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A new Digital Modulated Interface for a Precise and Robust Current Sensor
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| Author(s) |
Abdoulkarim BOUABANA, Constantinos SOURKOUNIS |
| Abstract |
Compared to conventional current sensors, the proposed topology is advantageous because of its high resolution throughout its full measurement range, thus reducing offsets to a minimum. This aim is reached through active offset compensation using an analog/digital chopper/de-chopper. A further advantage is the excellent suppression of 1/f noise and a low noise density (35 nV/√Hz) down to the DC-threshold. Common current sensors may be replaced with this technology whose one output is likewise analog. The power supply requirements are also far lower than for standard topologies as only a single supply is needed. The F-PWM modulation method and therefore the current sensor, results for current control units a high performance. The measurement current is directly coded in a “digital current value”, which can be decoded and used for the control unit. An AD-Converter is not more necessary for signal conversion, compared to the typical analog output current sensor based on the Hall-Effect. The coded signals can be transmitted potential- free with an optocoupler. |
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| Filename: | 0556-epe2011-full-20103759.pdf |
| Filesize: | 502.3 KB |
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| Type |
Members Only |
| Date |
Last modified 2012-01-26 by System |
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