| Product No | Primary nominal RMS current(A) | Measuring range(A) | Supply voltage (V) | Secondary output | Accuracy(%) | Output bandwidth | Operating Temp.(°C) | Copper busbar(mm) | PCB | Others |
|---|---|---|---|---|---|---|---|---|---|---|
| CR1V 6 PB00 | 6 | ±18 | 5 | 2.5±1.875V | ±0.7 | 100 | -40~85 | NA | + | |
 CR1V 6 PB00<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CR1V 6 PB01 | 6 | ±18 | 5 | 2.5±1.875V | ±0.7 | 200 | -40~85 | NA | + | |
 CR1V 6 PB01<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CR1V 15 PB00 | 15 | ±45 | 5 | 2.5±1.875V | ±0.7 | 100 | -40~85 | NA | + | |
 CR1V 15 PB00<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CR1V 15 PB01 | 15 | ±45 | 5 | 2.5±1.875V | ±0.7 | 200 | -40~85 | NA | + | |
 CR1V 15 PB01<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CN1A 25 PB00 | 25 | ±36 | ±15 | ±25mA | ±0.5 | 150 | -40~85 | NA | + | |
 CN1A 25 PB00<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CR1V 25 PB00 | 25 | ±75 | 5 | 2.5±1.875V | ±0.7 | 100 | -40~85 | NA | + | |
 CR1V 25 PB00<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CR1V 25 PB01 | 25 | ±75 | 5 | 2.5±1.875V | ±0.7 | 200 | -40~85 | NA | + | |
 CR1V 25 PB01<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CN2A 40 PB01 | 40 | ±110 | ±12...15 | ±20mA | ±0.5 | 200 | -40~85 | NA | + | |
 CN2A 40 PB01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:</li><li>IEC 60664-1:2020 IEC 61800-5-1:2022 IEC 62109-1:2010</li></ul> more... |
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| CS3A 50 P01 | 50 | ±90 | ±12...15 | ±50mA | ±0.3 | 150 | -40~85 | 13.5 x 10 mm | + | |
 CS3A 50 P01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CS3A 50 P51 | 50 | ±90 | ±12...15 | ±50mA | ±0.3 | 150 | -20~75 | 13.5 x 10 mm | + | |
 CS3A 50 P51<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CN2A 50 PB01 | 50 | ±110 | ±12...15 | ±25mA | ±0.5 | 200 | -40~85 | NA | + | |
 CN2A 50 PB01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CN2A 80 PB01 | 80 | ±160 | ±12...15 | ±40mA | ±0.5 | 200 | -40~85 | NA | + | |
 CN2A 80 PB01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CN2A 100 PB01 | 100 | ±160 | ±12...15 | ±50mA | ±0.5 | 200 | -40~85 | NA | + | |
 CN2A 100 PB01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CR1A 100 H00 | 100 | ±200 | ±12...15 | ±50mA | ±0.5 | 200 | -40~85 | Ø20.2 | ||
 CR1A 100 H00<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CR1A 100 H01 | 100 | ±200 | ±12...15 | ±50mA | ±0.5 | 200 | -40~85 | Ø20.2 | ||
 CR1A 100 H01<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CS3A 100 P00 | 100 | ±150 | ±12...15 | ±100mA | ±0.3 | 150 | -40~85 | 13.5 x 10 mm | + | |
 CS3A 100 P00<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CS3A 100 P01 | 100 | ±150 | ±12...15 | ±50mA | ±0.3 | 150 | -40~85 | 13.5 x 10 mm | + | |
 CS3A 100 P01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CS3A 125 P00 | 125 | ±200 | ±12...15 | ±100mA | ±0.3 | 150 | -40~85 | 13.5 x 10 mm | + | |
 CS3A 125 P00<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CR1A 200 H00 | 200 | ±400 | ±12...15 | ±50mA | ±0.5 | 150 | -40~85 | Ø20.2 | ||
 CR1A 200 H00<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CR1A 200 H01 | 200 | ±400 | ±12...15 | ±50mA | ±0.5 | 150 | -40~85 | Ø20.2 | ||
 CR1A 200 H01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CM1A 200 H00 | 200 | ±420 | ±12...15 | ±100mA | ±0.2 | 100 | -40~85 | Ø15.6 | ||
 CM1A 200 H00<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CR1A 300 H00 | 300 | ±500 | ±12...15 | ±50mA | ±0.5 | 200 | -40~85 | Ø20.2 | ||
 CR1A 300 H00<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CR1A 300 H01 | 300 | ±500 | ±12...15 | ±50mA | ±0.5 | 200 | -40~85 | Ø20.2 | ||
 CR1A 300 H01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CR1A 300 H02 | 300 | ±500 | ±12...15 | ±50mA | ±0.5 | 200 | -40~85 | Ø20.2 | ||
 CR1A 300 H02<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CM2A 300 H00 | 300 | ±500 | ±12...20 | ±150mA | ±0.3 | 100 | -40~85 | Ø20 | ||
 CM2A 300 H00<ul><li>Closed loop(compensated)current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion losses</li><li>Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010</li></ul> more... |
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| CR2A 400 H00 | 400 | ±600 | ±15...24 | ±100mA | ±0.5 | 100 | -40~85 | Ø35.0 | ||
 CR2A 400 H00<ul><li>Closed loop(compensated)current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| CR2A 500 H00 | 500 | ±800 | ±15...24 | ±100mA | ±0.5 | 100 | -40~85 | Ø35.0 | ||
 CR2A 500 H00<ul><li>Closed loop(compensated)current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| CM3A 500 H00 | 500 | ±800 | ±15...24 | ±100mA | ±0.5 | 100 | -40~85 | Ø30.2 | ||
 CM3A 500 H00<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CM3A 500 H01 | 500 | ±800 | ±15...24 | ±100mA | ±0.5 | 100 | -40~85 | Ø30.2 | ||
 CM3A 500 H01<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| CM4A 1000 H00 | 1000 | ±2100 | ±15...24 | ±200mA | ±0.3 | 150 | -40~85 | Ø38 | ||
 CM4A 1000 H00<ul><li>Closed loop(compensated)current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| CM4A 1000 H03 | 1000 | ±1800 | ±24 | ±300mA | ±0.4 | 150 | -40~85 | Ø38 | ||
 CM4A 1000 H03<ul><li>Closed loop(compensated)current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| CM4A 1000 H05 | 1000 | ±2100 | ±15...24 | ±200mA | ±0.3 | 150 | -40~85 | Ø38 | ||
 CM4A 1000 H05<ul><li>Closed loop(compensated)current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| CM5A 2000 H20 | 2000 | ±4250 | ±15...24 | ±400mA | ±0.3 | 150 | -40~85 | Ø57.5 | ||
 CM5A 2000 H20<ul><li>Closed loop (compensated) current sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>Very good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature</li><li>No insertion loss</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| HR1V 50 H01 | 50 | ±100 | ±12...15 | ±5V | ±1.0 | 20 | -40~85 | Ø20 | ||
 HR1V 50 H01<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| HR1V 100 H01 | 100 | ±200 | ±12...15 | ±5V | ±1.0 | 20 | -40~85 | Ø20 | ||
 HR1V 100 H01<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| HS1V 200 H00 | 200 | ±600 | ±12...15 | ±4V | ±1.0 | 50 | -40~85 | 20.4x10.5 mm | ||
 HS1V 200 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| HS1V 200 H05 | 200 | ±600 | ±12...15 | ±4V | ±1.0 | 50 | -40~85 | 20.4x10.5 mm | ||
 HS1V 200 H05<ul><li>Open loop sensor using the Hall Effect</li><li>Output voltage is proportional to supply voltage</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| HS2V 200 H00 | 200 | ±600 | ±15 | ±4V | ±1.0 | 25 | -40~85 | 40.5x32.5 mm | ||
 HS2V 200 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| HR1V 200 H01 | 200 | ±400 | ±12...15 | ±5V | ±1.0 | 20 | -40~85 | Ø20 | ||
 HR1V 200 H01<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| HS1V 300 H00 | 300 | ±900 | ±12...15 | ±4V | ±1.0 | 50 | -40~85 | 20.4x10.5 mm | ||
 HS1V 300 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| HS1V 300 H05 | 300 | ±900 | ±12...15 | ±4V | ±1.0 | 50 | -40~85 | 20.4x10.5 mm | ||
 HS1V 300 H05<ul><li>Open loop sensor using the Hall Effect</li><li>Output voltage is proportional to supply voltage</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| HR1V 300 H01 | 300 | ±600 | ±12...15 | ±5V | ±1.0 | 20 | -40~85 | Ø20 | ||
 HR1V 300 H01<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| HS1V 400 H00 | 400 | ±900 | ±12...15 | ±4V | +1.0 | 50 | -40~85 | 20.4x10.5 mm | ||
 HS1V 400 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| HR1V 400 H01 | 400 | ±800 | ±12...15 | ±5V | ±1.0 | 20 | -40~85 | Ø20 | ||
 HR1V 400 H01<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| HS2V 500 H00 | 500 | ±1500A | ±15 | ±4V | +1.0 | 25 | -40~85 | 40.5x32.5 mm | ||
 HS2V 500 H00<ul><li>Open loop sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HR1V 500 H01 | 500 | ±900 | ±12...15 | ±5V | +1.0 | 20 | -40~85 | Ø20 | ||
 HR1V 500 H01<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| HS1V 600 H00 | 600 | ±900 | ±12...15 | ±4V | +1.0 | 50 | -40~85 | 20.4x10.5 mm | ||
 HS1V 600 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HS2V 600 H00 | 600 | ±1800 | ±15 | ±4V | +1.0 | 25 | -40~85 | 40.5x32.5 mm | ||
 HS2V 600 H00<ul><li>Open loop sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HS3V 800 H00 | 800 | +2400 | ±15 | ±4V | +1.0 | 25 | -40~85 | 64 x 21 mm | ||
 HS3V 800 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HS2V 1000 H00 | 1000 | ±3000 | ±15 | ±4V | +1.0 | 25 | -40~85 | 40.5x32.5 mm | ||
 HS2V 1000 H00<ul><li>Open loop sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HS2V 1500 H00 | 1500 | ±3000 | ±15 | ±4V | ±1.0 | 25 | -40~85 | 40.5x32.5 mm | ||
 HS2V 1500 H00<ul><li>Open loop sensor using the Hall Effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL94-V0</li><li>No insertion loss</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HS3V 1500 H00 | 1500 | ±4500 | ±15 | ±4V | ±1.0 | 25 | -40~85 | 64 x 21 mm | ||
 HS3V 1500 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HS3V 2000 H00 | 2000 | ±5500 | ±15 | ±4V | ±1 | 25 | -40~85 | 64 x 21 mm | ||
 HS3V 2000 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| HS3V 3000 H00 | 3000 | ±5500 | ±15 | ±4V | ±1.0 | 25 | -40~85 | 64 x 21 mm | ||
 HS3V 3000 H00<ul><li>Open loop current sensor using the Hall effect</li><li>Galvanic separation between primary and secondary</li><li>Insulating plastic case recognized according to UL 94-V0</li><li>No insertion losses</li><li>Small size</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| AS1V 30 H05 | 30 | ±30 | 5 | 2.5±0.625V | +1 | 50 | -40~105 | 20.5x10.5 mm | ||
 AS1V 30 H05<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AN1V 50 PB20 | 50 | ±50 | 5 | 2.5±2V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 50 PB20<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| AN1V 50 PB21 | 50 | ±50 | 5 | 2.5±2V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 50 PB21<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards:</li><li>IEC 60664-1:2020</li><li>IEC 61800-5-1:2022</li><li>IEC 62109-1:2010</li></ul> more... |
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| AN1V 50 PB22 | 50 | 0~50 | 5 | 0.55+4V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 50 PB22<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 50 PB23 | 50 | 0~50 | 5 | 0.55+4V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 50 PB23<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 50 PB30 | 50 | ±50 | 3.3 | 1.65±1.32V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 50 PB30<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 50 PB31 | 50 | ±50 | 3.3 | 1.65±1.32V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 50 PB31<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AS1V 50 H00 | 50 | ±50 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5x10.5 mm | MOLEX 5045-04A | |
 AS1V 50 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 50 H01 | 50 | ±150 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5x10.5 mm | MOLEX 5045-04A | |
 AS1V 50 H01<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AN1V 100 PB20 | 100 | ±100 | 5 | 2.5±2V | ±1.0 | 250 | -40~105 | NA | + | |
 AN1V 100 PB20<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 100 PB21 | 100 | ±100 | 5 | 2.5±2V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 100 PB21<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 100 PB22 | 100 | 0-100 | 5 | 0.55+4V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 100 PB22<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 100 PB23 | 100 | 0-100 | 5 | 0.55+4V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 100 PB23<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 100 PB30 | 100 | ±100 | 3.3 | 1.65+1.32V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 100 PB30<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 100 PB31 | 100 | ±100 | 3.3 | 1.65±1.32V | ±1.0 | 250 | -40~150 | NA | + | |
 AN1V 100 PB31<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AS1V 100 H00 | 100 | ±100A | 5 | 2.5±2 | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 100 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 100 H01 | 100 | ±300 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 100 H01<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 100 H07 | 100 | ±100 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 100 H07<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AR1A 100 H00 | 100 | ±100 | ±12...15 | ±20mA | ±1.0 | 5 | -40~85 | Ø20.0 | ||
 AR1A 100 H00<ul><li>Open loop current sensor using the Hall effect.</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Nominal output current 20mA</li><li>Good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature.</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AR1A 100 H01 | 100 | ±100 | ±12...15 | ±100mA | ±1.0 | 5 | -40~85 | Ø20.0 | ||
 AR1A 100 H01<ul><li>Open loop current sensor using the Hall effect.</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Nominal output current 100mA</li><li>Good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature.</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AN1V 150 PB20 | 150 | ±150 | 5 | 2.5±2V | ±1.0 | 250 | -40~125 | NA | + | |
 AN1V 150 PB20<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 150 PB21 | 150 | ±150 | 5 | 2.5±2V | ±1.0 | 250 | -40~125 | NA | + | |
 AN1V 150 PB21<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 150 PB22 | 150 | 0-150 | 5 | 0.55+4V | ±1.0 | 250 | -40~125 | NA | + | |
 AN1V 150 PB22<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 150 PB23 | 150 | 0-150 | 5 | 0.55+4V | ±1.0 | 250 | -40~125 | NA | + | |
 AN1V 150 PB23<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 150 PB30 | 150 | ±150 | 3.3 | 1.65±1.32V | ±1.0 | 250 | -40~125 | NA | + | |
 AN1V 150 PB30<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 150 PB31 | 150 | ±150 | 3.3 | 1.65+1.32V | ±1.0 | 250 | -40~125 | NA | + | |
 AN1V 150 PB31<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 200 PB20 | 200 | ±200 | 5 | 2.5±2V | ±1.0 | 250 | -40~85 | NA | + | |
 AN1V 200 PB20<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 200 PB21 | 200 | ±200 | 5 | 2.5±2V | ±1.0 | 250 | -40~85 | NA | + | |
 AN1V 200 PB21<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 200 PB22 | 200 | 0-200 | 5 | 0.55+4V | ±1.0 | 250 | -40~85 | NA | + | |
 AN1V 200 PB22<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 200 PB23 | 200 | 0-200 | 5 | 0.55+4V | ±1.0 | 250 | -40~85 | NA | + | |
 AN1V 200 PB23<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 200 PB30 | 200 | ±200 | 3.3 | 1.65±1.32V | ±1.0 | 250 | -40~85 | NA | + | |
 AN1V 200 PB30<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AN1V 200 PB31 | 200 | ±200 | 3.3 | 1.65±1.32V | ±1.0 | 250 | -40~85 | NA | + | |
 AN1V 200 PB31<ul><li>Open loop current sensor using the Hall effect.</li><li>ASIC Technology.</li><li>Maintain output proportional to changes in the power supply(include offset and sensitivity).</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>No insertion losses.</li><li>Small size.</li><li>Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010</li></ul> more... |
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| AS1V 200 H00 | 200 | ±200 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5x10.5 mm | ||
 AS1V 200 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 200 H01 | 200 | ±600 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5x10.5 mm | ||
 AS1V 200 H01<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 200 H07 | 200 | ±200 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5x10.5 mm | ||
 AS1V 200 H07<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AR1A 200 H00 | 200 | ±200 | ±12...15 | ±20mA | ±1.0 | 5 | -40~85 | Ø20.0 | ||
 AR1A 200 H00<ul><li>Open loop current sensor using the Hall effect.</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Nominal output current 20mA</li><li>Good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature.</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AR1A 200 H01 | 200 | ±200 | ±12...15 | ±100mA | ±1.0 | 5 | -40~85 | Ø20 | ||
 AR1A 200 H01<ul><li>Open loop current sensor using the Hall effect.</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Nominal output current 100mA</li><li>Good linearity</li><li>High accuracy</li><li>Very low offset drift over temperature.</li><li>Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 300 H00 | 300 | ±300 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 300 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 300 H01 | 300 | ±900 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 300 H01<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 400 H00 | 400 | ±400 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 400 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 400 H01 | 400 | ±900 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 400 H01<p>Open loop current sensor using the Hall Effect.</p><ul><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 500 H00 | 500 | ±500 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 500 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 500 H01 | 500 | ±900 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 500 H01<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 600 H00 | 600 | ±600 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 600 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 600 H01 | 600 | ±900 | 5 | 2.5±0.625V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 600 H01<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 700 H00 | 700 | ±700 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 700 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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| AS1V 800 H00 | 800 | ±800 | 5 | 2.5±2V | ±1.0 | 50 | -40~105 | 20.5 x 10.5 mm | ||
 AS1V 800 H00<ul><li>Open loop current sensor using the Hall Effect.</li><li>Output voltage is proportional to the supply voltage</li><li>Galvanic separation between primary and secondary.</li><li>Insulating plastic case recognized according to UL 94-V0.</li><li>Supply voltage: +5V</li><li>No insertion loss.</li><li>Small size</li><li>Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010</li></ul> more... |
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