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Hioki High end power analyzer pw8001

The document outlines specifications and capabilities for a measurement system designed for evaluating power efficiency in various electrical devices, especially in high-performance applications like inverters. It highlights features such as automatic sensor identification, error reduction in measurements, and real-time data processing for a variety of power scenarios. The system also supports extensive functionalities for simultaneous analysis across multiple channels, thus enhancing accuracy and effectiveness in power analysis.

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1 5HOHDVH L +L KHVW FF UDF /DU HVW 1 PEHU RI &KD HOV 0D LP P )OH LELOLW
+L K DFF UDF PHDV UHPH W RI 6L& D1 L HUWHU ef ciency and reactor/transformer loss %DVLF DFF UDF FF UDF IRU & 3R HU 5HOHDVH L %DVLF DFF UDF IRU + 3R HU 6DPSOL IUHT H F 0+ & UHVRO WLR ELW 1 PEHU RI FKD HOV 0D FK Measurement frequency band & + WR 0+ 0D LP P L S W ROWD H 9 & 9 & Maximum rated line-to-ground voltage 9 & 7 ,,, 9 & 7 ,, Input module 8 For research evaluation and shipping L VSHFWLR V RI VRODU L HUWHUV 9 & 7 ,, PHDV UHPH W %DVLF DFF UDF IRU + 3R HU 6DPSOL IUHT H F 0+ & UHVRO WLR ELW 1 PEHU RI FKD HOV 0D FK Measurement frequency band & + WR 0+ 0D LP P L S W ROWD H 9 & 9 & Maximum rated line-to-ground voltage 9 & 9 & & 7 ,,, 9 & 9 & & 7 ,, Input module 8 .H IHDW UHV )URP 5 WR VKLSSL L VSHFWLR V – combine the input modules that suit your application *3 ,% L WHUIDFH 5 & L WHUIDFH *L DELW (W HU HW L WHUIDFH %1& V F L WHUIDFH :DYHIRUP RXWSXW RSWLR & 1 RU & 1 ) L WHUIDFH RSWLR 8 % L WHUIDFH IUR W & UUH W VH VRU WHUPL DOV +L K SHUIRUPD FH F UUH W VH VRU WHUPL DOV +L K SHUIRUPD FH F UUH W VH VRU WHUPL DOV &R HFW D RSWLR DO FXUUH W VH VRU S 7 H L VWUXPH W LOO DXWRPDWLFDOO LGH WLI D G SR HU W H VH VRU &R HFW D %1& W SH VH VRU VXF DV D FXUUH W SUREH RU &7 0RWRU 0RWRU 0RWRU 0RWRU DO H IR U PRWRUV VLP OWD HR VO RSWLR 2SWLFDO OL N L WHUIDFH RSWLR &K &K &K &K &K &K &K &K
Reliable reproduction of input waveforms with 15 MHz sampling and 18-bit resolution :LW XS WR WLPHV EHWWHU L VSHHG VDPSOL D G G DPLF UD H SHUIRUPD FH W H 3: WDNHV W H IOD V LS SRVLWLR L RXU OL HXS RI L DFFXUDF SR HU D DO HUV VHWWL H EH F PDUNV WR DFFXUDWHO analyze loads with large uctuations from high to miniscule power levels. .H IHDW UHV &RPEL H FR HFWLR V WR LPSOHPH W a diverse range of measurement capabilities. Automatic sensor identi cation and phase compensation* for more accurate and error-free measurements 7 H 3: FD DXWRPDWLFDOO DFTXLUH L IRUPDWLR DERXW FR HFWHG VH VRUV D G SHUIRUP S DVH FRUUHFWLR 7 LV FDSDELOLW VL LILFD WO UHGXFHV WLPH VSH W R SUH PHDVXUHPH W FR IL XUDWLR D G SURYLGHV UREXVW VXSSRUW IRU DFFXUDWH HUURU IUHH SR HU PHDVXUHPH W 0 OWL FLUF LW PHDV UHPH W RI S WR FKD HOV RI power data with a single instrument 0L D G PDWF W R DYDLODEOH X LW W SHV DFURVV R H WR HL W F D HOV WR create a single-instrument measurement system that’s ideally suited to RXU DSSOLFDWLR +LRNL LOO ODX F D XPEHU RI SURGXFWV W DW VXSSRUW W H PW8001’s automatic identi cation function 3OHDVH VHH S IRU GHWDLOHG L IRUPDWLR DERXW W H SURGXFW OL H Capture the slightest power loss with a wideband power measurement of world-class accuracy 7 H 3: LV H L HHUHG WR HOS RX DFFXUDWHO PHDVXUH PL XVFXOH losses in today’s increasingly efficient devices. In addition to 50/60 + IX GDPH WDO IUHTXH FLHV LW GHOLYHUV L DFFXUDF PHDVXUHPH W SHUIRUPD FH L & D G OR SR HU IDFWRU V LWF L IUHTXH F ED GV LF DUH LPSRUWD W L SR HU HOHFWUR LFV GHYLFHV
0RGHO RUGHU FRGH 0RWRU D DO VLV :DYHIRUP D G RXWSXW & 1 RU & 1 ) L WHUIDFH 2SWLFDO OL N L WHUIDFH 3: 3: HV 3: HV 3: HV 3: HV HV PW8001-06 HV HV 3: HV 3: HV HV 3: HV HV 3: HV HV 3: HV HV HV PW8001-16 HV HV HV &RPEL DWLR RI 2SWLR DO ) FWLR V .H IHDW UHV 6LP OWD HR VO D DO H PRWRUV LWK D VL OH L VWU PH W*1 7 H 3: FD VLPXOWD HRXVO PHDVXUH IRXU WRUTXH YDOXHV D G IRXU 530 YDOXHV DOOR L IRXU PRWRUV WR EH D DO HG LW D VL OH L VWUXPH W 7 LV FDSDELOLW LV H WUHPHO XVHIXO H D DO L V VWHPV W DW XVH PXOWLSOH PRWRUV IRU H DPSOH HOHFWULF YH LFOHV LW IRXU HHO PRX WHG PRWRUV /L N W R 3: LWV WR double the number of channels via optical link*1 % FR HFWL W R 3: V LW D RSWLFDO FDEOH RI XS WR P L OH W RX FD D UH DWH PHDVXUHPH W GDWD L UHDO WLPH R R H instrument. This setup can be used as a 16-channel power analyzer, allowing you to simultaneously analyze up to 16 channels of power data D G HL W PRWRUV LOH GLVSOD L D G UHFRUGL HIILFLH F D G ORVV FDOFXODWLR V R D VL OH L VWUXPH W ( WH VL H OL H S RI DFF UDWH F UUH W VH VRUV H DEOHV applications from HILS development to equipment evaluation & RRVH W H UL W FXUUH W VH VRUV IRU RXU DSSOLFDWLR V IURP D H WH VLYH VHOHFWLR W DW H DEOHV D LGH UD H RI RSWLPDO PHDVXUHPH W VROXWLR V & 1 RU & 1 ) R WS W H DEOHV WR L WH UDWH measurement data into existing CAN networks*1 7 H 3: FD RXWSXW PHDVXUHPH W GDWD WR D & 1 EXV DV & 1 RU & 1 ) VL DOV L UHDO WLPH % UHFRUGL (&8 GDWD D G PHDVXUHPH W GDWD R D & 1 EXV LW D & 1 EXV GDWD OR HU RX FD L WH UDWH GDWD LW RXW WLPH V LIWV RU GH UDGHG DFFXUDF H DEOL FRPSUH H VLYH HYDOXDWLR Clamp-type sensors can be af xed WR W H LUH TXLFNO D G HDVLO 7 HLU H FHSWLR DO H YLUR PH WDO SHUIRUPD FH PHD V W H FD EH XVHG L D EURDG UD H RI VHWWL V IURP +,/ GHYHORSPH W WR HTXLSPH W HYDOXDWLR +L K DFF UDF FODPS W SHV 3DVV W URX VH VRUV RIIHU W H XOWLPDWH OHYHO RI DFFXUDF ED G D G VWDELOLW %URDGED G PHDVXUHPH W RI XS WR 0+ D G W H DELOLW WR PHDVXUH ODU H FXUUH WV RI XS WR PDNH W HVH VH VRUV LGHDO IRU XVH L VWDWH RI W H DUW 5 +L K DFF UDF SDVV WKUR K W SHV 2XU SURSULHWDU &&7 PHW RG DOOR V RXU GLUHFW LUHG VH VRU WR GHOLYHU RUOG FODVV DFFXUDF D G ED G LGW High-accuracy direct-wired types 0 O 3 O
Evaluation of dual-inverter drive system performance Dual-inverter systems where each inverter drives a motor will increase reliability and ef ciency. The PW8001’s ability to measure eight F D HOV RI SR HU GDWD DFURVV D EURDG IUHTXH F ED G DFFXUDWHO D G LW H FHOOH W UHSURGXFLELOLW LV L O HIIHFWLYH H HYDOXDWL W H SHUIRUPD FH RI GXDO L YHUWHU V VWHPV Evaluation of solar inverter based power interchange systems 3R HU L WHUF D H V VWHPV W DW FD DFFRPPRGDWH ERW VWRUD H EDWWHULHV D G (9V LOO EH D PHW RG WR XVH H HU PRUH HIIHFWLYHO The PW8001’s ability to accurately and simultaneously measure power at multiple points, for example at DC-DC converter, inverter, and VWRUD H EDWWHU L SXWV D G RXWSXWV LV L O HIIHFWLYH H HYDOXDWL VRODU L YHUWHU SHUIRUPD FH Case studies
& UUH W VH VRU W SHV ,PD H WRPDWLF VH VRU detection Model Rated SULPDU F UUH W )UHT H F UD H %DVLF DFF UDF (amplitude) Conductor diameter 1R RI FKD HOV &DEOH OH WK 2SHUDWL WHPSHUDW UH UD H +L K DFF UDF direct FR HFWLR HV 3: UPV & WR 0+ UG I V M6 screw WHUPL DOV F & WR & ) WR ) HV 3: UPV & WR 0+ UG I V M6 screw WHUPL DOV F & WR & ) WR ) 8OWUD KL K DFF UDF SDVV WKUR K HV CT6904A UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6904A-1 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6904A-2 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6904A-3 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) +L K DFF UDF SDVV WKUR K CT6862-05 UPV & WR 0+ UG I V PP L P IW & WR & HV CT6872 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6872-01 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) CT6863-05 UPV & WR N+ UG I V PP L P IW & WR & ) WR ) HV CT6873 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6873-01 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6875A UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6875A-1 UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6876A UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6876A-1 UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6877A UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6877A-1 UPV & WR N+ UG I V PP L P IW & WR & ) WR ) +L K DFF UDF FODPS HV CT6841A UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6843A UPV & WR N+ UG I V PP L P IW & WR & ) WR ) HV CT6844A UPV & WR N+ UG I V PP L P IW & WR & ) WR ) HV CT6845A UPV & WR N+ UG I V PP (1.96 in.) P IW & WR & ) WR ) HV CT6846A UPV & WR N+ UG I V PP (1.96 in.) P IW & WR & ) WR ) H HUDO FODPS UPV UPV + WR N+ UG I V 46 mm L P IW & WR & ) WR ) & UUH W VH VRU OL H S
All information correct as of June 11, 2021. All speci cations are subject to change without notice. 0 W - 3 6 : N N , J NJ 6 EB /B B B B IUU T IJ J D N Model 3: 8 3: 8 3: 3: ,PD H SSOLFDWLR V )RU UHVHDUFK H DO DWLR RI SiC/GaN inverter ef ciency and UHDFWRU WUD VIRUPHU ORVV For research evaluation and shipping L VSHFWLR V RI IGBT inverters and VRODU L HUWHUV )RU UHVHDUFK H DO DWLR RI SiC inverter ef ciency and UHDFWRU WUD VIRUPHU ORVV For eld evaluation of IGBT inverters and VRODU L HUWHUV V U H W H P D U D S W H P H U V D H 0 0HDVXUHPH W OL HV S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : 0 9 3 : 0 S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : 0 9 3 : 0 S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : 0 9 3 : 0 S DVH LUH 3 : 1XPEHU RI SR HU PHDVXUHPH W F D HOV WR F D HOV SHFLI 8 RU 8 H SODFL D RUGHU 0L HG DYDLODEOH 1 to 6 channels SHFLI H RUGHUL F D HOV 0HDVXUHPH W IUHTXH F ED G & + WR 0+ & + WR 0+ & + WR 0+ & + WR N+ 9ROWD H FXUUH W & VDPSOL IUHTXH F 0+ 0+ 0+ N+ 9ROWD H FXUUH W & UHVROXWLR ELW 16-bit ELW 16-bit Basic accuracy for 50/60 Hz SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H FFXUDF IRU & SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H FFXUDF IRU N+ SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H FFXUDF IRU N+ SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H 9ROWD H UD H 6 V, 15 V, 30 V, 60 V, 150 V, 300 V, 600 V, 1500 V 6 V, 15 V, 30 V, 60 V, 150 V, 300 V, 600 V, 1500 V 15 V, 30 V, 60 V, 150 V, 300 V, 600 V, 1500 V &XUUH W UD H 100 mA to 2000 A (6 ranges, based on sensor) probe 1: 100 mA to 2000 A (6 ranges, based on sensor) SUREH P9 P9 P9 9 9 9 probe 1: 100 mA to 2000 A (6 ranges, based on sensor) SUREH P9 P9 P9 9 9 9 P WR (6 ranges, based on sensor) &RPPR PRGH YROWD H UHMHFWLR UDWLR 50/60 Hz: 120 dB or greater N+ G% RU UHDWHU 50/60 Hz: 100 dB or greater N+ G% W SLFDO 50/60 Hz: 100 dB or greater N+ G% RU UHDWHU 50/60 Hz: 80 dB RU UHDWHU Temperature coef cient & & & 9ROWD H L SXW PHW RG 3 RWRLVRODWHG L SXW UHVLVWRU YROWD H GLYLVLR ,VRODWHG L SXW UHVLVWRU YROWD H GLYLVLR 3 RWRLVRODWHG L SXW UHVLVWRU YROWD H GLYLVLR ,VRODWHG L SXW UHVLVWRU YROWD H GLYLVLR &XUUH W L SXW PHW RG ,VRODWHG L SXW IURP FXUUH W VH VRU ,VRODWHG L SXW IURP FXUUH W VH VRU ,VRODWHG L SXW IURP FXUUH W VH VRU ( WHU DO FXUUH W VH VRU L SXW HV 0( : HV 0( : %1& HV 0( : %1& HV 0( : 3R HU VXSSOLHG WR H WHU DO FXUUH W VH VRU HV HV HV DWD XSGDWH UDWH PV PV PV PV PV PV PV W S L H D W O R 9 0D LPXP L SXW YROWD H 9 9 & 9 & 9 9 0D LPXP UDWHG OL H WR URX G YROWD H 600 V CAT III 9 & 7 ,, 600 V AC, 1000 V DC CAT III 9 & 9 & & 7 ,, 600 V CAT III 9 & 7 ,, 600 V CAT III 9 & 7 ,, V L V O D 1XPEHU RI PRWRU D DO VLV F D HOV 0D LPXP PRWRUV 0D LPXP PRWRUV PRWRU 0RWRU D DO VLV L SXW IRUPDW DOR & IUHTXH F SXOVH DOR & IUHTXH F SXOVH DOR & IUHTXH F SXOVH R L W F ) &XUUH W VH VRU S DVH V LIW FDOFXODWLR HV DXWR HV HV +DUPR LFV PHDVXUHPH W HV IRU HDF F D HO Yes (6, for each channel) HV 0D LPXP DUPR LFV D DO VLV RUGHU W W W +DUPR LFV V F UR L DWLR IUHTXH F UD H + WR 0+ + WR 0+ + WR N+ + WR N+ ,(& DUPR LFV PHDVXUHPH W HV HV IEC icker measurement HV ))7 VSHFWUXP D DO VLV HV & WR 0+ HV & WR 0+ HV & WR 0+ HV & WR N+ User-de ned calculations HV HV HOWD FR YHUVLR HV Δ Δ HV Δ Δ HV Δ RXWSXW HV F DYHIRUP RXWSXW D DOR RXWSXW HV F DYHIRUP RXWSXW D DOR RXWSXW HV 16ch DYHIRUP RXWSXW D DOR RXWSXW D O S V L LVSOD :9* 7)7 FRORU /& :9* 7)7 FRORU /& :9* 7)7 FRORU /& 7RXF VFUHH HV HV H F D I U H W O ( WHU DO VWRUD H PHGLD 8 % 8 % 8 % &) FDUG / 1 % ( 7 % ( 7 HV HV HV % ( 7 D G % ( 7 R O *3 ,% HV HV 5 & HV PD LPXP ESV HV PD LPXP ESV HV PD LPXP ESV ( WHU DO FR WURO HV HV HV F UR L DWLR RI PXOWLSOH L VWUXPH WV HV XS WR L VWUXPH WV HV XS WR L VWUXPH WV 2SWLFDO OL N HV HV & 1 RU & 1 ) HV 3R HU VXSSO 9 & WR 9 & (50/60 Hz) 9 & WR 9 & (50/60 Hz) 9 & WR 9 & (50/60 Hz) LPH VLR V :HL W : + 430 mm (16.93 in.) × 221 mm (8.70 in.) × 362 mm (14.25 in.) N R 430 mm (16.93 in.) × 177 mm (6.97 in.) × 450 mm (17.72 in.) N R PP L mm (6.69 in.) × 156 PP (6.14 in.) 4.6 kg (162.26 oz.) 3R HU D DO HU OL H S 0 O 3 O 8 8

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Hioki High end power analyzer pw8001

  • 1.
    1 5HOHDVH L +L KHVWFF UDF /DU HVW 1 PEHU RI &KD HOV 0D LP P )OH LELOLW
  • 2.
    +L K DFFUDF PHDV UHPH W RI 6L& D1 L HUWHU ef ciency and reactor/transformer loss %DVLF DFF UDF FF UDF IRU & 3R HU 5HOHDVH L %DVLF DFF UDF IRU + 3R HU 6DPSOL IUHT H F 0+ & UHVRO WLR ELW 1 PEHU RI FKD HOV 0D FK Measurement frequency band & + WR 0+ 0D LP P L S W ROWD H 9 & 9 & Maximum rated line-to-ground voltage 9 & 7 ,,, 9 & 7 ,, Input module 8 For research evaluation and shipping L VSHFWLR V RI VRODU L HUWHUV 9 & 7 ,, PHDV UHPH W %DVLF DFF UDF IRU + 3R HU 6DPSOL IUHT H F 0+ & UHVRO WLR ELW 1 PEHU RI FKD HOV 0D FK Measurement frequency band & + WR 0+ 0D LP P L S W ROWD H 9 & 9 & Maximum rated line-to-ground voltage 9 & 9 & & 7 ,,, 9 & 9 & & 7 ,, Input module 8 .H IHDW UHV )URP 5 WR VKLSSL L VSHFWLR V – combine the input modules that suit your application *3 ,% L WHUIDFH 5 & L WHUIDFH *L DELW (W HU HW L WHUIDFH %1& V F L WHUIDFH :DYHIRUP RXWSXW RSWLR & 1 RU & 1 ) L WHUIDFH RSWLR 8 % L WHUIDFH IUR W & UUH W VH VRU WHUPL DOV +L K SHUIRUPD FH F UUH W VH VRU WHUPL DOV +L K SHUIRUPD FH F UUH W VH VRU WHUPL DOV &R HFW D RSWLR DO FXUUH W VH VRU S 7 H L VWUXPH W LOO DXWRPDWLFDOO LGH WLI D G SR HU W H VH VRU &R HFW D %1& W SH VH VRU VXF DV D FXUUH W SUREH RU &7 0RWRU 0RWRU 0RWRU 0RWRU DO H IR U PRWRUV VLP OWD HR VO RSWLR 2SWLFDO OL N L WHUIDFH RSWLR &K &K &K &K &K &K &K &K
  • 3.
    Reliable reproduction ofinput waveforms with 15 MHz sampling and 18-bit resolution :LW XS WR WLPHV EHWWHU L VSHHG VDPSOL D G G DPLF UD H SHUIRUPD FH W H 3: WDNHV W H IOD V LS SRVLWLR L RXU OL HXS RI L DFFXUDF SR HU D DO HUV VHWWL H EH F PDUNV WR DFFXUDWHO analyze loads with large uctuations from high to miniscule power levels. .H IHDW UHV &RPEL H FR HFWLR V WR LPSOHPH W a diverse range of measurement capabilities. Automatic sensor identi cation and phase compensation* for more accurate and error-free measurements 7 H 3: FD DXWRPDWLFDOO DFTXLUH L IRUPDWLR DERXW FR HFWHG VH VRUV D G SHUIRUP S DVH FRUUHFWLR 7 LV FDSDELOLW VL LILFD WO UHGXFHV WLPH VSH W R SUH PHDVXUHPH W FR IL XUDWLR D G SURYLGHV UREXVW VXSSRUW IRU DFFXUDWH HUURU IUHH SR HU PHDVXUHPH W 0 OWL FLUF LW PHDV UHPH W RI S WR FKD HOV RI power data with a single instrument 0L D G PDWF W R DYDLODEOH X LW W SHV DFURVV R H WR HL W F D HOV WR create a single-instrument measurement system that’s ideally suited to RXU DSSOLFDWLR +LRNL LOO ODX F D XPEHU RI SURGXFWV W DW VXSSRUW W H PW8001’s automatic identi cation function 3OHDVH VHH S IRU GHWDLOHG L IRUPDWLR DERXW W H SURGXFW OL H Capture the slightest power loss with a wideband power measurement of world-class accuracy 7 H 3: LV H L HHUHG WR HOS RX DFFXUDWHO PHDVXUH PL XVFXOH losses in today’s increasingly efficient devices. In addition to 50/60 + IX GDPH WDO IUHTXH FLHV LW GHOLYHUV L DFFXUDF PHDVXUHPH W SHUIRUPD FH L & D G OR SR HU IDFWRU V LWF L IUHTXH F ED GV LF DUH LPSRUWD W L SR HU HOHFWUR LFV GHYLFHV
  • 4.
    0RGHO RUGHU FRGH0RWRU D DO VLV :DYHIRUP D G RXWSXW & 1 RU & 1 ) L WHUIDFH 2SWLFDO OL N L WHUIDFH 3: 3: HV 3: HV 3: HV 3: HV HV PW8001-06 HV HV 3: HV 3: HV HV 3: HV HV 3: HV HV 3: HV HV HV PW8001-16 HV HV HV &RPEL DWLR RI 2SWLR DO ) FWLR V .H IHDW UHV 6LP OWD HR VO D DO H PRWRUV LWK D VL OH L VWU PH W*1 7 H 3: FD VLPXOWD HRXVO PHDVXUH IRXU WRUTXH YDOXHV D G IRXU 530 YDOXHV DOOR L IRXU PRWRUV WR EH D DO HG LW D VL OH L VWUXPH W 7 LV FDSDELOLW LV H WUHPHO XVHIXO H D DO L V VWHPV W DW XVH PXOWLSOH PRWRUV IRU H DPSOH HOHFWULF YH LFOHV LW IRXU HHO PRX WHG PRWRUV /L N W R 3: LWV WR double the number of channels via optical link*1 % FR HFWL W R 3: V LW D RSWLFDO FDEOH RI XS WR P L OH W RX FD D UH DWH PHDVXUHPH W GDWD L UHDO WLPH R R H instrument. This setup can be used as a 16-channel power analyzer, allowing you to simultaneously analyze up to 16 channels of power data D G HL W PRWRUV LOH GLVSOD L D G UHFRUGL HIILFLH F D G ORVV FDOFXODWLR V R D VL OH L VWUXPH W ( WH VL H OL H S RI DFF UDWH F UUH W VH VRUV H DEOHV applications from HILS development to equipment evaluation & RRVH W H UL W FXUUH W VH VRUV IRU RXU DSSOLFDWLR V IURP D H WH VLYH VHOHFWLR W DW H DEOHV D LGH UD H RI RSWLPDO PHDVXUHPH W VROXWLR V & 1 RU & 1 ) R WS W H DEOHV WR L WH UDWH measurement data into existing CAN networks*1 7 H 3: FD RXWSXW PHDVXUHPH W GDWD WR D & 1 EXV DV & 1 RU & 1 ) VL DOV L UHDO WLPH % UHFRUGL (&8 GDWD D G PHDVXUHPH W GDWD R D & 1 EXV LW D & 1 EXV GDWD OR HU RX FD L WH UDWH GDWD LW RXW WLPH V LIWV RU GH UDGHG DFFXUDF H DEOL FRPSUH H VLYH HYDOXDWLR Clamp-type sensors can be af xed WR W H LUH TXLFNO D G HDVLO 7 HLU H FHSWLR DO H YLUR PH WDO SHUIRUPD FH PHD V W H FD EH XVHG L D EURDG UD H RI VHWWL V IURP +,/ GHYHORSPH W WR HTXLSPH W HYDOXDWLR +L K DFF UDF FODPS W SHV 3DVV W URX VH VRUV RIIHU W H XOWLPDWH OHYHO RI DFFXUDF ED G D G VWDELOLW %URDGED G PHDVXUHPH W RI XS WR 0+ D G W H DELOLW WR PHDVXUH ODU H FXUUH WV RI XS WR PDNH W HVH VH VRUV LGHDO IRU XVH L VWDWH RI W H DUW 5 +L K DFF UDF SDVV WKUR K W SHV 2XU SURSULHWDU &&7 PHW RG DOOR V RXU GLUHFW LUHG VH VRU WR GHOLYHU RUOG FODVV DFFXUDF D G ED G LGW High-accuracy direct-wired types 0 O 3 O
  • 5.
    Evaluation of dual-inverterdrive system performance Dual-inverter systems where each inverter drives a motor will increase reliability and ef ciency. The PW8001’s ability to measure eight F D HOV RI SR HU GDWD DFURVV D EURDG IUHTXH F ED G DFFXUDWHO D G LW H FHOOH W UHSURGXFLELOLW LV L O HIIHFWLYH H HYDOXDWL W H SHUIRUPD FH RI GXDO L YHUWHU V VWHPV Evaluation of solar inverter based power interchange systems 3R HU L WHUF D H V VWHPV W DW FD DFFRPPRGDWH ERW VWRUD H EDWWHULHV D G (9V LOO EH D PHW RG WR XVH H HU PRUH HIIHFWLYHO The PW8001’s ability to accurately and simultaneously measure power at multiple points, for example at DC-DC converter, inverter, and VWRUD H EDWWHU L SXWV D G RXWSXWV LV L O HIIHFWLYH H HYDOXDWL VRODU L YHUWHU SHUIRUPD FH Case studies
  • 7.
    & UUH W VHVRU W SHV ,PD H WRPDWLF VH VRU detection Model Rated SULPDU F UUH W )UHT H F UD H %DVLF DFF UDF (amplitude) Conductor diameter 1R RI FKD HOV &DEOH OH WK 2SHUDWL WHPSHUDW UH UD H +L K DFF UDF direct FR HFWLR HV 3: UPV & WR 0+ UG I V M6 screw WHUPL DOV F & WR & ) WR ) HV 3: UPV & WR 0+ UG I V M6 screw WHUPL DOV F & WR & ) WR ) 8OWUD KL K DFF UDF SDVV WKUR K HV CT6904A UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6904A-1 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6904A-2 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6904A-3 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) +L K DFF UDF SDVV WKUR K CT6862-05 UPV & WR 0+ UG I V PP L P IW & WR & HV CT6872 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6872-01 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) CT6863-05 UPV & WR N+ UG I V PP L P IW & WR & ) WR ) HV CT6873 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6873-01 UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6875A UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6875A-1 UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6876A UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6876A-1 UPV & WR 0+ UG I V 36 mm L P IW & WR & ) WR ) HV CT6877A UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6877A-1 UPV & WR N+ UG I V PP L P IW & WR & ) WR ) +L K DFF UDF FODPS HV CT6841A UPV & WR 0+ UG I V PP L P IW & WR & ) WR ) HV CT6843A UPV & WR N+ UG I V PP L P IW & WR & ) WR ) HV CT6844A UPV & WR N+ UG I V PP L P IW & WR & ) WR ) HV CT6845A UPV & WR N+ UG I V PP (1.96 in.) P IW & WR & ) WR ) HV CT6846A UPV & WR N+ UG I V PP (1.96 in.) P IW & WR & ) WR ) H HUDO FODPS UPV UPV + WR N+ UG I V 46 mm L P IW & WR & ) WR ) & UUH W VH VRU OL H S
  • 8.
    All information correctas of June 11, 2021. All speci cations are subject to change without notice. 0 W - 3 6 : N N , J NJ 6 EB /B B B B IUU T IJ J D N Model 3: 8 3: 8 3: 3: ,PD H SSOLFDWLR V )RU UHVHDUFK H DO DWLR RI SiC/GaN inverter ef ciency and UHDFWRU WUD VIRUPHU ORVV For research evaluation and shipping L VSHFWLR V RI IGBT inverters and VRODU L HUWHUV )RU UHVHDUFK H DO DWLR RI SiC inverter ef ciency and UHDFWRU WUD VIRUPHU ORVV For eld evaluation of IGBT inverters and VRODU L HUWHUV V U H W H P D U D S W H P H U V D H 0 0HDVXUHPH W OL HV S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : 0 9 3 : 0 S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : 0 9 3 : 0 S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : S DVH LUH 3 : 0 9 3 : 0 S DVH LUH 3 : 1XPEHU RI SR HU PHDVXUHPH W F D HOV WR F D HOV SHFLI 8 RU 8 H SODFL D RUGHU 0L HG DYDLODEOH 1 to 6 channels SHFLI H RUGHUL F D HOV 0HDVXUHPH W IUHTXH F ED G & + WR 0+ & + WR 0+ & + WR 0+ & + WR N+ 9ROWD H FXUUH W & VDPSOL IUHTXH F 0+ 0+ 0+ N+ 9ROWD H FXUUH W & UHVROXWLR ELW 16-bit ELW 16-bit Basic accuracy for 50/60 Hz SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H FFXUDF IRU & SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H FFXUDF IRU N+ SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H FFXUDF IRU N+ SR HU RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H RI UHDGL RI UD H 9ROWD H UD H 6 V, 15 V, 30 V, 60 V, 150 V, 300 V, 600 V, 1500 V 6 V, 15 V, 30 V, 60 V, 150 V, 300 V, 600 V, 1500 V 15 V, 30 V, 60 V, 150 V, 300 V, 600 V, 1500 V &XUUH W UD H 100 mA to 2000 A (6 ranges, based on sensor) probe 1: 100 mA to 2000 A (6 ranges, based on sensor) SUREH P9 P9 P9 9 9 9 probe 1: 100 mA to 2000 A (6 ranges, based on sensor) SUREH P9 P9 P9 9 9 9 P WR (6 ranges, based on sensor) &RPPR PRGH YROWD H UHMHFWLR UDWLR 50/60 Hz: 120 dB or greater N+ G% RU UHDWHU 50/60 Hz: 100 dB or greater N+ G% W SLFDO 50/60 Hz: 100 dB or greater N+ G% RU UHDWHU 50/60 Hz: 80 dB RU UHDWHU Temperature coef cient & & & 9ROWD H L SXW PHW RG 3 RWRLVRODWHG L SXW UHVLVWRU YROWD H GLYLVLR ,VRODWHG L SXW UHVLVWRU YROWD H GLYLVLR 3 RWRLVRODWHG L SXW UHVLVWRU YROWD H GLYLVLR ,VRODWHG L SXW UHVLVWRU YROWD H GLYLVLR &XUUH W L SXW PHW RG ,VRODWHG L SXW IURP FXUUH W VH VRU ,VRODWHG L SXW IURP FXUUH W VH VRU ,VRODWHG L SXW IURP FXUUH W VH VRU ( WHU DO FXUUH W VH VRU L SXW HV 0( : HV 0( : %1& HV 0( : %1& HV 0( : 3R HU VXSSOLHG WR H WHU DO FXUUH W VH VRU HV HV HV DWD XSGDWH UDWH PV PV PV PV PV PV PV W S L H D W O R 9 0D LPXP L SXW YROWD H 9 9 & 9 & 9 9 0D LPXP UDWHG OL H WR URX G YROWD H 600 V CAT III 9 & 7 ,, 600 V AC, 1000 V DC CAT III 9 & 9 & & 7 ,, 600 V CAT III 9 & 7 ,, 600 V CAT III 9 & 7 ,, V L V O D 1XPEHU RI PRWRU D DO VLV F D HOV 0D LPXP PRWRUV 0D LPXP PRWRUV PRWRU 0RWRU D DO VLV L SXW IRUPDW DOR & IUHTXH F SXOVH DOR & IUHTXH F SXOVH DOR & IUHTXH F SXOVH R L W F ) &XUUH W VH VRU S DVH V LIW FDOFXODWLR HV DXWR HV HV +DUPR LFV PHDVXUHPH W HV IRU HDF F D HO Yes (6, for each channel) HV 0D LPXP DUPR LFV D DO VLV RUGHU W W W +DUPR LFV V F UR L DWLR IUHTXH F UD H + WR 0+ + WR 0+ + WR N+ + WR N+ ,(& DUPR LFV PHDVXUHPH W HV HV IEC icker measurement HV ))7 VSHFWUXP D DO VLV HV & WR 0+ HV & WR 0+ HV & WR 0+ HV & WR N+ User-de ned calculations HV HV HOWD FR YHUVLR HV Δ Δ HV Δ Δ HV Δ RXWSXW HV F DYHIRUP RXWSXW D DOR RXWSXW HV F DYHIRUP RXWSXW D DOR RXWSXW HV 16ch DYHIRUP RXWSXW D DOR RXWSXW D O S V L LVSOD :9* 7)7 FRORU /& :9* 7)7 FRORU /& :9* 7)7 FRORU /& 7RXF VFUHH HV HV H F D I U H W O ( WHU DO VWRUD H PHGLD 8 % 8 % 8 % &) FDUG / 1 % ( 7 % ( 7 HV HV HV % ( 7 D G % ( 7 R O *3 ,% HV HV 5 & HV PD LPXP ESV HV PD LPXP ESV HV PD LPXP ESV ( WHU DO FR WURO HV HV HV F UR L DWLR RI PXOWLSOH L VWUXPH WV HV XS WR L VWUXPH WV HV XS WR L VWUXPH WV 2SWLFDO OL N HV HV & 1 RU & 1 ) HV 3R HU VXSSO 9 & WR 9 & (50/60 Hz) 9 & WR 9 & (50/60 Hz) 9 & WR 9 & (50/60 Hz) LPH VLR V :HL W : + 430 mm (16.93 in.) × 221 mm (8.70 in.) × 362 mm (14.25 in.) N R 430 mm (16.93 in.) × 177 mm (6.97 in.) × 450 mm (17.72 in.) N R PP L mm (6.69 in.) × 156 PP (6.14 in.) 4.6 kg (162.26 oz.) 3R HU D DO HU OL H S 0 O 3 O 8 8