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�CS5460A�
�3.13� Input� Filtering�
�Figure� 6� shows� how� the� analog� inputs� can� be� con-�
�nected� for� a� single-ended� input� configuration.� Note�
�here� that� the� Vin-� and� Iin-� input� pins� are� held� at� a�
�constant� DC� common-mode� level,� and� the� varia-�
�tion� of� the� differential� input� signal� occurs� only� on�
�the� Vin+� and� Vin-� pins.� The� common-mode� level�
�on� the� Vin-/Iin-� pins� is� often� set� at� (or� very� near)� the�
�CS5460A’s� common-mode� ground� reference� po-�
�tential.� (The� common-mode� ground� reference� po-�
�tential� is� defined� by� the� voltage� at� the� VA-� pin.)�
�But� this� is� not� required--the� DC� reference� level� of�
�the� Vin-/Iin-� pins� can� be� set� to� any� potential� be-�
�tween� [VA-]� and� [(VA+)� -� 250� mV].� In� Figure� 6,� ob-�
�serve� the� circuitry� which� has� been� placed� in� front�
�of� the� current� channel� input� pins,� as� one� example.�
�The� anti-aliasing� filter� can� be� constructed� by� calcu-�
�lating� appropriate� values� for� R� I+� =� R� I-� ,� C� Idiff� ,� and�
�C� I+� =� C� I-� .� The� sensor� voltage� that� is� created� by� the�
�voltage� drop� across� R� SHUNT� is� fed� into� the� Iin+� pin,�
�while� the� voltage� at� the� Iin-� pin� is� held� constant.�
�Figure� 7� shows� a� differential� bipolar� input� configu-�
�ration.� Note� in� Figure� 7� that� the� “+”� and� “-”� input�
�pins� for� the� voltage/current� channels� are� equally�
�referenced� above� and� below� the� CS5460A’s�
�ground� reference� voltage.� Such� a� differential� bipo-�
�lar� input� configuration� can� be� used� because� the�
�CS5460A� voltage/current� channel� inputs� are� able�
�to� accept� input� voltage� levels� as� low� as� -250� mV�
�(common-mode)� below� the� VA-� pin� ground� refer-�
�ence,� which� is� defined� by� the� voltage� at� the� VA-�
�pin.� (In� fact,� if� desired,� the� center-tapped� reference�
�of� these� differential� input� pairs� could� be� connected�
�to� a� DC� voltage� of,� for� example,� +2� V,� because�
�+2� V� is� within� the� available� common-mode� range�
�of� [VA-]� and� [VA+� -� 250mV].� But� this� configuration�
�may� not� be� practical� for� most� metering� applica-�
�tions.)� In� the� differential� bipolar� input� configuration,�
�the� voltage� signals� at� the� Vin-� and� Iin-� pins� will� fluc-�
�tuate� in� similar� fashion� to� the� Vin+/Iin+� pins,� except�
�the� voltages� at� the� “-”� pins� will� be� 180� degrees� out�
�of� phase� with� respect� to� the� voltage� signals� at� the�
�“+”� pins.� Therefore� the� signal� paths� to� the� “+”� and�
�“-”� pins� play� an� equal� role� in� defining� the� differential�
�voltage� input� signal.� Because� of� this,� the� protection�
�resistors� placed� on� Vin-/Iin-� pins� will� play� an� equal-�
�ly� important� role� as� the� resistors� on� the� Vin+/Iin+�
�pins,� in� defining� the� differential� responses� of� the�
�34�
�voltage/current� channel� input� anti-aliasing� filters.�
�These� resistors� also� serve� as� the� current-limit� pro-�
�tection� resistors� (mentioned� earlier).�
�Before� determining� a� typical� set� of� values� for� R� V+� ,�
�R� V-� ,� C� V+� ,� C� V-� ,� C� Vdiff� ,� R� I+� ,� R� I-� ,� C� I+� ,� C� I-� ,� and� C� Idiff� in�
�Figure� 7,� several� other� factors� should� be� consid-�
�ered:�
�1.� Values� for� the� above� resistors/capacitors� should�
�be� chosen� with� the� desired� differential-mode� (and�
�common-mode)� lowpass� cutoff� frequencies� in�
�mind.� In� general,� the� differential� cutoff� frequencies�
�should� not� be� less� than� 10� times� the� cut-off� fre-�
�quencies� of� the� internal� voltage/current� channel� fil-�
�ters,� which� can� be� estimated� by� studying� Figure� 4�
�and� Figure� 5.� In� these� figures,� the� internal� voltage�
�channel� cutoff� frequency� is� ~1400� Hz� while� the�
�current� channel� cutoff� frequency� is� ~1600� Hz.� If�
�the� cutoff� frequency� of� the� external� anti-aliasing� fil-�
�ter� is� much� less� than� 10x� these� values� (14000� Hz�
�and� 16000� Hz),� then� some� of� the� harmonic� content�
�that� may� be� present� in� the� voltage/current� signals�
�will� be� attenuated� by� the� voltage/current� channel�
�input� anti-aliasing� filters,� because� such� R-C� filters�
�will� begin� to� roll� off� at� a� frequency� of� 1/10th� of� the�
�filter’s� -3� dB� cutoff� frequency.� If� the� designer� is� not�
�interested� in� metering� energy� that� may� be� present�
�in� the� higher� harmonics� (with� respect� to� the� funda-�
�mental� power� line� frequency)� then� the� differen-�
�tial-mode� cutoff� frequencies� on� the� voltage/current�
�input� networks� can� be� reduced.� However,� relaxing�
�the� metering� bandwidth� is� usually� unacceptable,�
�as� most� modern� power� meters� are� required� to� reg-�
�ister� energy� out� to� the� 11th� harmonic� (at� a� mini-�
�mum).�
�2.� The� first-order� time-constants� of� the� overall� volt-�
�age� and� current� channel� sensor� networks� should�
�be� set� such� that� they� are� equal� (within� reason),� or�
�at� least� close� in� magnitude.� If� the� time-constants� of�
�the� voltage/current� sensor� networks� are� not�
�well-matched,� then� the� phase� relationship� be-�
�tween� the� voltage-sense� and� current-sense� sig-�
�nals� will� suffer� an� undesirable� shift.� In� this�
�situation,� the� real� (true)� power/energy� measure-�
�ments� reported� by� the� CS5460A� can� contain� signif-�
�icant� error,� because� the� power� factor� of� the� sensed�
�voltage� and� current� signals� will� be� significantly� dif-�
�ferent� than� the� actual� power� factor� of� the� power�
�line� voltage/current� waveforms.�
�DS487F5�
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