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Power Electronics

Maxwell OEM Ultracapacitors

Maxwell OEM Ultracapacitors     more      

  • Hall Effect Current Sensors
  • Current Transformers
  • Reactor, Power Transformers

 Current Sensor Information


• Measure: DC, AC, and Pulsed waveforms
• Galvanic Isolation
• Fast Response
• Zero Insertion Loss
• Cost Effective

Open Loop Operating PrincipleOpen Loop Operating Principles

With the Open Loop Hall effect current sensor, the magnetic flux, proportional to the primary current, is concentrated in gapped magnetic core containing the Hall effect device (Fig. 1). The primary current is measured without electrical contact with the primary circuit providing galvanic isolation. From Figure 1, the magnetic flux, concentrated in the gap of the magnetic core, induces a potential difference, Vh, the Hall voltage,given by the Vh=k*Ic*B. The output signal of the Hall device, Vh, is then further amplified by additional internal signal conditioning circuitry to provide an instantaneous output voltage proportional to the primary current.




Closed Loop Operating PrinciplesClosed Loop Operating Principles

In a Closed Loop Hall effect current sensor the same principles apply as with the Open Loop type, however, with the addition of a secondary coil and feedback circuitry. The Closed Loop or ‘Zero-Flux’ Hall effect sensor feeds back an opposing current into a secondary coil wound on the magnetic core to zero the flux produced in the magnetic core by the primary current. The output current of a closed loop current sensor is an exact representation of the primary current scaled by the number of turns in the secondary coil. As with the Open Loop design the Closed Loop design provides galvanic isolation. The output of a closed loop current sensor can be scaled with the addition of a burden resistor, Rm1 , to produce a voltage level output proportional to the primary current.


Datasheet Download

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