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�71M6533-� DB� Demo� Board� User’s� Manual�
�2�
�2�
�2.1�
�APPLICATION� INFORMATION�
�CALIBRATION� THEORY�
�A� typical� meter� has� phase� and� gain� errors� as� shown� by� ?� S� ,� A� XI� ,� and� A� XV� in� Figure� 2-1.� Following� the� typical�
�meter� convention� of� current� phase� being� in� the� lag� direction,� the� small� amount� of� phase� lead� in� a� typical� current�
�sensor� is� represented� as� -� ?� S� .� The� errors� shown� in� Figure� 2-1� represent� the� sum� of� all� gain� and� phase� errors.�
�They� include� errors� in� voltage� attenuators,� current� sensors,� and� in� ADC� gains.� In� other� words,� no� errors� are�
�made� in� the� ‘input’� or� ‘meter’� boxes.�
�INPUT�
�ERRORS�
�METER�
�I� ?� L�
�?� L� is� phase� lag�
�??� S�
�?� S� is� phase� lead�
�A� XI�
�I� RMS�
�IDEAL� ?� I� ,�
�ACTUAL� ?� I� A� XI�
�?�
�W�
�IDEAL� ?� IV� cos(� ?� L� )�
�ACTUAL� ?� IV� A� XI� A� XV� cos(� ?� L� ?� ?� S� )�
�V�
�A� XV�
�V� RMS�
�IDEAL� ?� V� ,�
�ACTUAL� ?� V� A� XV�
�ERROR� ?�
�ACTUAL� ?� IDEAL� ?� ACTUAL� ?�
�IDEAL� IDEAL�
�1�
�Figure� 2-1:� Watt� Meter� with� Gain� and� Phase� Errors.�
�During� the� calibration� phase,� we� measure� errors� and� then� introduce� correction� factors� to� nullify� their� effect.� With�
�three� unknowns� to� determine,� we� must� make� at� least� three� measurements.� If� we� make� more� measurements,� we�
�can� average� the� results.�
�2.1.1� CALIBRATION� WITH� THREE� MEASUREMENTS�
�The� simplest� calibration� method� is� to� make� three� measurements.� Typically,� a� voltage� measurement� and� two�
�Watt-hour� (Wh)� measurements� are� made.� A� voltage� display� can� be� obtained� for� test� purposes� via� the� command�
�>MR2.1� in� the� serial� interface.�
�Let’s� say� the� voltage� measurement� has� the� error� E� V� and� the� two� Wh� measurements� have� errors� E� 0� and� E� 60� ,�
�where� E� 0� is� measured� with� ?� L� =� 0� and� E� 60� is� measured� with� ?� L� =� 60.� These� values� should� be� simple� ratios� —� not�
�percentage� values.� They� should� be� zero� when� the� meter� is� accurate� and� negative� when� the� meter� runs� slow.�
�The� fundamental� frequency� is� f� 0� .� T� is� equal� to� 1/f� S� ,� where� f� S� is� the� sample� frequency� (2560.62Hz).� Set� all�
�calibration� factors� to� nominal:� CAL_IA� =� 16384,� CAL_VA� =� 16384,� PHADJA� =� 0.�
�Page:� 35� of� 75�
�`�
�REV� 3�
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