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Home / Our Businesses / Test & Measurement / Support / Product Tutorials / |
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Product Tutorials Power Meter Tutorials |
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| Background |
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Common Mode Voltage Rejection |
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The measured value of a current influenced by a common mode voltage is shown below:
NOTE: Few percentage error caused by common mode voltage can be bypassed. |
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An applied Common mode voltage will generate noise on the input circuitry which will result in a detected Urms and Irms on the display after A/D conversion, which is most critical for current measurements due to low shunt voltage.
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Practically this means that in the 10V range the displayed value will be lower then:
 This also means that in the 1A range the displayed value will be lower then:  The Yokogawa method gives immediately the error influence on the final result in % of the selected range. Most other manufacturers specify the Common Mode Voltage effect by using strictly the CMRR formula:  |
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Common mode rejection ratio specification
For example:
When 600Vrms is applied to the inputs the maximum measured voltage can be calculated as follows:
For the Voltage input with 120 dB CMRR at 50Hz, the applied 600 Vrms will give a maximum measured voltage of:
In the 10V range this means a maximum error of 0.006 % of range.
In the current range the voltage should be transferred to a current value by using the formula:
When a 0.1 ohm shunt in 1 A range has been used it means that 60 mV noise is equivalent to 600 mA error which is an error of 0.06% of range. Conclusion: Yokogawa uses a different way of specifying with the advantage that the error can easily be determined for current and voltage. Other manufacturers follow the strict CMRR formula with the disadvantage that it is rather complicated to calculate the error in the current range caused by the Common Mode Voltage. |
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The measured value for the voltage and the current should be 0 in WIRING 2. The error in WIRING 2 can be influence by common mode voltage.
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