7451A/61A/61P デジタル・マルチメータ 取扱説明書
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1 6. 6. GPIB(IEEE-488) USB USB DMM (USB.ID) GPIB USB.ID 1 GPIB MENU 8 I/F BUS GPIB/USB ENTER MENU 8 I/F HEADR ENTER *IDN? 7451A/61A AD7451A/AD7461A7451A/7461A*IDN? *IDN? C00 6-1

2 6.1.1 *IDN? 7451A/61A *IDN? ADC Corp.,xxxxx,nnnnnnnnn,mmm xxxxx: 7451A 7461A nnnnnnnnn: No. mmm: No. ADC,xxxxxxx,nnnnnnnnn,mmm xxxxxxx: AD7451A AD7461A nnnnnnnnn: No. mmm: No. *IDN? 1. SHIFT 2. "OLD *IDN?" SHIFT 5. "NEW *IDN?" 6. *IDN? ADC OID0 *IDN? OID1 *IDN? OID? : OID0 OID1 SCPI :OIDentity {ON,1 OFF,0} OFF,0: *IDN? ON,1: *IDN? :OIDentity? :

3 6.2 GPIB 6.2 GPIB GPIB(General Purpose Interface Bus) GPIB USB : IEEE-488 : ASCII : 0 High +2.4 V 1 Low +0.4 V 6-1 SH1 AH1 T5 L4 SR1 RL1 PP0 DC1 DT1 C0 E2 SDC, DCL GET 3 6-3

4 6.2.2 GPIB GPIB m m 408JE-1P5 1 m 408JE m 408JE m 408JE male, female GPIB OFF 5. ATN ATN ATN ms REN LOW 9. INI(ADC)INITiate(SCPI)*TRG *OPC*OPC?*WAI *OPC*OPC?*WAI 1 :INIT;*OPC :INIT;*OPC? :INIT;*WAI 6-4

5 6.2.3 GPIB GPIB GPIB 1. MENU 8 I/F MENU I/F 2. ENTER I/F I/F BUS 3. BUS 4. ENTER BUS BUS GPIB 5. GPIB 6. ENTER GPIB I/F I/F 7. GP.Adr 01 I/F BUS GP.Adr 8. ENTER 01 GP.Adr I/F 10. ENTER GPIB GP.Adr 11. EXIT 6-5

6 6.2.3 GPIB 1. MENU 8 I/F MENU I/F 2. ENTER I/F I/F BUS 3. BUS 4. ENTER BUS BUS GPIB 5. GPIB 6. ENTER GPIB I/F I/F 7. T.ONLY I/F BUS T.ONLY 8. ENTER T.ONLY ON 9. ON/OFF 10. ENTER ON/OFF I/F T.ONLY 11. EXIT 6-6

7 6.3 USB 6.3 USB USB1.1 USB(Universal Serial Bus) USB USB ADC USB2.0 Full Speed USB B ID USBid ASCII ASCII ADC USB USB USB B USB 1 USB 7461P ADC USB 7461A 6-7

8 6.3.3 USB USBid USBid USB 1. MENU 8 I/F USBid ENTER 6-8

9 (TRIGGER IN) (TRIGGER IN) EXTernal TTL

10 6.4.2 (COMPLETE OUT) (COMPLETE OUT) (COMPLETE OUT) [ ] MENU 9 SYS C.Sig (SGL) (MULTI) ENTER MENU 9 SYS C.Widt 100 μs 100 μsec 5 μs 5 μsec ENTER TTL

11 6.4.2 (COMPLETE OUT) DCV 1. Tc Tc=Tin msec Tin (SI) (IT) + 30 μsec 310 μsec 850 μsec 1.29 msec 2. Tcp Tcp=Tin+1.4msec Tin 6-11

12 (COMPARATOR) TTL a. break - GND b. TTL D-Sub9 DC30 V DC120 ma 30 V 1 ms LO4-8 HI3-7 PASS2-6 TTL 12 V GND 5 RELAY LO 4 RELAY HI 3 RELAY PASS 2 TTL PASS TTL FAIL 8 RELAY LO 7 RELAY HI 6 RELAY PASS

13 6.5 Hi, Go, Lo HI, PASS, LO PASS PASS TTL (a) Hi RELAY HI make TTL RELAY PASS/TTL PASS RELAY LO break Go break 6-4 break Lo break make TTL FAIL TTL (b) PASS ADC RELAY PASS TTL PASS TTL FAIL Lo Go Hi Lo Go Hi LGH LOP1 MIP1 HIP1 L L L H H H --H LOP0 MIP0 HIP1 H H L L L H -G- LOP0 MIP1 HIP0 H L H L H L L-- LOP1 MIP0 HIP0 L H H H L L L-H LOP1 MIP0 HIP1 L H L H L H LG- LOP1 MIP1 HIP0 L L H H H L -GH LOP0 MIP1 HIP1 H L L L H H --- LOP0 MIP0 HIP0 H H H L L L H: break HiL: make Low 6-13

14 P P (COMPARATEOR) TTL / ADC DO0 DO1 DO? DOSn DO0 DO1 5 TTL n(0 31) 5 10 TTL FAIL TTL PASS RELAY PASS RELAY HI RELAY LO TTL TTL DOS :H 1:L 0:H 1:L H: break HiL: make Low 0:H 1:L 0:H 1:L 0:H 1:L TTL FAIL TTL PASS RELAY PASS RELAY HI RELAY LO Hi Hi break break break DOS? DOS

15 P 6-6 SCPI :DOUTput:STATe {OFF ON} :DOUTput:STATe? :DOUTput:BITS {0-31} 5 TTL n(0 31) 5 10 TTL FAIL TTL PASS RELAY PASS RELAY HI RELAY LO TTL TTL :DOUTput:BITS :H 1:L 0:H 1:L H: break HiL: make Low 0:H 1:L 0:H 1:L 0:H 1:L TTL FAIL TTL PASS :DOUTput:BITS? 0 31 RELAY PASS RELAY HI RELAY LO Hi Hi break break break

16 MENU 8 I/F 2. LANG 3. SCPI/ADC/R6552 ENTER SCPI: SCPI GPIB ADC: (GPIB/USB) R6552: R A GPIB R R6552 R6552 R6552 E R6552 TRSn PTLn M0 M1 M? ITPn LIT str ITSn LIT? MSR? DSR? MSEn DSE str MSE? DSE? QSR? SL n QSEn SL? QSE? Z *PSCn 6-16

17 6.7.1 R6552 STP n RCLP n BZ n BZ? R6552 PR1 PR2 PR3 PR4 PR5 ADC FAST1 (0.02PLC) FAST2 (0.1PLC) MED (1PLC) SLOW1 (5PLC) SLOW2 (10PLC) R6552 FAST2 (0.1PLC) MED (1PLC) SLOW2 (10PLC) 6-17

18 S ±DDDD E±DD ±DDDD E±DD "," S ±DDDD E±DD, S ±DDDD E±DD, S E

19 6.7.2 DCV (DCV) ACV (ACV) R2W (2WΩ) R4W (4WΩ) DCI (DCI) ACI (ACI) ADV AC+DC (ACV(AC+DC)) ADI AC+DC (ACI(AC+DC)) DOD (Diode) R2L 2WΩ R4L 4WΩ RCT (Cont) FRQ (Freq) BDV DCV-Bch TC2 (TEMP-2W) C TC3 (TEMP-3W) C TC4 (TEMP-4W) C TF2 (TEMP-2W) F TF3 (TEMP-3W) F TF4 (TEMP-4W) F TK2 (TEMP-2W)K TK3 (TEMP-3W)K TK4 (TEMP-4W)K 6-19

20 6.7.2 O 1 O 1 E Err D dbdbm 2 H HIGH 3 P GO 3 L LOW 3 M MAX 4 I MIN 4 B db 5 W dbm 5 S 6 N NULL 7 _

21 A/61P ±E± 6 (OL) OVER db/dbm ± E+37 ± E+36 ± E A ±E± 5 (OL) OVER db/dbm ± E+37 ± E+36 ± E A/61P 7451A DCV 100 mv ±ddd.dddde-03 DCV 300 mv ±ddd.ddde mv ±dddd.ddde mv ±dddd.dde V ±dd.ddddde V ±dd.dddde V ±ddd.dddde V ±ddd.ddde V ±dddd.ddde V ±dddd.dde+00 ACV 100 mv ±ddd.dddde-03 ACV 300 mv ±ddd.ddde mv ±dddd.ddde mv ±dddd.dde V ±dd.ddddde V ±dd.dddde V ±ddd.dddde V ±ddd.ddde V ±dddd.ddde V ±dddd.dde+00 ACV(AC+DC) 100 mv ±ddd.dddde-03 ACV(AC+DC) 300 mv ±ddd.ddde mv ±dddd.ddde mv ±dddd.dde V ±dd.ddddde V ±dd.dddde V ±ddd.dddde V ±ddd.ddde V ±0ddd.dddE V ±0ddd.ddE

22 A/61P 7451A 2WΩ 2WΩ 30 Ω ±dd.dddde Ω ±ddd.dddde Ω ±ddd.ddde Ω ±dddd.ddde Ω ±dddd.dde kω ±dd.ddddde kω ±dd.dddde kω ±ddd.dddde kω ±ddd.ddde kω ±dddd.ddde kω ±dddd.dde MΩ ±dd.ddddde MΩ ±dd.dddde MΩ ±ddd.dddde MΩ ±ddd.ddde+06 4WΩ 4WΩ 30 Ω ±dd.dddde Ω ±ddd.dddde Ω ±ddd.ddde Ω ±dddd.ddde Ω ±dddd.dde kω ±dd.ddddde kω ±dd.dddde kω ±ddd.dddde kω ±ddd.ddde kω ±dddd.ddde kω ±dddd.dde MΩ ±dd.ddddde MΩ ±dd.dddde MΩ ±ddd.dddde MΩ ±ddd.ddde+06 DCI 1000 μa ±dddd.ddde-06 DCI 3000 μa ±dddd.dde ma ±dd.ddddde ma ±dd.dddde ma ±ddd.dddde ma ±ddd.ddde ma ±dddd.ddde ma ±dddd.dde-03 3 A ±0d.dddddE+00 ACI 1000 μa ±dddd.ddde-06 ACI 3000 μa ±dddd.dde ma ±dd.ddddde ma ±dd.dddde ma ±ddd.dddde ma ±ddd.ddde ma ±dddd.ddde ma ±dddd.dde-03 3 A ±0d.dddddE+00 ACI(AC+DC) 1000 μa ±dddd.ddde-06 ACI(AC+DC) 3000 μa ±dddd.dde ma ±dd.ddddde ma ±dd.dddde ma ±ddd.dddde ma ±ddd.ddde ma ±dddd.ddde ma ±dddd.dde-03 3 A ±0d.dddddE

23 A/61P FREQ (<10 Hz) (±d.ddddde+00) FREQ (<10 Hz) (±d.ddddde+00) (<100 Hz) (±dd.dddde+00) (<100 Hz) (±dd.dddde+00) (<1000 Hz) (±ddd.ddde+00) (<1000 Hz) (±ddd.ddde+00) (<10 khz) (±d.ddddde+03) (<10 khz) (±d.ddddde+03) (<100 khz) (±dd.dddde+03) (<100 khz) (±dd.dddde+03) (<1000 khz) (±ddd.ddde+03) (<1000 khz) (±ddd.ddde+03) LP-2WΩ 100 Ω ±ddd.dddde+00 LP-2WΩ 300 Ω ±ddd.ddde Ω ±dddd.ddde Ω ±dddd.dde kω ±dd.ddddde kω ±dd.dddde kω ±ddd.dddde kω ±ddd.ddde kω ±dddd.ddde kω ±dddd.dde MΩ ±dd.ddddde MΩ ±dd.dddde+06 LP-4WΩ 100 Ω ±ddd.dddde+00 LP-4WΩ 300 Ω ±ddd.ddde Ω ±dddd.ddde Ω ±dddd.dde kω ±dd.ddddde kω ±dd.dddde kω ±ddd.dddde kω ±ddd.ddde kω ±dddd.ddde kω ±dddd.dde MΩ ±dd.ddddde MΩ ±dd.dddde+06 DIODE 1 ±dddd.ddde-03 DIODE 1 ±dddd.dde-03 CONT 1 ±dddd.ddde+00 CONT 1 ±dddd.dde+00 TEMP 1 ±dddd.ddde+00 DCV-Bch HI-COM ±dd.ddddde+00 DCV-Bch HI-COM ±dd.dddde+00 DCV-Bch HI-LO ±dd.ddddde+00 DCV-Bch HI-LO ±dd.dddde+00 DCV-Bch RATIO ±d.dddddde±dd DCV-Bch RATIO ±d.ddddde±dd ±dd.ddddde±dd ±ddd.dddde±dd 7451A ( ): Func TEMP 7461P ±dd.dddde±dd ±ddd.ddde±dd 6-23

24 6.7.3 ADC ADC ADC *RST USB 20 msec F1 (DCV) F2 (ACV) F3 (2WΩ) F4 (4WΩ) F5 (DCI) F6 (ACI) F7 AC+DC (ACV(AC+DC)) F8 AC+DC (ACI(AC+DC)) F12 DCV-Bch F13 (Diode) F20 2WΩ F21 4WΩ F22 (Cont) F42 TEMP, 2 *7461P F43 TEMP, 3 *7461P F44 TEMP, 4 *7461P F50 (Freq) F? F01 F08F12 F13F20 F22F42 F44 F50 * 7461P * 7461P TPU0 C TPU1 F TPU2 K TPU? TPU0 TPU2 PT0 Pt100 PT1 JPt100 PT? PT0 PT1 6-24

25 6.7.3 ADC DCV-Bch * DCV-Bch (F12) SDV0 SDV1 SDV2 SDV? INH?n HI-COM HI-LO SDV0 SDV2 *TRG ST0 OFF ST1 ON ST? IRDn, m IRO? IRPO? IRNO? ICL n: ST0 ST1 n, m: (7451A/61A) (7461P) IRPOdddd (7451A/61A) IRPOddddd (7461P) IRNOdddd, dddd (7451A/61A) IRNO±ddddd, ±ddddd (7461P) IRNO0000, -001 (7451A/61A) IRNO+00000, (7461P) INI IDLE INIC0 CONTINUOUS OFF INIC1 CONTINUOUS ON INIC? INIC0 INIC1 ABO IDLE TRS0 IMMEDIATE TRS1 MANUAL TRS2 EXTERNAL TRS3 BUS TRS4 LEVEL TRS5 DELTA TRS? TRS0 TRS5 (0, 0) 6-25

26 6.7.3 ADC LEVEL TLVn n: A/61P n: A :1 TLV? TLS0 TLS1 TLS? TLV±ddddddd7461A/61P TLV±dddddd7451A NEGATIVE POSITIVE TLS0 TLS1 DELTA TDLn n: A/61P n: A :1 TDL? TDS0 TDS1 TDS2 TDS? TDC0 TDC1 TDC? TDLddddddd7461A/61P TDLdddddd7451A NEGATIVE POSITIVE BOTH TDS0 TDS2 CONVERGE EMISSION TDC0 TDC1 TRTn n:50 μs 3600 s7461a/61p n:200 μs 3600 s7451a (0) (1) (500ms) TRT? TRT+d.ddddddE±dd TRDn n: (0) TRD? TRD+d.ddddE±dd TRNn n: (1) 1 TRN? TRNddddd SPNn n: (1) SPN? SPNddddd 6-26

27 6.7.3 ADC LEVEL/DELTA PTL0 0% (OFF) PTL1 25% PTL2 50% PTL3 75% PTL? TRCM0 TRCM1 TRCM? CW0 CW1 CW? PTLd SINGLE MULTI TRCM0 TRCM1 5 μs 100 μs CW0 CW1 6-27

28 6.7.3 ADC 7461A/61P DCV ACV ACV (AC+DC) 2WΩ 4WΩ DCI ACI ACI (AC+DC) LP- 2WΩ LP- 4WΩ Freq R0 AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO R3 100 mv 100 mv 100 mv 100 Ω 100 Ω Ω 100 Ω (100 mv) R mv 1000 mv 1000 mv 1000 Ω 1000 Ω 1000 μa 1000 μa 1000 μa 1000 Ω 1000 Ω (1000 mv) R5 10 V 10 V 10 V 10 kω 10 kω 10 ma 10 ma 10 ma 10 kω 10 kω (10 V) R6 100 V 100 V 100 V 100 kω 100 kω 100 ma 100 ma 100 ma 100 kω 100 kω (100 V) R7 1000V 700 V 700 V 1000 kω 1000 kω 1000 ma 1000 ma 1000 ma 1000 kω 1000 kω (700 V) R MΩ 10 MΩ 3 A 3 A 3 A 10 MΩ 10 MΩ - R MΩ 100 MΩ R? R0, R3 R9 7451A DCV ACV ACV (AC+DC) 2WΩ 4WΩ DCI ACI ACI (AC+DC) LP- 2WΩ LP- 4WΩ Freq R0 AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO AUTO R Ω 30 Ω R3 300 mv 300 mv 300 mv 300 Ω 300 Ω Ω 300 Ω (300 mv) R mv 3000 mv 3000 mv 3000 Ω 3000 Ω 3000 μa 3000 μa 3000 μa 3000 Ω 3000 Ω (3000 mv) R5 30 V 30 V 30 V 30 kω 30 kω 30 ma 30 ma 30 ma 30 kω 30 kω (30 V) R6 300 V 300 V 300 V 300 kω 300 kω 300 ma 300 ma 300 ma 300 kω 300 kω (300 V) R V 700 V 700 V 3000 kω 3000 kω 3000 ma 3000 ma 3000 ma 3000 kω 3000 kω (700 V) R MΩ 30 MΩ MΩ 30 MΩ - R MΩ 300 MΩ R? R0, R2 R9 Fix RX AUTO MANUAL PR0 PR1 PR2 PR3 PR4 FREEPR0 FAST1 FAST2 PR1 MED SLOW1 PR5 PR? SLOW2 PR4 PR0 PR5 6-28

29 6.7.3 ADC *3 ITPn PLC 0.02 PLC 100 PLC *1 (10) ITP? ITSn ITS? ITP+d.ddddddE±dd 7461A/61P n: A n: ITS+d.ddddddE±dd (0.2) RE3 3 1/2 RE4 RE5 RE6 4 1/2 5 1/2 6 1/2 7461A/61P RE? RE3 RE6 7461A/61P RE3 RE5 7451A AC *2 FL1 FAST FL2 FL3 FL? MED SLOW FL1 FL3 AZ0 OFF AZ1 AZ2 AZ? ON ONCE OFF AZ0 AZ1 KOMn n:1 1000(Ω) 1 Ω (10) KOM? KOMdddd DCV IMP0 IMP1 HiZ 10 MΩ IMP? IMP0 IMP1 *1: (SI) (IT) *2: ACV, ACV(AC+DC), ACI, ACI(AC+DC) *3: 6-29

30 6.7.3 ADC 6-30 NULL NL0 OFF NL1 ON NL? NL0 NL1 KNLn NULL n: e E+67461A/61P n: e E+67451A : E-9 NULL OFF KNL? KNL±d.ddddddE±dd7461A/61P *3 KNL±d.dddddE±dd7451A SM0 OFF SM1 ON SM? SM0 SM1 TIn n:2 100 TI? TIddd SC0 OFF SC1 ON SC? SC0 SC1 KAn A 0 n: e E+67461A/61P n: e E+67451A : E-9 KBn B n: e E+67461A/61P n: e E+67451A : E-9 KCn C n: e E+67461A/61P n: e E+67451A : E-9 KAM A KBM B KCM C KA? KA±d.ddddddE±dd7461A/61P *3 KA±d.dddddE±dd7451A KB? KB±d.ddddddE±dd7461A/61P KB±d.dddddE±dd7451A *3: (0) (10) (1) (0) (1)

31 6.7.3 ADC KC? KC±d.ddddddE±dd7461A/61P KC±d.dddddE±dd7451A db/dbm DB0 db OFF DB1 db ON DB2 dbm ON DB? DB0 DB2 KDn D n: e E+67461A/61P n: e E+67451A (1) KDM D KD? KD±d.ddddddE±dd7461A/61P *3 KD±d.dddddE±dd7451A MAXMIN MN0 MAXMIN OFF MN1 MAXMIN ON MN? MN0 MN1 MAX? MAX *3 M ±d.dddddde±dd7461a/61p M ±d.ddddde±dd7451a MIN? MIN *3 I ±d.dddddde±dd7461a/61p I ±d.ddddde±dd7451a AVE? AVE *3 A ±d.dddddde±dd7461a/61p A ±d.ddddde±dd7451a AVN? *3 AVN±d.ddddddE±dd7461A/61P AVN±d.dddddE±dd7451A CO0 OFF CO1 CO? HIn *3: ON CO0 CO1 HIGH n: e E A/61P n: e E+67451A : E-9 (0) 6-31

32 6.7.3 ADC LOn LOW n: e E A/61P n: e E+67451A : E HIM LOM HI? LO? HIGH LOW HI±d.ddddddE±dd7461A/61P *3 HI±d.dddddE±dd7451A LO±d.ddddddE±dd7461A/61P *3 LO±d.dddddE±dd7451A LOP0 LO LOP1 LOP? MIP0 MIP1 MIP? HIP0 HIP1 HIP? SIRDn, m SIRD? SCNT? SMAX? SMIN? *3: LO LOP0 LOP1 GO GO MIP0 MIP1 HI HI HIP0 HIP1 n, m: (7451A/61A) n, m: (7461P) SIRDdddd, dddd (7451A/61A) SIRD±ddddd, ±ddddd (7461P) SIRD+0000, (7451A/61A) SIRD+00000, (7461P) SCNT+d.ddddddE+dd7461A/61P *3 SCNT+d.dddddE+dd7451A SMAX±d.ddddddE±dd7461A/61P *3 SMAX±d.dddddE±dd7451A SMIN±d.ddddddE±dd7461A/61P *3 SMIN±d.dddddE±dd7451A (0) (0, -1)

33 6.7.3 ADC SAVE? SAVE±d.ddddddE±dd7461A/61P *3 SAVE±d.dddddE±dd7451A *7461P SSIG? SPTP? DO0 DO1 DO? DOSn SSIG+d.ddddddE±dd7461A/61P *3 SSIG+d.dddddE±dd7451A 1 SSIG E A/61P SSIG E A MAX-MIN SPTP±d.ddddddE±dd7461A/61P *3 SPTP±d.dddddE±dd7451A DO0 DO1 5 TTL n(0 31) DOS0 TTL FAIL TTL TTL PASS TTL 9 1 RELAY PASS 2-6 RELAY HI 3-7 RELAY LO :H 1:L 0:H 1:L 0:H 1:L H: break HiL: make Low 0:H 1:L 0:H 1:L TTL FAIL TTL PASS RELAY PASS RELAY HI RELAY LO Hi Hi break break break DOS? DOS0 31 *3: 6-33

34 6.7.3 ADC BP0 OFF BP1 FAIL BP2 PASS BP? BP0 BP2 DS0 OFF DS1 ON DS? DS0 DS1 LF? LF050 Hz LF160 Hz *RST C *IDN? OID0 *IDN? *5 OID1 *IDN? OID? : OID0 OID1 *7461P *IDN? ADC Corp.,xxxxx,nnnnnnnnn,mmm xxxxx7451a, 7461A, 7461P nnnnnnnnn No. mmm No. C00 ADC,xxxxxxx,nnnnnnnnn,mmm xxxxxxxad7451a AD7461A nnnnnnnnn No. mmm No. H0 OFF *4 H1 ON H? H0 H1 DL0 DL1 DL2 DL? CR/LF+EOI LF EOI DL0 DL2 SRQ S1 SRQ S0 SRQ S? S0 S1 *4: EOI GPIB USB *5: C P 6-34

35 6.7.3 ADC *CLS *STB? *SREn *SRE? *ESR? *ESEn *ESE? MSR? MSEn MSE? QSR? QSEn QSE? OSR? OSEn OSE? ddd (SRER) n:0 255 bit6 ddd (SESR) ddd (SESER) n:0 255 ddd (MER) ddddd (MEER) n: ddddd (QER) ddddd (QEER) n: ddddd (OER) ddddd (OEER) n: ddddd *PSCn n: n 0 SRER SESER 0 SRER SESER *PSC? *OPC *OPC? *WAI 0 10 Operation complete (bit0) 1 GPIB 6-35

36 6.7.3 ADC *TST? 0 Pass 1 Fail CAL0 OFF CAL1 ON CAL? XOUT PCn XDTn CAL0 CAL1 OFF STD n:0 ± STD n:std XTERM? 0 1 CMNT "str" CMNT? "' 50 CMNT"xxxxxxx" *SAVn n:0 3 [n] SINI [0] [3] *RCLn n:0 3 [n] RINI ERR? 50 ±ddd,"xxxxxxxxxx" FIFO ,"Queue overflow" +000,"No error" 6-36

37 6.7.3 ADC IN0 IN1 IN? IN0 IN1 6-37

38 6.7.4 SCPI SCPI SCPI SCPI SCPI SCPI SCPI (, ) 3 (...) < 1>,...,< 4> < 1>,< 2>,< 3>, < 4> 4 :CALibration:CABLe:CAL:CABL < > [ ] {} 1 {..} < > { } ( ) (,) 6-38

39 6.7.4 SCPI {ON,1 OFF,0} ON1OFF0ON, 1, OFF, 04 [ ] [ ] <int_d> NR1NR2NR3 d <real_d> NR1NR2NR3 d <str> " <func> [:SENSe]:FUNCtion { } { } ( ) 1 (,) 3 () { 1},, { 4} { 1}, { 2}, { 3}, { 4} 4 B00 OFF (I/F-CONT) ON 6-39

40 6.7.4 SCPI SCPI DCV :MEASure? DCV ACV 2WΩ 4WΩ DCI ACI ACV(AC+DC) ACI(AC+DC) LP-2WΩ LP-4WΩ Freq TEMP *7461P DCV-Bch HI-COM DCV-Bch HI-LO DCV-Bch RATIO :MEASure:< >? < > VOLTage:DC VOLTage:AC RESistance FRESistance CURRent:DC CURRent:AC VOLTage:ACDC CURRent:ACDC DIODe RESistance:LPOWer FRESistance:LPOWer CONTinuity FREQuency TEMPerature VOLTage:BDC:BCOM VOLTage:BDC:B VOLTage:BDC:RATio :CONFigure:< > :CONFigure? "<func>,<real>", DCV [:SENSe]:FUNCtion "VOLTage:DC" "VOLT:DC" ACV "VOLTage:AC" "VOLT:AC" 2WΩ "RESistance" "RES" 4WΩ "FRESistance" "FRES" DCI "CURRent:DC" "CURR:DC" ACI "CURRent:AC" "CURR:AC" ACV(AC+DC) "VOLTage:ACDC" "VOLT:ACDC" ACI(AC+DC) "CURRent:ACDC" "CURR:ACDC" "DIODe" "DIOD" 6-40

41 6.7.4 SCPI LP-2WΩ "RESistance:LPOWer" "RES:LPOW" LP-4WΩ "FRESistance: LPOWer" "FRES:LPOW" "CONTinuity" "CONT" Freq "FREQuency" "FREQ" TEMP *7461P "TEMPerature" "TEMP" DCV-Bch HI-COM "VOLTage:BDC: BCOM" "VOLT:BDC:BCOM" DCV-Bch HI-LO "VOLTage:BDC:B" "VOLT:BDC:B" DCV-Bch RATIO "VOLTage:BDC: "VOLT:BDC:RAT" RATio" DCV-Bch *7461P *7461P SCPI *7461P [:SENSe]:< >:RANGe:AUTO {ON,1 OFF,0} {1 0} :UNIT:TEMPerature {C F K} {C F K} [:SENSe]:TEMPerature:TRANsducer:TYPE {RTD TRTD FRTD} RTD:2 TRTD:3 FRTD:4 {RTD TRTD FRTD} [:SENSe]:TEMPerature:TRANsducer:STANdard {PT100 JPT100} {PT100 JPT100} DCV ACV, ACV(AC+DC), Freq 2WΩ, 4WΩ [:SENSe]:< >:RANGe 0 750(V) DCI, ACI, ACI(AC+DC) LP-2WΩ, LP-4WΩ <real_6> (7461A/61P) <real_5> (7451A) DCV-Bch [:SENSe]:< >:SRATe {FREE SFASt FAST MED SLOW SSLow} [:SENSe]:< >:DIGits *3 [3 6 6] (7461A/61P) [3 5 5] (7451A) (PLC) {FREE SFAS FAST MED SLOW SSL} *1 <int_1> [:SENSe]:< >:NPLCycles [ ] *2 <real_6> [:SENSe]:< >:APERture [ ] (7461A/61P) [ ] (7451A) <real_6> *1: FREE *2: (SI) (IT) *3: 6-41

42 6.7.4 SCPI SCPI AC ACV, ACV(AC+DC), ACI, ACI(AC+DC) [:SENSe]:< >:FILTer {FAST MED SLOW} {FAST MED SLOW} [:SENSe]:ZERO:AUTO {ON,1 OFF,0 ONCE} {1 0} [:SENSe]:CONTinuity:THReshold [ ] <int_4> DCV :INPut:IMPedance:AUTO {ON,1 OFF,0} {1 0} (1:HiZ, 0:10 MΩ) 6-42

43 6.7.4 SCPI 2. SCPI NULL [:SENSe]:< >:REFerence:STATe {ON,1 OFF,0} {1 0} NULL NULL [:SENSe]:< >:REFerence [ E E+6] (7461A/61P) [ E E+6] (7451A) <real_6> (7461A/61P) <real_5> (7451A) :CALCulate:SMOothing {ON,1 OFF,0} {1 0} :CALCulate:SMOothing:POINts [ ] <int_3> :CALCulate:SCALing {ON,1 OFF,0} {1 0} A *4 B *4 C *4 :CALCulate:SCALing:A :CALCulate:SCALing:B :CALCulate:SCALing:C { [ E E+6] MEASurement} (7461A/61P) { [ E E+6] MEASurement} (7451A) MAX/MIN MAX/MIN :CALCulate:AVERage {ON,1 OFF,0} {1 0} <real_6> (7461A/61P) <real_5> (7451A) MAX :CALCulate:AVERage:MAXimum? MIN :CALCulate:AVERage:MINimum? AVE :CALCulate:AVERage:AVERage? :CALCulate:AVERage:COUNt? <real_6> (7461A/61P) <real_5> (7451A) :CALCulate:LIMit {ON,1 OFF,0} {1 0} HIGH *4 LOW *4 :CALCulate:LIMit:UPPer :CALCulate:LIMit:LOWer { [ E E+6] MEASurement} (7461A/61P){ [ E E+6] MEASurement} (7451A) LOW PASS :CALCulate:LIMit:PASS:LOWer {ON,1 OFF,0} {1 0} <real_6> (7461A/61P) <real_5> (7451A) *4: (MEASurement) 6-43

44 6.7.4 SCPI GO PASS HI PASS :CALCulate:LIMit:PASS:MED {ON,1 OFF,0} {1 0} :CALCulate:LIMit:PASS:UPPer {ON,1 OFF,0} {1 0} :CALCulate:LIMit:BEEPer {OFF FAIL PASS} {OFF FAIL PASS} :CALCulate:STATistics [ ], [ ] <int_4>,<int_4> :CALCulate:STATistics:COUNt? <real_6> (7461A/61P) :CALCulate:STATistics:MAXimum? <real_5> (7451A) MAX-MIN db/dbm SCPI :CALCulate:STATistics:MINimum? :CALCulate:STATistics:AVERage? CALCulate:STATistics:DEViation? CALCulate:STATistics:MAXMin? :CALCulate:DB {DB DBM OFF} {DB DBM OFF} D :CALCulate:DB:D {[ E E+6] MEASurement} (7461A/61P {[ E E+6] MEASurement} (7451A <real_6> (7461A/61P <real_5> (7451A *7461P :DOUTput:STATe {ON,1 OFF,0} {1 0} :DOUTput:BITS {0-31} P {0-31} 6-44

45 6.7.4 SCPI 3. SCPI :INITiate :INITiate:CONTinuous {ON,1 OFF,0} {1 0} :READ? :FETCh? :ABORt 1 :SAMPle:COUNt [ ] <int_4> :TRIGger:SOURce IMMediate IMM MANual MAN EXTernal BUS LEVel DELTa EXT BUS LEV DELT :TRIGger:COUNt [ ] <int_5> :TRIGger:DELay [ ] <real_4> :TRIGger:TIMer [ ] (7461A/61P) [ ] (7451A) LEVEL <real_6> :TSYStem:LEVel [ ] (7461A/61P) [ ] (7451A) <int_7> (7461A/61P) <int_6> (7451A) :TSYStem:LEVel:SLOPe {POSitive NEGative} {POS NEG} DELTA :TSYStem:DELTa [ ] (7461A/61P) [ ] (7451A) :TSYStem:DELTa:SLOPe {POSitive NEGative BOTH} :TSYStem:DELTa:DIRection {CONVergence EMISsion} <int_7> (7461A/61P) <int_6> (7451A) {POS NEG BOTH} CONV EMIS LEVEL/DELTA :TSYStem:PRETrigger { } { } 6-45

46 6.7.4 SCPI 4. SCPI :SYSTem:BEEPer:STATe {ON,1 OFF,0} {1 0} :SYSTem:ERRor? <int_3>,<str> SCPI :SYSTem:VERSion? <str> :SYSTem:GPIB:DELimiter:BLOCk {CRLF LF EOI} {CRLF LF EOI} [:SENSe]:LFRQency? :INHIbit:FUNCtion:< >? {0 1} 0: 1: :ROUTe:TERMinals {FRONt REAR} {FRON REAR} :DISPlay {ON,1 OFF,0} {1 0} :TRACe:STATe {ON,1 OFF,0} {1 0} :TRACe:CLEar :TRACe:NUMBer [ ],[ ] (7451A/61A) [ ],[ ] (7461P) :TRACe:DATA? :TRACe:DATA:NUMBer? <int_4>,<int_4> (7451A/61A) <int_5>,<int_5> (7461P) :TRACe:DATA:POINts? <int_5> :TRIGger:COMPlete SINGle MULTi SING MULT :TRIGger:COMPlete:WIDTh [ ] *IDN? :OIDentity C P {ON,1 OFF,0} OFF <real_6> {1 0} 6-46

47 6.7.4 SCPI 5. SCPI :STATus:OPERation:ENABle [ ] <int_5> :STATus:OPERation:EVENt? <int_5> :STATus:QUEStionable:ENABle [ ] <int_5> :STATus:QUEStionable:EVENt? <int_5> :STATus:MEASurement:ENABle n [ ] <int_5> :STATus:MEASurement:EVENt? <int_5> 6. IEEE USB SCPI *CLS *ESE { ] <int_3> *ESR? <int_3> *IDN? 6-34 *OPC 1 (bit0) *RST *SRE [ ] bit6 1 *STB? *TRG <int_3> <int_3> *TST? {0 1} 0: 1: *WAIGPIB 6-47

48 IEEE IEEE & 0 1 : : : & 1 : : : n-1 & n-1 n & n OR Summary *CLS AND OR 5 (STB) (SESR) (MER) (QER) (OER) 6-48

49 (1/2) 6-49

50 (2/2) 6-50

51 (SRER) : *SRE (SESER) : *ESE (MEER): MSE (QEER): QSE (OEER): OSE OSB MSS RQS ESB MAV QSB EVA 1 MSB 7 X MSS bit6 bit6 bit6 (MSS) RQS 6-51

52 6.7.5 bit0 5bit7 RQS RQS 0 0 RQSMSS *CLS SRQ (STB) bit 0 MSB Measurement Summary Bit ON: Measurement Event Register 1 Measurement Event Enable Register 1 1 OFF: Measurement Event Register EAV Error Available 3 QSB Questionable Summary Bit 4 MAV Message Available 5 ESB Standard Event Status 6 MSS Master Summary RQS Request Service 7 OSB Operation Summary Bit ON: Error Queue 1 OFF: Error Queue 0 ON: Questionable Event Register 1 Questionable Event Enable Register 1 1 OFF: Questionable Event Register 0 ON: 1 OFF: 0 ON: SESR 1 SESER 1 1 OFF: SESR (*ESR?) 0 ON: STB SRER 1 1 ON: MSS 1 SRQ RQS 1 OFF: STB 0 ON: Operation Event Register 1 Operation Event Enable Register 1 1 OFF: Operation Event Register

53 6.7.5 *CLS MAV *STB? PSC 1 *SRE0 6-53

54 (SESR) bit 0 OPC Operation Complete 1 0 ON: *OPC 1 2 QYE Query Error 3 DDE Device Dependent Error 4 EXE Execution Error 5 CME Command Error ON: 1 ON: 1 ON: 1 1 ON: PON Power On ON: OFF ON 1 *CLS *ESR? PSC 1 *ESE0 6-54

55 (MER) bit 0 FL FAIL 1 PS PASS ON: FAIL 1 ON: PASS EOM End of measure 9 EOS End of store 10 SM Smoothing complete 11 STAT Statistics complete ON: 1 ON: 1 ON: 1 ON: ELD End of Level/Delta 14 LDD Level/Delta Detected ON: ON: *CLS :STATus:MEASurement[:EVENt]?" MSR? :STATus:MEASurement:ENABle 0 MSE0 6-55

56 (QER) bit 0 Voltage Overload ON: OL 1 1 Current Overload ON: OL Frequency Overload ON: OL Summary of Calibration ON: ON SUM ON 1 9 Ohms Overload ON: OL Alarm ON: *CLS :STATus:QUEStionable[:EVENt]? QSR? :STATus:QUEStionable:ENABle 0 QSE0 6-56

57 (OER) bit Waiting for TRIG ON: Trigger Layer Idle ON: *CLS :STATus:OPERation[:EVENt]? OSR? :STATus:OPERation:ENABle 0 OSE0 6-57

58 GPIB USB USB USB GPIB FMV-5350ML3(OS:Windows98) NATIONAL INSTRUMENTS PCI-GPIB Niglobal.basVbib-32.basPCI-GPIB Microsoft Excel Visual Basic for Application 7461A 7451A 1 10 V 7461A 7461A GPIB 1 Dim DMM_ADR As Integer Dim dmm As Integer Dim dt As String * 100 DMM_ADR = 1 '7461A GPIB ' 'GPIB '7461A GPIB Call ibdev(0, DMM_ADR, 0, T10s, 1, 0, dmm) 'GPIB I/F Call ibconfig(dmm, IbcUnAddr, 1) ' Call ibwrt(dmm, "*RST" & Chr(10)) '7461A Call ibwrt(dmm, "H1" & Chr(10)) ' ON Call ibwrt(dmm, "F1" & Chr(10)) ' DCV Call ibwrt(dmm, "R5" & Chr(10)) ' 10 V Call ibwrt(dmm, "PR5" & Chr(10)) ' SLOW2 Call ibrd(dmm, dt) Cells(1, 1) = "'" & Left(dt, 18) Call ibonl(dmm, 0) ' ' ' A 7461A GPIB 1 Dim DMM_ADR As Integer Dim dmm As Integer Dim dt As String * 100 DMM_ADR = 1 '7461A GPIB ' 'GPIB '7461A GPIB Call ibdev(0, DMM_ADR, 0, T10s, 1, 0, dmm) 6-58

59 6.8 Call ibconfig(dmm, IbcUnAddr, 1) Call ibwrt(dmm, "*RST" & Chr(10)) Call ibwrt(dmm, "H1" & Chr(10)) Call ibwrt(dmm, "F3" & Chr(10)) Call ibwrt(dmm, "R4" & Chr(10)) Call ibwrt(dmm, "ITP1" & Chr(10)) Call ibwrt(dmm, "TRS3" & Chr(10)) Call ibwrt(dmm, "*CLS" & Chr(10)) Call ibwrt(dmm, "*TRG" & Chr(10)) 'GPIB I/F ' '7461A ' ON ' 2WΩ ' 1 kω ' 1 PLC ' ' ' Do ' Call ibwrt(dmm, "*STB?" & Chr(10)) ' Call ibrd(dmm, dt) ' dt dt = dt And 16 'bit4(mav) Loop While (dt <> 16) Call ibrd(dmm, dt) Cells(1, 1) = "'" & Left(dt, 18) Call ibonl(dmm, 0) ' ' ' 3 10 V 100 μs A GPIB 1 Dim DMM_ADR As Integer Dim dmm As Integer Dim dt As String * Dim s As Integer DMM_ADR = 1 '7461A GPIB ' 'GPIB ' '7461A GPIB Call ibdev(0, DMM_ADR, 0, T10s, 1, 0, dmm) 'GPIB I/F Call ibconfig(dmm, IbcUnAddr, 1) ' Call ibconfig(0, IbcAUTOPOLL, 0) ' Call ibwrt(dmm, "*RST" & Chr(10)) '7461A Call ibwrt(dmm, "H0" & Chr(10)) ' OFF Call ibwrt(dmm, "S0" & Chr(10)) 'SRQ Call ibwrt(dmm, "F1" & Chr(10)) ' DCV Call ibwrt(dmm, "R5" & Chr(10)) ' 10 V Call ibwrt(dmm, "TRS3" & Chr(10)) ' "BUS" Call ibwrt(dmm, "AZ0" & Chr(10)) ' Call ibwrt(dmm, "ITS0.0001" & Chr(10)) ' 100 μs Call ibwrt(dmm, "TRT0.0005" & Chr(10)) ' 500 μs Call ibwrt(dmm, "DS0" & Chr(10)) ' OFF Call ibwrt(dmm, "ST1" & Chr(10)) Call ibwrt(dmm, "ICL" & Chr(10)) ' ' 6-59

60 6.8 Call ibwrt(dmm, "SPN1000" & Chr(10)) ' Call ibwrt(dmm, "IRD0,999" & Chr(10)) ' (0 999) Call ibwrt(dmm, "*CLS" & Chr(10)) ' Call ibwrt(dmm, "MSE256" & Chr(10)) 'MSR Call ibwrt(dmm, "*SRE1" & Chr(10)) 'SRE Call ibwrt(dmm, "*TRG" & Chr(10)) Call ibwait(dmm, RQS Or TIMO) ' 'SRQ If (ibsta And TIMO) Then ' Call MsgBox("SRQ Time Out", vbokonly, "Error") ' Call ibwrt(dmm, "DS1" & Chr(10)) ' ON Call ibonl(dmm, 0) ' Exit Sub Else Call ibrsp(dmm, s) ' End If Call ibwrt(dmm, "IRO?" & Chr(10)) Call ibrd(dmm, dt) Cells(1, 1) = "'" & dt Call ibwrt(dmm, "DS1" & Chr(10)) Call ibonl(dmm, 0) ' ' ' ' ON ' GPIB 6-60

61 6.9 SCPI 6.9 SCPI GPIB FMV-5350ML3(OS:Windows98) GPIB NATIONAL INSTRUMENTS PCI-GPIB Niglobal.basVbib-32.basPCI-GPIB Microsoft Excel Visual Basic for Application 7461A 7451A 1 10 V D.U.T 7461A 7461A GPIB 1 Dim DMM_ADR As Integer Dim dmm As Integer Dim dt As String * 100 DMM_ADR = 1 '7461A GPIB ' 'GPIB '7461A GPIB Call ibdev(0, DMM_ADR, 0, T10s, 1, 0, dmm) 'GPIB I/F Call ibconfig(dmm, IbcUnAddr, 1) ' Call ibwrt(dmm, "*RST" & Chr(10)) '7461A Call ibwrt(dmm, ":SENSE:FUNCTION 'VOLTAGE:DC'" & Chr(10)) ' DCV Call ibwrt(dmm, ":SENSE:VOLTAGE:DC:RANGE 10" & Chr(10)) ' 10 V Call ibwrt(dmm, ":SENSE:VOLTAGE:DC:SRATE SSLOW" & Chr(10)) ' SLOW2 Call ibwrt(dmm, ":FETCH?" & Chr(10)) ' A01 *1 Call ibwrt(dmm, ":READ?" & Chr(10)) ' B00 *1 Call ibrd(dmm, dt) ' Cells(1, 1) = "'" & Left(dt, 13) Call ibonl(dmm, 0) ' ' *1: 6-61

62 6.9 SCPI A 7461A GPIB 1 Dim DMM_ADR As Integer Dim dmm As Integer Dim dt As String * 100 DMM_ADR = 1 '7461A GPIB ' 'GPIB '7461A GPIB Call ibdev(0, DMM_ADR, 0, T10s, 1, 0, dmm) 'GPIB I/F Call ibconfig(dmm, IbcUnAddr, 1) ' Call ibwrt(dmm, "*RST" & Chr(10)) '7461A Call ibwrt(dmm, ":SENSE:FUNCTION 'RESISTANCE'" & Chr(10)) ' 2WΩ Call ibwrt(dmm, ":SENSE:RESISTANCE:RANGE 1000" & Chr(10)) ' 1 kω Call ibwrt(dmm, ":SENSE:RESISTANCE:NPLCYCLES 1" & Chr(10)) ' 1 PLC Call ibwrt(dmm, ":TRIGGER:SOURCE BUS" & Chr(10)) ' Call ibwrt(dmm, ":INITIATE:CONTINUOUS ON" & Chr(10)) ' ON Call ibwrt(dmm, "*CLS" & Chr(10)) ' Call ibwrt(dmm, "*TRG" & Chr(10)) ' Do ' Call ibwrt(dmm, "*STB?" & Chr(10)) ' Call ibrd(dmm, dt) ' dt dt = dt And 16 'bit4(mav) Loop While (dt <> 16) Call ibwrt(dmm, ":FETCH?" & Chr(10)) ' Call ibrd(dmm, dt) ' Cells(1, 1) = "'" & Left(dt, 13) Call ibonl(dmm, 0) ' ' 6-62

63 6.9 SCPI 3 10 V 500 μs A GPIB 1 Dim DMM_ADR As Integer Dim dmm As Integer Dim dt As String * Dim s As Integer DMM_ADR = 1 '7461A GPIB ' 'GPIB ' '7461A GPIB Call ibdev(0, DMM_ADR, 0, T10s, 1, 0, dmm) 'GPIB I/F Call ibconfig(dmm, IbcUnAddr, 1) ' Call ibconfig(0, IbcAUTOPOLL, 0) ' Call ibwrt(dmm, "*RST" & Chr(10)) '7461A Call ibwrt(dmm, ":SENSE:FUNCTION 'VOLTAGE:DC'" & Chr(10)) ' DCV Call ibwrt(dmm, ":SENSE:VOLTAGE:DC:RANGE 10" & Chr(10)) ' 10V Call ibwrt(dmm, ":TRIGGER:SOURCE BUS" & Chr(10)) ' "BUS" Call ibwrt(dmm, ":INITIATE:CONTINUOUS ON" & Chr(10)) ' ON Call ibwrt(dmm, ":SENSE:ZERO:AUTO OFF" & Chr(10)) ' Call ibwrt(dmm, ":SENSE:VOLTAGE:DC:APERTURE 100E-6" & Chr(10)) ' 100 μs Call ibwrt(dmm, ":TRIGGER:TIMER 500E-6" & Chr(10)) ' 500 μs Call ibwrt(dmm, ":DIPLAY OFF" & Chr(10)) ' OFF Call ibwrt(dmm, ":TRACE:STATE ON" & Chr(10)) ' Call ibwrt(dmm, ":TRACE:CLEAR" & Chr(10)) ' Call ibwrt(dmm, ":SAMPLE:COUNT 1000" & Chr(10)) '1 (1000 ) Call ibwrt(dmm, ":TRACE:NUMBER 0,999" & Chr(10)) ' (0 999) Call ibwrt(dmm, "*CLS" & Chr(10)) ' Call ibwrt(dmm, ":STATUS:MEASUREMENT:ENABLE 256" & Chr(10)) 'MSR Call ibwrt(dmm, "*SRE 1" & Chr(10)) 'SRE Call ibwrt(dmm, "*TRG" & Chr(10)) Call ibwait(dmm, RQS Or TIMO) ' 'SRQ If (ibsta And TIMO) Then ' Call MsgBox("SRQ Time Out", vbokonly, "Error") ' 6-63

64 6.9 SCPI Call ibwrt(dmm, ":DIPLAY ON" & Chr(10)) ' ON Call ibonl(dmm, 0) ' Exit Sub Else Call ibrsp(dmm, s) ' End If Call ibwrt(dmm, ":TRACE:DATA?" & Chr(10)) ' Call ibrd(dmm, dt) ' Cells(1, 1) = "'" & dt ' Call ibwrt(dmm, ":DISPLAY ON" & Chr(10)) ' ON Call ibonl(dmm, 0) ' 6-64

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