HK5V 600 H20

• Open loop sensor using the Hall Effect
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Double Hall design
• Open installation
• Battery pack current detection
• Smart power grid
• Standards:
• IEC 60664-1:2020
• IEC 62109-1:2010
• IEC 61800-5-1:2022

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HK5V 400 H20

• Open loop sensor using the Hall Effect
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Double Hall design
• Open installation
• Battery pack current detection
• Smart power grid
• Standards:
• IEC 60664-1:2020
• IEC 62109-1:2010
• IEC 61800-5-1:2022

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HK5V 200 H20

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Double Hall design
• Open installation
• Standards:
• IEC 60664-1:2020
• IEC 62109-1:2010
• IEC 61800-5-1:2022

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HK4V 5000 H00

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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HK4V 3000 H00

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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HK4V 2000 H00

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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CN1A 25 PB00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Industrial Hall effect current sensors for UPS

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HK3V 100 H20

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Double hall effect design
• Open mounting
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
•  IEC 62109-1:2010

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CS1V 100 P00

• Closed loop (compensated) multi-range current sensor using the Hall Effect 
• Voltage output 
• Unipolar supply voltage  5V 
• PCB-mount isolated current transducer for ac and dc up to 300A 
• Aperture for primary conductor
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards: 
• IEC 60664-1: 2020
• IEC 61800-5-1: 2022
• IEC 62109-1: 2010
• UL listed

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CS1V 80 P00

• Closed loop (compensated) multi-range current sensor using the Hall Effect 
• Voltage output 
• Unipolar supply voltage  5V 
• PCB-mount isolated current transducer for ac and dc up to 300A 
• Aperture for primary conductor
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:                                                                                           
• IEC 60664-1: 2020
• IEC 61800-5-1: 2022
• IEC 62109-1: 2010
• UL listed

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HK3V 50 H20

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Double hall effect design
• Open mounting
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

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HK3A 100 H20

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Output 12±8mA
• 12V（DC）Power supply
• Proportional output
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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VN4A 750 M15

• Closed loop (compensated) voltage sensor using the Hall Effect.
• Galvanic insulation between the primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Good linearity
• Very low offset drift over temperature
• Resistant to strong external interference
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010
• EN 50155:2017

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CN2A 40 PB01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:
• IEC 60664-1:2020  IEC 61800-5-1:2022  IEC 62109-1:2010
• Premium Made in China dc hall effect current tranducer

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CS3A 50 P01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• High quality good linearity ±0.05% PCB mount type Hall current sensor 

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CS3A 50 P51

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Closed loop Hall effect AC/DC current sensor 
• Output 30+IsmA AC/DC, power supply±12 V ~ ±15 V DC, primary busbar13.5x10.0mm

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CN2A 50 PB01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Measurement:Current Nominal Value:50A 
• Measuring Range:110A 
• Supply voltage range:12-15V 
• Accuracy:0.5% 
• Technology:Closed loop Hall effect 
• Mounting:PCB
  In the field of industrial applications, power electronic devices are essential for driving and control. 
• As electrical systems become more complex, the requirements for precise coordination among power semiconductors, 
• system controllers, mechanical components, and feedback units increase. 
• Sensors can then obtain the necessary information from the load and provide it to the system to achieve this function

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CN2A 80 PB01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Closed-loop current sensors perform exceptionally well in applications requiring high-precision measurement, 
• wide bandwidth and fast response times, and are suitable for industries such as manufacturing, energy and rail transit.

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CN2A 100 PB01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• A Hall current sensor measures electrical current indirectly by detecting the magnetic field it generates, using the Hall effect: current flows through a conductor (often a lead frame), creating a proportional magnetic field that a Hall element senses and converts into an isolated voltage output, providing non-intrusive measurement ideal for high currents and electrical isolation in applications like electric vehicles and industrial machines.

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CR1A 100 H00

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

High Accurate Hall Effect AC/DC Current Sensor  Output: 50 mA - 250 mA AC/DC, Power Supply: ±12 V ~ ±15 V DC, Window: Ø 23 mm, Connector: Screw
Hall effect current sensors are mainly used in industrial automation, telecommunications, public utilities, as well as in medical, aerospace, defense, consumer electronics, automotive, and railway industries for current monitoring, overcurrent fault detection, and power measurement. It features no insertion loss, low power consumption, compact package size, single/dual power supply, high precision, high sensitivity, electrical isolation and fast response time.

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CR1A 100 H01

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010
• Supply voltage  ±12V ±15V JK126-500-3P connection

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CS3A 100 P00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• High accuracy ±0.3% hall effect current tranducer primary busbar 13.5x10.0mm based on PCB mount type

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CS3A 100 P01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• High sensitivity, supply voltage ±12V ±15V best current sensor modules for hobbyist electronics projects

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CS3A 125 P00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• High bandwidth current sensor and low offset drift over temperature with Linearity ±0.05% Accuracy ±0.3 PCB installation hole Φ1.0mm

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CR1A 200 H00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

Magnetic Current sensors Suppliers Standard measured values: 200A
Accuracy: 0.5%
Measuring Range: 70A-500A
Supply Voltage: 12 - 15V
Secondary Signal : 100 mA

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CR1A 200 H01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• 200A hall effect analog current sensor very good linearity for measurements
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
•  

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CM1A 200 H00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Professional Frequency Broadband 200kHz Response time 0.5µs High-Frequency Transducers Primary hole Φ23.0mm Connection of secondary MOLEX 5045-04A

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CR1A 300 H00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Low Voltage Converter Low Current consumption High Accuracy Wide Input Output Range 100A-300A Current Transducer Primary hole Φ23.0mm Connection of secondary   JK126-500-3P

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CR1A 300 H01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• High Accurate Hall Effect AC/DC  through-hole type Current Sensor, Output: ±150 mA AC/DC, Power Supply: ±12 V ~ ±15 V DC, Window: Ø23 mm, Connector: Molex 5045-04A

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CR1A 300 H02

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Hall effect sensors analog circuit design measure Current Using Current Sensors
•  

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CM2A 300 H00

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010
• Hall Effect Current transducer supply voltage ±12 ±20V Input 300A ct Current Transformer dc Current Sensor

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CR2A 400 H00

• Closed loop（compensated）current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010Measuring Range 300A-500A Current Transducer Supplier Current Sensor Low Voltage ±15V ±24V,Response Time 0.5µs Ø35 mm

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CR2A 500 H00

• Closed loop（compensated）current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010
• Low Voltage High Accuracy Current Measurement Device 500A Closed-loop Current Sensors Connection Method JK126-500-3P

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CM3A 500 H00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Measures direct current flow, typically using the Hall effect (detecting magnetic fields) or a shunt resistor providing isolated, accurate readings for applications like renewable energy, electric vehicles, and power monitoring

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CM3A 500 H01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010
• Hall Current Measurement Device 500A Low Current Consumption Ambient Operating Temperature -40℃~85℃  Connection of Secondary JST B3P VH

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CM4A 1000 H00

• Closed loop（compensated）current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

Current Transducers Supplier high Voltage Measuring Range 1000A Closed-loop Current Sensors Primary Hole  Φ38mm
Comprehensive monitoring and control of the rail transit system have been achieved, providing data support for the application of intelligent driving.

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CM4A 1000 H03

• Closed loop（compensated）current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

High Accuracy Wide Applications Fileds Closed-loop Hall Effect Current Sensor 1000A  Supply Voltage ±24  Fast Response Time 0.5 µs
Monitor the health condition of the track and detect cracks, wear and deformation

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CM4A 1000 H05

• Closed loop（compensated）current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

Professional High-Frequency Transducer Supplier Supply Voltage ±15V ±24V High Linearity  ±0.1 Good Accuracy ±0.3 Primary Though Hole Φ38mm 
Improve the operational efficiency, safety and maintainability of the rail transit system

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CM5A 2000 H20

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

Hall Effect DC Current Measurement Device Current Transducer, 2000A input,  400 output,±15 ±24VDC supply, 57.5mm Aperture  
Up To 0.3% Accuracy Reliable

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HR1V 50 H01

• Open loop current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

DC Current Transducer Hall Effect adopts the hall effect to measure the AC and DC current of the power grid in real time.  Using precision constant current technology and linear temperature compensation technology, DC Current Transducer Hall Effect is converted to standard current output, and the characteristics of DC current general-purpose, strong overload capacity and high isolation.

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HR1V 100 H01

• Open loop current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

Current sensors rely on open-loop Hall effect technology. The sensors are designed and manufactured for use in a variety of industrial applications.

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HR1V 200 H01

• Open loop current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

Current transducers are devices that convert electrical current into a measurable signal, commonly used in various applications for monitoring and control.

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HR1V 300 H01

• Open loop current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

Directly measures the magnetic field with the Hall sensor and amplifies the voltage
Offering higher accuracy and dynamic range

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HR1V 400 H01

• Open loop current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

New and Original Customizable 50A 100A 200A 300A 400A 500A Hall Open Loop Current Sensor 400A  Ambient Operating Temperature -40℃~85℃

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HR1V 500 H01

• Open loop current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

What is Hall Effect Sensor
Hall current sensor is a current measurement device based on the Hall effect principle, featuring high precision and low drift. They indirectly measure current by measuring Hall potential and are suitable for various applications, such as motor control and power management. Hall current sensors can provide high working voltages and are suitable for various environmental conditions, ensuring precise measurements even under changes in temperature and time

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AS1V 30 H05

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

Current sensor with primary nominal rms current ±30A,Supply voltage 5V, Connection of secondary RVVP 3×0.3mm² Shielded wire，Cable length 1000 ±10 mm.

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AN1V 50 PB511

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

Hall effect sensors series manufactured by factory current sensor 50A 100A 150A 200A 300A for battery management

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AN1V 50 PB512

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

Applicable for both AC and DC current detection, offering an economical and precise solution. Typical applications include motor control, load detection and management, power supply and DC-DC converter control, inverter control, and overcurrent fault detection.

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AN1V 50 PB501

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

Current sensors combine precision measurement with built-in isolation for compact, high-efficiency designs. By replacing bulky shunt and amplifier setups, they simplify layouts, reduce heat, and enhance safety across automotive and industrial applications.

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AN1V 50 PB502

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

Current sensors deliver galvanic isolation, lossless operation, and high-precision accuracy—enabling maximum efficiency and power density in compact systems. Designed for EV traction and auxiliary inverters, DC-DC converters, on-board chargers, solar inverters, and industrial power systems.

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AN1V 50 PB311

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

50A 100A 150A 200A 250A 300A small size open loop current sensor unidirectional power supply voltage 3.3V Linearity ±1% Accuracy±1% for  PCB mounting

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AN1V 50 PB312

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

Supply voltage 3.3V high quality open loop current sensor with respect to applicable standards and safety Frequency bandwidth( 250KHz, Response time 2.5µs for wide applications in industry

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AS1V 50 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

High performance primary hole 20.5mm×10.5mm current sensor for EV HEV BMS Current Sensor for industrial electronic devices 50A 100A 200A 300A 400A 500A 600A700A 800A

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AS1V 50 H01

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

Industrial grade Bidirectional current 50A 100A 200A 300A 400A 500A 600Acurrent sensor electronic component Smart Current Sensor Real-time Monitoring Self-Calibration for AI Data Center IoT Industrial Internet

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AN1V 100 PB511

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

Current sensors are devices that detect and measure electric current flowing through a conductor, converting it into a quantifiable output for various applications

more...

AN1V 100 PB512

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

 Durable current sensor for industrial electronic devices,high power dc ac current sensor, fast response current sensor for industrial,isolated hall effect current sensor

more...

AN1V 100 PB501

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

Industrial grade current sensor,  power transducer，high sensitivity real-time monitoring for hybrid electric vehicle, powertrain, automotive electronics and circuit detection

more...

AN1V 100 PB502

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 100 PB311

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 100 PB312

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AS1V 100 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 100 H01

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 100 H07

Open loop current sensor using the Hall Effect
Galvanic separation between primary and secondary
Insulating plastic case recognized according to UL 94-V0
Supply voltage:+5V
No insertion loss
Small size
Standards:
IEC 60664-1:2020
IEC 61800-5-1:2022
IEC 62109-1:2010

more...

AR1A 100 H00

• Open loop current sensor using the Hall effect.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Nominal output current 20mA
• Good linearity
• High accuracy
• Very low offset drift over temperature.
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AR1A 100 H01

• Open loop current sensor using the Hall effect.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Nominal output current 100mA
• Good linearity
• High accuracy
• Very low offset drift over temperature.
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AN1V 150 PB511

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 150 PB512

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 150 PB501

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 150 PB502

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 150 PB311

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 150 PB312

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 200 PB511

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 200 PB512

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 200 PB501

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 200 PB502

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 200 PB311

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 200 PB312

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AS1V 200 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 200 H01

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 200 H07

Open loop current sensor using the Hall Effect
Galvanic separation between primary and secondary
Insulating plastic case recognized according to UL 94-V0
Supply voltage:+5V
No insertion loss
Small size
Standards:
IEC 60664-1:2020
IEC 61800-5-1:2022
IEC 62109-1:2010

more...

AR1A 200 H00

• Open loop current sensor using the Hall effect.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Nominal output current 20mA
• Good linearity
• High accuracy
• Very low offset drift over temperature.
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AR1A 200 H01

• Open loop current sensor using the Hall effect.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Nominal output current 100mA
• Good linearity
• High accuracy
• Very low offset drift over temperature.
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 300 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 300 H01

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 400 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 400 H01

Open loop current sensor using the Hall Effect.

• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 500 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 500 H01

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 600 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 600 H01

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 700 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AS1V 800 H00

• Open loop current sensor using the Hall Effect.
• Output voltage is proportional to the supply voltage
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Supply voltage: +5V
• No insertion loss.
• Small size
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

CR1V 75 PB05

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 6 PB02

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 6 PB03

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 6 PB04

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 15 PB02

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 15 PB03

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 15 PB04

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 25 PB02

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

HK3A 50 H20

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Output 12±8mA
• 12V（DC）Power supply
• Proportional output
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CR1V 25 PB04

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 50 PB03

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CR1V 50 PB04

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion losses
• Standards:IEC 60664-1: 2020, IEC 61800-5-1: 2022, IEC 62109-1: 2010

more...

CS3A 50 P00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CS3A 50 P21

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CS3A 100 P21

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CS3A 100 P51

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CN1A 25 PB01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AR1A 50 H00

• Open loop current sensor using the Hall effect.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Nominal output current 20mA
• Good linearity
• High accuracy
• Very low offset drift over temperature.
• Standards: EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AR1A 50 H01

• Open loop current sensor using the Hall effect.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• Nominal output current 100mA
• Good linearity
• High accuracy
• Very low offset drift over temperature.
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

more...

AN1V 300 PB501

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

AN1V 300 PB502

• Open loop current sensor using the Hall effect.
• ASIC Technology.
• Maintain output proportional to changes in the power supply（include offset and sensitivity）.
• Galvanic separation between primary and secondary.
• Insulating plastic case recognized according to UL 94-V0.
• No insertion losses.
• Small size.
• Standards: IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CN2A 25 PB02

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CN2A 40 PB02

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CN2A 50 PB02

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CR1A 50 H00

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CR1A 100 H02

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CR1A 100 H04

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CR1A 200 H02

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CR1A 200 H04

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CR1A 300 H04

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CM1A 100 H01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CM1A 200 H02

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

more...

CM4A 1000 H06

• Closed loop（compensated）current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:EN50178: 1997, IEC 61010-1: 2000, UL 508: 2010

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CM5A 2000 H01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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CM5A 2000 H21

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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CS3A 20 P01

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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CS3A 200 P21

• Closed loop (compensated) current sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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CS1V 200 P00

• Closed loop (compensated) multi-range current sensor using the Hall Effect 
• Voltage output 
• Unipolar supply voltage  5V 
• PCB-mount isolated current transducer for ac and dc up to 300A 
• Aperture for primary conductor
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:
• IEC 60664-1: 2020
• IEC 61800-5-1: 2022
• IEC 62109-1: 2010
• UL listed

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CS1V 150 P00

• Closed loop (compensated) multi-range current sensor using the Hall Effect 
• Voltage output 
• Unipolar supply voltage  5V 
• PCB-mount isolated current transducer for ac and dc up to 300A 
• Aperture for primary conductor
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards: 
• IEC 60664-1: 2020
• IEC 61800-5-1: 2022
• IEC 62109-1: 2010
• UL listed

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VN4A 2000 M15

• Closed loop (compensated) voltage sensor using the Hall Effect.
• Galvanic insulation between the primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Good linearity
• Very low offset drift over temperature
• Resistant to strong external interference
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010
• EN 50155:2017

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VN4A 1500 M15

• Closed loop (compensated) voltage sensor using the Hall Effect.
• Galvanic insulation between the primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Good linearity
• Very low offset drift over temperature
• Resistant to strong external interference
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010
• EN 50155:2017

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VN4A 500 M15

• Closed loop (compensated) voltage sensor using the Hall Effect.
•  Galvanic insulation between the primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Good linearity
• Very low offset drift over temperature
• Resistant to strong external interference
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010
• EN 50155:2017

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HK5V 1000 H20

• Open loop sensor using the Hall Effect
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Double Hall design
• Open installation
• Battery pack current detection
• Smart power grid
• Standards:
• IEC 60664-1:2020
• IEC 62109-1:2010
• IEC 61800-5-1:2022

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HK5V 800 H20

• Open loop sensor using the Hall Effect
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Double Hall design
• Open installation
• Battery pack current detection
• Smart power grid
• Standards:
• IEC 60664-1:2020
• IEC 62109-1:2010
• IEC 61800-5-1:2022

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HK1A 200 H00

• Open loop sensor using the Hall Effect
• Galvanic separation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:IEC 60664-1:2020, IEC 61800-5-1:2022, IEC 62109-1:2010

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CS1V 100 PB00

• Closed loop (compensated) multi-range current sensor using the Hall Effect 
• Voltage output 
• Unipolar supply voltage  5V 
• Integrated primary conductor for PCB soldering
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards: 
• IEC 60664-1: 2020
• IEC 61800-5-1: 2022
• IEC 62109-1: 2010
• UL listed

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CS1V 150 PB00

• Closed loop (compensated) multi-range current sensor using the Hall Effect 
• Voltage output 
• Unipolar supply voltage  5V 
• Integrated primary conductor for PCB soldering
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards: 
• IEC 60664-1: 2020
• IEC 61800-5-1: 2022
• IEC 62109-1: 2010
• UL listed

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CS1V 200 PB00

• Closed loop (compensated) multi-range current sensor using the Hall Effect 
• Voltage output 
• Unipolar supply voltage  5V 
• Integrated primary conductor for PCB soldering
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:
• IEC 60664-1: 2020
• IEC 61800-5-1: 2022
• IEC 62109-1: 2010
• UL listed

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CM9A 1500 H00

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic Insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

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CM9A 3500 H00

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic Insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

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CM9A 5000 H00

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic Insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

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CM9A 5000 H01

• Closed loop（compensated）current sensor using the Hall effect
• Galvanic Insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• Very good linearity
• High accuracy
• Very low offset drift over temperature
• No insertion loss
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

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AN5V 60 PB00

• 60A open loop current sensor using the Hall Effect
• Supply voltage ±12...±15V
• Galvanic insulation between primary and secondary
• Insulating plastic case recognized according to UL 94-V0
• No insertion loss
• Small size
• Standards:
• IEC 60664-1:2020
• IEC 61800-5-1:2022
• IEC 62109-1:2010

more...