MEWOI-MIT001-(0A-0.01A) (DC) φ26mm high precision Fluxgate technology based leakage current transducer/Residual current transducer

OEM/ODM Testing instruments manufacturer

  • Main Features:: High Precision fluxgate technology based leakage current transducer
  • Model No.:: MEWOI-MIT001
  • Name:: MEWOI-MIT001-(0A-0.01A) (DC) φ26mm Fluxgate technology based leakage current transducer/Residual current transducer

Contact Us for QuotationEmail:mewoi@mewoi.comWhatsapp: +8618620373879

MEWOI-MIT001-0A-0.01A (DC) φ26mm highly stabilized and precise fluxgate technology based leakage current transducer/Residual current transducer

INTRODUCTION

The multi-point zero-flux technology system applied in this high-precision DC transducer combines closed-loop excitation flux control technology, self-excited flux gate technology, and multiple closed loop control technology. The combination of technologies enables zero-flux closed-loop control of excitation flux, DC flux and AC flux, and can detect high-frequency ripple by constructing a high-frequency ripple sensing channel, so that the transducer can achieve high gains and measuring accuracy over the full bandwidth.

FEATURES

Key Technologies Features Features

1,Excitation closed-loop control technology 

1,Insulation measurement at primary and secondary side 

2,Self-exciting demagnetization technology 

2,Excellent linearity and accuracy

3,Multi-point zero-flux technology 

3,Extremely low temperature drift 

4,,Temperature control compensation technology

4,Extremely low zero drift 

5,Multi-range automatic switching technology  

5,Broad band and low response time

6,Strong anti-electromagnetic interference Application Domain
Application Fields
1,Industry Control 2,Medical Equipment 
3,Railway 4,Power and power grid 
5,Test instrumentation6,New Energy

SPECIFICATION

Model Number

              MEWOI-MIT001-(0A-0.01A) (DC)

Jaw Size

φ26mm

Rated input Current (IPN)

0-0.01A

A

Primary Current Measure range(IP)

0~±0.02A(200% IPN)

A

Rated output voltage of secondary side

0-±2V

V

Power Supply Voltage (VCC)

±15(±5%)(±14.2V-±15.8V)

V

Current consumption

VC=±15V                       ≥30

mA

Galvanic isolation (Vd)

5KV /50Hz/1min(Primary/Secondary)


Transient isolation voltage(Vw)

50us/10KV(Primary/Secondary)


Creepage distance

11

mm

Electrical clearance distance

11


Linearity (εL)

Max 0.2

%FS

Accuracy X

DC current, within measuring range                        ±0.2

%

Offset Voltage V0

Full Temperature range                      <±10

mV

Response time Tr

≤2

ms

Operating temperature TA

-40~+85

Storage temperature TS

-55~+95

Relative humidity

20-80


Frequency bandwidth(-3dB)

DC-100

KHZ

Weight

360

g

MEWOI-MIT50.01.png

Residual Current Sensor  Selection Guide 

Model NumberPrimary Nominal Current ValueMeasuring RangeSecondary Nominal SignalAccuracySupply Voltage(±5%)Aperture(mm)Mounting

MEWOI-MIT10.80.png

MEWOI-MIT50

5A5A5V0.02%+15V26Panel

MEWOI-MIT10.80.png

MEWOI-MIT30

3A3A5V0.02%+15V26Panel

MEWOI-MIT10.80.png

MEWOI-MIT10

1A1A5V0.02%+15V26Panel

MEWOI-MIT10.80.png

MEWOI-MIT01

0.1A0.1A5V0.02%+15V26Panel

MEWOI-MIT10.80.png

MEWOI-MIT001

0.01A0.01A5V0.02%+15V26Panel

Matters needing attention:


  • When running normally, the green light is always on. When the equipment is powered on, when the equipment is working normally, the green indicator lights are always on, and the third and eighth legs of the D-Sub9 interface are on.

  • When the current is overloaded or the power supply is abnormal, the green light goes out. When the green light is not on, the power supply of the sensor should be checked first.

  • Under the normal condition of power supply, if the green indicator lights out, the current sensor is in non-zero flux state. At this time, if the bus bar input current exceeds the specified range of the sensor, the sensor  enters the overload mode, and the output current is no longer proportional to the input current signal.

  • The input current amplitude exceeds the prescribed range of the sensor. The sensor enters the overload mode, and the output current is no longer proportional to the input current signal.When the input current exceeds the specified range of the sensor, the sensor enters the overload mode and the output current is no longer connected with the input current signal.

  • In the overload mode, the output current of the sensor is kept in the maximum output state, and the green indicator is turned off. When input current After restoring to the specified current range, the output current of  the sensor returns to normal and the green indicator is always on.

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