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�71M6513/71M6513H� Demo� Board� User’s� Manual�
�1.8.4� ADJUSTING� THE� DEMO� BOARDS� TO� DIFFERENT� CURRENT� TRANS-�
�FORMERS�
�The� Demo� Board� is� prepared� for� use� with� 2000:1� current� transformers� (CTs).� This� means� that� for� the�
�unmodified� Demo� Board,� 208A� on� the� primary� side� at� 2000:1� ratio� result� in� 104mA� on� the� secondary� side,�
�causing� 177mV� at� the� 1.7� ?� resistor� pairs� R24/R25,� R36/R37,� R56/R57� (2� x� 3.4� ?� in� parallel).�
�In� general,� when� IMAX� is� applied� to� the� primary� side� of� the� CT,� the� voltage� V� in� at� the� IA,� IB,� or� IC� input� of� the�
�71M6513� IC� is� determined� by� the� following� formula:�
�V� in� =� R� *� I� =� R� *� IMAX� /N�
�where� N� =� transformer� winding� ratio,� R� =� resistor� on� the� secondary� side�
�If,� for� example,� IMAX� =� 208A� are� applied� to� a� CT� with� a� 2500:1� ratio,� only� 83.2mA� will� be� generated� on� the� se-�
�condary� side,� causing� only� 141mV.� The� steps� required� to� adapt� a� 71M6513� Demo� Board� to� a� transformer� with� a�
�winding� ratio� of� 2500:1� are� outlined� below:�
�1)�
�2)�
�3)�
�The� formula� R� x� =� 177mV/(IMAX/N)� is� applied� to� calculate� the� new� resistor� R� x� .� We� calculate� Rx� to� 2.115� ?�
�Changing� the� resistors� R24/R25,� R106/R107� to� a� combined� resistance� of� 2.115� ?� (for� each� pair)� will�
�cause� the� desired� voltage� drop� of� 177mV� appearing� at� the� IA,� IB,� or� IC� inputs� of� the� 71M6513� IC.�
�WRATE� should� be� adjusted� to� achieve� the� desired� Kh� factor,� as� described� in� 1.8.3.�
�Simply� scaling� IMAX� is� not� recommended,� since� peak� voltages� at� the� 71M6513� inputs� should� always� be� in� the�
�range� of� 0� through� ±250mV� (equivalent� to� 177mV� rms).� If� a� CT� with� a� much� lower� winding� ratio� than� 1:2,000� is�
�used,� higher� secondary� currents� will� result,� causing� excessive� voltages� at� the� 71M6513� inputs.� Conversely,� CTs�
�with� much� higher� ratio� will� tend� to� decrease� the� useable� signal� voltage� range� at� the� 71M6513� inputs� and� may�
�thus� decrease� resolution.�
�1.8.5� ADJUSTING� THE� DEMO� BOARDS� TO� DIFFERENT� VOLTAGE� DIVIDERS�
�The� 71M6513� Demo� Board� comes� equipped� with� its� own� network� of� resistor� dividers� for� voltage� measurement�
�mounted� on� the� PCB.� The� resistor� values� (for� the� D6513T3B2� Demo� Board)� are� 2.5477M� ?� (R15-R21,� R26-R31�
�combined)� and� 750� ?� (R32),� resulting� in� a� ratio� of� 1:3,393.933.� This� means� that� VMAX� equals�
�176.78mV*3,393.933� =� 600V.� A� large� value� for� VMAX� has� been� selected� in� order� to� have� headroom� for�
�overvoltages.� This� choice� need� not� be� of� concern,� since� the� ADC� in� the� 71M6513� has� enough� resolution,� even�
�when� operating� at� 120Vrms� or� 240Vrms.�
�If� a� different� set� of� voltage� dividers� or� an� external� voltage� transformer� (potential� transformer)� is� to� be� used,�
�scaling� techniques� similar� to� those� applied� for� the� current� transformer� should� be� used.�
�In� the� following� example� we� assume� that� the� line� voltage� is� not� applied� to� the� resistor� divider� for� VA� formed� by�
�R15-R21,� R26-R31,� and� R32,� but� to� a� voltage� transformer� with� a� ratio� N� of� 20:1,� followed� by� a� simple� resistor�
�divider.� We� also� assume� that� we� want� to� maintain� the� value� for� VMAX� at� 600V� to� provide� headroom� for� large�
�voltage� excursions.�
�When� applying� VMAX� at� the� primary� side� of� the� transformer,� the� secondary� voltage� V� s� is:�
�V� s� =� VMAX� /� N�
�V� s� is� scaled� by� the� resistor� divider� ratio� R� R� .� When� the� input� voltage� to� the� voltage� channel� of� the� 71M6513� is� the�
�desired� 177mV,� V� s� is� then� given� by:�
�V� s� =� R� R� *� 177mV�
�Resolving� for� R� R� ,� we� get:�
�R� R� =� (VMAX� /� N)� /� 177mV� =� (600V� /� 30)� /� 177mV� =� 170.45�
�This� divider� ratio� can� be� implemented,� for� example,� with� a� combination� of� one� 16.95k� ?� and� one� 100� ?� resistor.�
�Page:� 27� of� 112�
�?� 2005-2006� TERIDIAN� Semiconductor� Corporation�
�Revision� 5.6�
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