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�Data� Sheet�
�Current� RMS� Offset� Compensation�
�The� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� incorporate� a�
�current� rms� offset� compensation� register� for� each� phase:�
�AIRMSOS,� BIRMSOS,� CIRMSOS� registers,� and� the� NIRMSOS�
�register� for� ADE7868� and� ADE7878� only.� These� are� 24-bit�
�signed� registers� that� are� used� to� remove� offsets� in� the� current�
�rms� calculations.� An� offset� can� exist� in� the� rms� calculation� due�
�to� input� noises� that� are� integrated� in� the� dc� component� of� I� 2� (t).�
�The� current� rms� offset� register� is� multiplied� by� 128� and� added�
�to� the� squared� current� rms� before� the� square� root� is� executed.�
�Assuming� that� the� maximum� value� from� the� current� rms�
�calculation� is� 4,191,910� with� full-scale� ac� inputs� (50� Hz),� one� LSB� of�
�ADE7854/ADE7858/ADE7868/ADE7878�
�212000�
�211500�
�211000�
�210500�
�210000�
�209500�
�209000�
�208500�
�208000�
�207500�
�207000�
�the� current� rms� offset� represents� 0.00037%� ((� 4191� 2� ?� 128� /4191�
�45�
�50�
�55�
�FREQUENCY� (Hz)�
�60�
�65�
�?� 1)� � 100)� of� the� rms� measurement� at� 60� dB� down� from� full�
�scale.� Conduct� offset� calibration� at� low� current;� avoid� using�
�currents� equal� to� zero� for� this� purpose.�
�Figure� 61.� xIMAV� Register� Values� at� Full� Scale,� 45� Hz� to� 65� Hz� Line�
�Frequencies�
�The� mav� values� of� full-scale� sinusoidal� signals� of� 50� Hz� and�
�I� rms� ?� I�
�rms� 0� 2�
�?� 128� ?� IRMSOS�
�(14)�
��there� is� a� 1.25%� variation� between� the� mav� estimate� at� 45� Hz�
�where� I� rms� 0� is� the� rms� measurement� without� offset� correction.�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
�serial� ports� of� the� ADE78xx� work� on� 32-,� 16-,� or� 8-bit� words�
�and� the� DSP� works� on� 28� bits.� Similar� to� the� register� presented�
�in� Figure� 35,� the� AIRMSOS,� BIRMSOS,� CIRMSOS,� and�
�NIRMSOS� (� ADE7868� /� ADE7878� only)� 24-bit� signed� registers�
�are� accessed� as� 32-bit� registers� with� four� MSBs� padded� with� 0s�
�and� sign� extended� to� 28� bits.�
�Current� Mean� Absolute� Value� Calculation—� ADE7868�
�and� ADE7878� Only�
�This� section� presents� the� second� approach� to� estimate� the� rms�
�values� of� all� phase� currents� using� the� mean� absolute� value� (mav)�
�method.� This� approach� is� used� in� PSM1� mode,� which� is� available�
�and� the� one� at� 65� Hz� for� full-scale� sinusoidal� inputs.� The� accuracy�
�of� the� current� mav� is� typically� 0.5%� error� from� the� full-scale�
�input� down� to� 1/100� of� the� full-scale� input.� Additionally,� this�
�measurement� has� a� bandwidth� of� 2� kHz.� The� settling� time� for�
�the� current� mav� measurement,� that� is� the� time� it� takes� for� the�
�mav� register� to� reflect� the� value� at� the� input� to� the� current�
�channel� within� 0.5%� error,� is� 500� ms.� However,� during� the� first�
�measurement� after� entering� this� mode,� it� takes� a� longer� time� to�
�settle� to� the� correct� value.�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
�serial� ports� of� the� ADE7868� /� ADE7878� work� on� 32-,� 16-,� or�
�8-bit� words.� As� presented� in� Figure� 62,� the� AIMAV,� BIMAV,� and�
�CIMAV� 20-bit� unsigned� registers� are� accessed� as� 32-bit� registers�
�with� the� 12� MSBs� padded� with� 0s.�
�to� the� ADE7868� and� ADE7878� only,� to� allow� energy� accumu-�
�31�
�20� 19�
�0�
�lation� based� on� current� rms� values� when� the� missing� neutral�
�0000� 0000� 0000�
�20-BIT� UNSIGNED� NUMBER�
�case� demonstrates� to� be� a� tamper� attack.� This� datapath� is� active�
�also� in� PSM0� mode� to� allow� for� its� gain� calibration.� The� gain� is�
�used� in� the� external� microprocessor� during� PSM1� mode.� The�
�mav� value� of� the� neutral� current� is� not� computed� using� this�
�method.� Figure� 60� shows� the� details� of� the� signal� processing�
�chain� for� the� mav� calculation� on� one� of� the� phases� of� the� current�
�channel.�
�Figure� 62.� xIMAV� Registers� Transmitted� as� 32-Bit� Registers�
�Current� MAV� Gain� and� Offset� Compensation�
�The� current� rms� values� stored� in� the� AIMAV,� BIMAV,� and�
�CIMAV� registers� can� be� calibrated� using� gain� and� offset�
�coefficients� corresponding� to� each� phase.� It� is� recommended� to�
��CURRENT� SIGNAL�
�COMING� FROM� ADC�
�HPF�
�|X|�
�LPF�
�xIMAV[23:0]�
�ADE7878� with� nominal� currents.� The� offsets� can� be� estimated�
�by� supplying� the� ADE7868� /� ADE7878� with� low� currents,� usually�
�Figure� 60.� Current� MAV� Signal� Processing� for� PSM1� Mode�
�The� current� channel� mav� value� is� processed� from� the� samples�
�used� in� the� current� channel� waveform� sampling� mode.� The�
�samples� are� passed� through� a� high-pass� filter� to� eliminate� the�
�eventual� dc� offsets� introduced� by� the� ADCs� and� the� absolute�
�values� are� computed.� The� outputs� of� this� block� are� then� filtered�
�to� obtain� the� average.� The� current� mav� values� are� unsigned� 20-bit�
�values� and� they� are� stored� in� the� AIMAV,� BIMAV,� and� CIMAV�
�registers.� The� update� rate� of� this� mav� measurement� is� 8� kHz.�
�equal� to� the� minimum� value� at� which� the� accuracy� is� required.�
�Every� time� the� external� microcontroller� reads� the� AIMAV,�
�BIMAV,� and� CIMAV� registers,� it� uses� these� coefficients� stored�
�in� its� memory� to� correct� them.�
�Voltage� Channel� RMS� Calculation�
��rms� calculation� on� one� of� the� phases� of� the� voltage� channel.� The�
�voltage� channel� rms� value� is� processed� from� the� samples� used� in�
�the� voltage� channel.� The� voltage� rms� values� are� signed� 24-bit�
�Rev.� H� |� Page� 45� of� 100�
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