to program several power supplies
Programming the Agilent 603xA Power Supplies Using Basic127130 OUTPUT @Ps:"VSET 3.ISET 6.7.STO3"140 OUTPUT @Ps:"VSET 4,ISET 5.STO4"
Index 129Index A AC bit ...
General Information13 1494-0060 Rack slide kit, non tilting 5060-2865 Service kit, includes extenders for control and power mesh boards, three cables
130 Index FOLDBACK indicator...
Index 131 OC bit ...
132 Index serial poll...
Agilent Sales and Support Office 133Agilent Sales and Support OfficeFor more information about Agilent Technologies test and measurement products, app
134 IndexManual UpdatesThe following updates have been made to this manual since the print revision indicated on the title page.2/24/99Figure 2-4 ha
General Information14The serial number prefixes listed on the front of this manual indicate the versions of the supplies that were available whenthe m
General Information15Related DocumentsThe following documents may be useful for your GP-IB systems. The Agilent documents can be ordered from your loc
General Information16Table 1-1. Performance SpecificationsAgilent Technologies Model 6033A 6038ADC Output: Voltage, current and power spans indicate r
General Information176030A 6031A 6032A 6035A NOTES.0-200 V 0-20 V 0-60 V 0-500 V1. Not specified0-17 A 0-120 A 0-50 A 0-5 A2. Initially, for each de
General Information18Table 1-2. Supplemental Characteristics (continued)DC Floating Voltage: Either output terminal may be floated up to the following
General Information19 Figure 1-1. Output Characteristic CurveAgilent Model 6030A 6031A 6032A 6033a 6035A 6038AVp1 200 V 20 V 60 V 20 V 500 V 60 VIp1 5
2CERTIFICATIONAgilent Technologies certifies that this product met its published specifications at time of shipment from thefactory. Agilent Technolog
General Information20
Installation212InstallationIntroductionThis section contains instructions for checking and repacking the supply, bench or rack mounting, connecting th
Installation22Figure 2-1. Outline DiagramBench OperationThe supply cabinet has plastic feet, which are shaped to ensure self aligning when stacked wit
Installation23Agilent Models 6033A, 6031A, 6032A, 6036A. Figure 2-2 illustrates the standard configuration of power-cord plugs used byAgilent Technolo
Installation24d. Replace the cover, tighten all four screws and tighten the strain relief clamp. (All four screws must be tightened for unitto meet RF
Installation25b. Use a small-blade screwdriver to set the two switch sections of S2 to match the pattern silk-screened on main board fornominal line v
Installation26Figure 2-3. Line Voltage Conversion Components
Installation27AC Line Impedance CheckThe power supply is designed for proper operation with line impedance typically found in ac power lines. However
Installation28sense barrier block 2 - terminal barrier block 0360-2192barrier block screws M3.5 X 0.6 X 6 mm (qty 8) 0515-0212FLT/INH connector 4 - t
Operating Instructions293OPERATING INSTRUCTIONSIntroductionThis section describes the operating controls and indicators, turn-on checkout procedures,
3Safety SummaryThe following general safety precautions must be observed during all phases of operation of this instrument. Failure tocomply with thes
Operating Instructions30Before the instrument is turned on, all protective earth terminals, extension cords, and devicesconnected to the power supply
Operating Instructions31Load Resistance B equals the crossover resistance for the particular combination of voltage and current settings shown onthe g
Operating Instructions32Table 3-1. Controls and Indicators (continued) Number Controls/Indicators Description Page2 GP-IB Status IndicatorsThese four
Operating Instructions33Table 3-1. Controls and Indicators (continued) Number Controls/Indicators Description Page5 Numeric Display Two 3-1/2 digit al
Operating Instructions34Once the all-indicators-off period is over, the GP-IB address switch setting is displayed on the meter displays for onesecond.
Operating Instructions35d. Turn OUTPUT ADJUST knob clockwise, press DISPLAY SETTINGS switch, and check that AMPS setting hasincreased. CV indicator sh
Operating Instructions36per lead. Table 3-2 lists resistivity for various wire sizes and the maximum lengths that may be used to limit voltage drop to
Operating Instructions37If multiple loads are connected to one supply, each load should be connected to the supply’s output terminals using separatepa
Operating Instructions38Figure 3-5. Connecting a Bypass CapacitorOvervoltage Protection (OVP)The overvoltage trip point is adjusted at the front panel
Operating Instructions39Foldback ProtectionIn some applications either CV or CC mode may be regarded as an error condition. The foldback protection fe
4SAFETY SYMBOLSDirect currentAlternating currentBoth direct and alternating currentThree-phase alternating currentEarth (ground) terminalProtective ea
Operating Instructions40Figure 3-6. Remote Voltage SensingBecause the sensing leads carry only a few milliamperes, the wires used for sensing can be m
Operating Instructions41Table 3-4. Mode Switches Mode Programming ModeSwitches GP-IB/RPG Voltage ResistanceB6 0 0 1CV B5 0 0 0Circu
Operating Instructions42 1. The total number of devices is no more than 15. 2. The total length of all the cables used is no more than two meters time
Operating Instructions43Foldback. If foldback protection is enabled (FOLDBACK ENABLED LED on) and the power supply switches to theprohibited mode (CV
Operating Instructions44Constant Current OperationTo set up the power supply for constant current operation:a. With power supply turned off, connect l
Operating Instructions45Multiline Message Control Functions. The Acceptor Handshake, Source Handshake, Listener, and Talker functions areimplemented b
Operating Instructions46Remote/Local. The remote/local function allows the power supply to operate in either local (front panel) or remote (viaGP-IB)
Operating Instructions47Holding the LCL switch in for one second causes the power supply’s GP-IB address to be displayed on the front panel untilthe s
Operating Instructions48Table 3-6. Initial Conditions Voltage 0 Volts Current 0 Amps OUTPUT AD
Operating Instructions49Plus and minus signs are considered numeric characters. All numeric data fields may contain an optional plus or minus signon b
5Declaration PageDECLARATION OF CONFORMITYaccording to ISO/IEC Guide 22 and EN 45014Manufacturer’s Name: Agilent TechnologiesManufacturer’s Address: 1
Operating Instructions50Table 3-7 GP-IB CommandsCommand*Range or **ResponseTo Query Description PageVSET xVSET xVAgilent 6030A *0--204.75 VAgilent 603
Operating Instructions51Table 3-7 GP-IB Commands (continued)Command*Range or **ResponseTo Query DescriptionPageDLY xDLY xSDLY xMS*0--31.999 s*0--31999
Operating Instructions52Table 3-7 GP-IB Commands (continued)Command*Range or **ResponseTo Query DescriptionPageTTRGUsed to implement commands that hav
Operating Instructions53Table 3-7 GP-IB Commands (continued)Command*Range or **ResponseTo Query DescriptionPageUNMASK? **UNMASK xxxUsed to read which
Operating Instructions54Table 3-7 GP-IB Commands (continued)Command*Range or **ResponseTo Query DescriptionPageTEST? **TEST xx Causes power supply to
Operating Instructions55Table 3-8. Format of Numbers Sent from Power Supply For these query commands: VSET? ISET? DLY? VOUT? IOUT?
Operating Instructions56VSET? and addressing the power supply to talk.The power supply can be instructed to measure its actual output voltage by sendi
Operating Instructions57Soft Limits. The power supply can be sent soft limit values that place maximum limits on the voltage and currentprogramming va
Operating Instructions58DLY 0.500Note that during the delay period CV and CC are masked from the foldback protection feature also. Delay does not affe
Operating Instructions59Reset. Reset restores the power supply output if it has been disabled by OVP, foldback, or remote inhibit. The output returnst
6Acoustic Noise StatementHerstellerbescheinigungDiese Information steht im Zusammenhang mit den Anforderungen derMaschinenlärminformationsverordnung v
Operating Instructions60completed with the first. Therefore, sending device trigger after sending a command assures that the second instrumentcannot b
Operating Instructions61For example, if bits for both ERR (128) and CC (2) are set, the power supply would send ASCII digits 1 3 0 (128 +2 =130).Bits
Operating Instructions62Note that bits can be set in the fault register only when there is a change in either the status register or the mask register
Operating Instructions63SRQ?and addressing the power supply to talk. The response from the power supply is in this format:SRQ 0 or SRQ 1in which 0 ind
Operating Instructions64Table 3-10. Status Register ErrorsError # Description0123456789No ErrorsUnrecognized Character—A character like ! " # was
Operating Instructions65When the power supply is addressed to talk after and addressing the power supply to talk. The response from TEST? hasbeen rece
Operating Instructions66The following paragraphs discuss in greater detail the methods of remotely programming the output voltage or current usingeith
Operating Instructions67Figure 3-10. Voltage Programming of Output VoltageConstant Current Output, Resistance Control. The setup shown in Figure 3-12
Operating Instructions68 Figure 3-12. Resistance Programming of Output CurrentFigure 3-13. Voltage Programming of Output CurrentAuto-Parallel Operatio
Operating Instructions69 Figure 3-14. Auto-Parallel OperationSetting Voltage and Current. Program the slave unit’s output voltage above the master’s t
7Table Of Contents1. General InformationIntroduction ...
Operating Instructions70It is not recommended that Agilent 6035A supplies be connected in series. if you do so, the commonconnection between the two s
Operating Instructions71Figure 3-16. FLT/INH ConnectionsFigure 3-17. INH ExampleFigure 3-18. FLT Example
Operating Instructions72Figure 3-19a. FLT and INH with Multiple SuppliesFigure 3-19b. Typical INH SetupClosing the hood will not re-enable the supply,
Operating Instructions73In Figure 3-21 the FLT output drives not only the INH input, but also triggers a sequential down programmer circuit. Thiswould
100 VAC Input Power Option 100 75A100 VAC Input Power Option 100General InformationDescriptionOption 100 is a modification of the power supply that in
100 VAC Input Power Option 10076Section ll Manual ChangesFor Agilent Models 6030A, 6031A, 6032A and 6035A: on page 2-7 (AC line Impedance Check, step
100 VAC Input Power Option 100 77On page 65 (Analog Programming, 2nd paragraph), change the second sentence to read: “Resistance of 0 to 3.33 K ohmspr
Blank Front Panel Option 001 79BBlank Front Panel Option 001IntroductionThis appendix describes the blank front panel option (Option 001) for the powe
8Table Of Contents (continued) Error...
Blank Front Panel Option 00180Table B-1. ID Query ResponseAgilent Model ResponseAgilent 6030A ID Agilent 6030A or ID Agilent 6030A, Opt 100Agilent 603
Blank Front Panel Option 001 81Use format appropriate for your computer.):10 OUTPUT 705; “VOUT?”20 ENTER 705; A$ 30 OUTPUT 705; “OVP?”40 ENTER 705; B$
Standard Commands for Programmable Instruments (SCPI)83CStandard Commands for Programmable Instruments (SCPI)ABOUT THIS APPENDIXIF YOU WILL NOT BE PRO
Standard Commands for Programmable Instruments (SCPI)842ANSI/IEEE Std 488.2-1987. IEEE Standard Codes, Formats, Protocols, and Common Commands. Recom
Standard Commands for Programmable Instruments (SCPI)85LINKED CONNECTIONSWhen programming with SCPI commands, it is possible to connect up to 15 addit
Standard Commands for Programmable Instruments (SCPI)86Setting the AddressNOTE The primary and secondary addresses cannot be selected over the GP-IB.
Standard Commands for Programmable Instruments (SCPI)87LANGUAGE DICTIONARYThis section gives the syntax and parameters for all the IEEE 488.2 common c
Standard Commands for Programmable Instruments (SCPI)88Figure C-2. Common Command Syntax DiagramFigure C-3 is a tree diagram of the subsystem commands
Standard Commands for Programmable Instruments (SCPI)89*CLSMeaning and TypeClear Status Device StatusDescriptionThis command causes the following ac
9Table Of Contents (continued) Remote Sensing...
Standard Commands for Programmable Instruments (SCPI)90Command Syntax *ESE <NRf>Parameters 0 to 255Default Value (See *PSC)*RST Value 0Example
Standard Commands for Programmable Instruments (SCPI)91DescriptionThis command causes the interface to set the OPC bit (bit 0) of the Standard Event S
Standard Commands for Programmable Instruments (SCPI)92If the command parameter = 0, then the above registers are not cleared at power turn on, but ar
Standard Commands for Programmable Instruments (SCPI)93*RSTMeaning and TypeReset Device StateDescriptionThis command reset the power supply to a fact
Standard Commands for Programmable Instruments (SCPI)94*SREMeaning and TypeService Request EnableDevice InterfaceDescriptionThis command sets the cond
Standard Commands for Programmable Instruments (SCPI)95*TRGMeaning and TypeTriggerDevice TriggerDescriptionThis command, which is essentially the same
Standard Commands for Programmable Instruments (SCPI)96Current SubsystemThis subsystem programs the output current of the power supply.CURR[:LEV]Sets
Standard Commands for Programmable Instruments (SCPI)97Initiate SubsystemThis subsystem enables the trigger system. When a trigger is enabled, the tri
Standard Commands for Programmable Instruments (SCPI)98OUTP:PROTThere are two output protection commands that do the following:OUTP:PROT:CLE Clear
Standard Commands for Programmable Instruments (SCPI)99Status SubsystemThis subsystem programs the power supply status registers. The power supply has
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