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�
�ADE7854/ADE7858/ADE7868/ADE7878�
�Data� Sheet�
�PHASE� A�
�VOLTAGE�
�PHASE� A�
�CURRENT�
�LPF1� filter� (see� Figure� 43),� a� settling� time� of� 30� ms� to� 40� ms� is�
�associated� with� this� filter� before� the� measurement� is� stable.�
�The� period� measurement� has� a� resolution� of� 3.90625� μs/LSB�
�(256� kHz� clock),� which� represents� 0.0195%� (50� Hz/256� kHz)�
�when� the� line� frequency� is� 50� Hz� and� 0.0234%� (60� Hz/256� kHz)�
�when� the� line� frequency� is� 60� Hz.� The� value� of� the� period� register�
�ANGLE0�
�Figure� 47.� Delay� Between� Phase� A� Voltage� and� Phase� A� Current� Is�
�Stored� in� the� ANGLE0� Register�
�When� the� ANGLESEL[1:0]� bits� are� set� to� 01,� the� delays� between�
�phase� voltages� are� measured.� The� delay� between� Phase� A� voltage�
�and� Phase� C� voltage� is� stored� into� the� ANGLE0� register.� The�
�for� 50� Hz� networks� is� approximately� 5120� (256� kHz/50� Hz)� and�
�for� 60� Hz� networks� is� approximately� 4267� (256� kHz/60� Hz).� The�
�length� of� the� register� enables� the� measurement� of� line� frequencies�
�as� low� as� 3.9� Hz� (256� kHz/2� 16� ).� The� period� register� is� stable� at�
�±1� LSB� when� the� line� is� established� and� the� measurement� does�
�not� change.�
�[� sec� ]�
�T� L� =�
�f� L� =�
�[� Hz� ]�
�delay� between� Phase� B� voltage� and� Phase� C� voltage� is� stored� in�
�the� ANGLE1� register,� and� the� delay� between� Phase� A� voltage�
�and� Phase� B� voltage� is� stored� in� the� ANGLE2� register� (see�
��When� the� ANGLESEL[1:0]� bits� are� set� to� 10,� the� delays� between�
�phase� currents� are� measured.� Similar� to� delays� between� phase�
�voltages,� the� delay� between� Phase� A� and� Phase� C� currents� is� stored�
�into� the� ANGLE0� register,� the� delay� between� Phase� B� and� Phase� C�
�The� following� expressions� can� be� used� to� compute� the� line�
�period� and� frequency� using� the� period� register:�
�PERIOD[15:0]� +� 1�
�256� E� 3�
�256� E� 3�
�PERIOD[15:� 0]� +� 1�
�Phase� Voltage� Sag� Detection�
�(6)�
�(7)�
�currents� is� stored� in� the� ANGLE1� register,� and� the� delay� between�
�Phase� A� and� Phase� B� currents� is� stored� into� the� ANGLE2�
�register� (see� Figure� 48� for� details).�
�The� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� can� be� pro-�
�grammed� to� detect� when� the� absolute� value� of� any� phase� voltage�
�drops� below� a� certain� peak� value� for� a� number� of� half-line� cycles.�
�PHASE� A�
�PHASE� B�
�PHASE� C�
�The� phase� where� this� event� takes� place� is� identified� in� Bits[14:12]�
�(VSPHASE[x])� of� the� PHSTATUS� register.� This� condition� is�
��PHASE� B� VOLTAGE�
�FULL� SCALE�
�SAGLVL[23:0]�
�ANGLE2�
�ANGLE1�
�ANGLE0�
�Figure� 48.� Delays� Between� Phase� Voltages� (Currents)�
�The� ANGLE0,� ANGLE1,� and� ANGLE2� registers� are� 16-bit�
�unsigned� registers� with� 1� LSB� corresponding� to� 3.90625� μs�
�(256� kHz� clock),� which� means� a� resolution� of� 0.0703°� (360°� ×�
�50� Hz/256� kHz)� for� 50� Hz� systems� and� 0.0843°� (360°� ×� 60� Hz/�
�FULL� SCALE�
�SAGLVL[23:0]�
�SAGCYC[7:0]� =� 0x4�
�PHASE� A� VOLTAGE�
�256� kHz)� for� 60� Hz� systems.� The� delays� between� phase� voltages�
�or� phase� currents� are� used� to� characterize� how� balanced� the�
�load� is.� The� delays� between� phase� voltages� and� currents� are�
�used� to� compute� the� power� factor� on� each� phase� as� shown� in�
�the� following� Equation� 5:�
�SAGCYC[7:0]� =� 0x4�
�BIT� 16� (SAG)� IN�
�STATUS1[31:0]�
�STATUS1[16]� AND�
�PHSTATUS[12]�
�CANCELLED� BY� A�
�WRITE� TO�
�STATUS1[31:0]�
�WITH� SAG� BIT� SET�
�?�
�cos� φ� x� =� cos� ?� ANGLEx� ×�
�?� ?�
�where� f� LINE� =� 50� Hz� or� 60� Hz.�
�Period� Measurement�
�360� ?� � f� LINE�
�256� kHz�
�?�
�?�
�?� ?�
�(5)�
�IRQ1� PIN�
�VSPHASE[0]� =�
�STATUS[16]� AND�
�PHSTATUS[13]�
�SET� TO� 1�
�The� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� provide� the�
�period� measurement� of� the� line� in� the� voltage� channel.� Bits[1:0]�
�(PERSEL[1:0])� in� the� MMODE� register� select� the� phase� voltage�
�used� for� this� measurement.� The� period� register� is� a� 16-bit�
�unsigned� register� and� updates� every� line� period.� Because� of� the�
�PHSTATUS[12]�
�VSPHASE[1]� =�
�PHSTATUS[13]�
�Figure� 49.� SAG� Detection�
�Rev.� H� |� Page� 36� of� 100�
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