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�
�ADE7880�
�Data� Sheet�
�If� Bit� 19� (SEQERR)� in� the� MASK1� register� is� set� to� 1� and� a�
�phase� sequence� error� event� is� triggered,� the� IRQ1� interrupt� pin�
�PHASE� A�
�PHASE� B�
�PHASE� C�
�is� driven� low.� The� status� bit� is� cleared� and� the� IRQ1� pin� is� set�
�high� by� writing� to� the� STATUS1� register� with� the� Status� Bit� 19�
�(SEQERR)� set� to� 1.�
�The� phase� sequence� error� detection� circuit� is� functional� only�
�when� the� ADE7880� is� connected� in� a� 3-phase,� 4-wire,� three� voltage�
�ZX� A�
�ZX� B�
�ZX� C�
�sensors� configuration� (Bits[5:4],� CONSEL[1:0]� in� the� ACCMODE�
�register,� set� to� 00).� In� all� other� configurations,� only� two� voltage�
�sensors� are� used;� therefore,� it� is� not� recommended� to� use� the�
�detection� circuit.� In� these� cases,� use� the� time� intervals� between�
�phase� voltages� to� analyze� the� phase� sequence� (see� the� Time�
���followed� by� Phase� B� voltage� but� by� Phase� C� voltage.� Every� time�
�Figure� 53.� Regular� Succession� of� Phase� A,� Phase� B,� and� Phase� C�
�When� the� ANGLESEL[1:0]� bits� are� set� to� 00,� the� default� value,�
�the� delays� between� voltages� and� currents� on� the� same� phase� are�
�measured.� The� delay� between� Phase� A� voltage� and� Phase� A�
�current� is� stored� in� the� 16-bit� unsigned� ANGLE0� register� (see�
��voltages� and� currents� on� Phase� B� and� Phase� C� are� stored� in� the�
�ANGLE1� and� ANGLE2� registers,� respectively.�
�a� negative-to-positive� zero� crossing� occurs,� Bit� 19� (SEQERR)� in�
�the� STATUS1� register� is� set� to� 1� because� such� zero� crossings� on�
�Phase� C,� Phase� B,� or� Phase� A� cannot� come� after� zero� crossings�
�from� Phase� A,� Phase� C,� or� respectively,� Phase� B� zero� crossings.�
�PHASE� A�
�VOLTAGE�
�PHASE� A�
�CURRENT�
�A,� B,� C� PHASE�
�VOLTAGES� AFTER�
�LPF1�
�PHASE� A�
�PHASE� C�
�PHASE� B�
�ANGLE0�
�Figure� 54.� Delay� Between� Phase� A� Voltage� and� Phase� A� Current� Is�
�Stored� in� the� ANGLE0� Register�
�ZX� A�
�ZX� C�
�ZX� B�
�When� the� ANGLESEL[1:0]� bits� are� set� to� 01,� the� delays� between�
�phase� voltages� are� measured.� The� delay� between� Phase� A�
�BIT� 19� (SEQERR)� IN�
�STATUS1� REGISTER�
�IRQ1�
�STATUS1[19]� SET� TO� 1� STATUS1[19]� CANCELLED�
�BY� A� WRITE� TO� THE�
�STATUS1� REGISTER� WITH�
�SEQERR� BIT� SET�
�Figure� 52.� SEQERR� Bit� Set� to� 1� When� Phase� A� Voltage� Is� Followed� by�
�Phase� C� Voltage�
�Once� a� phase� sequence� error� has� been� detected,� the� time�
�measurement� between� various� phase� voltages� (see� the� Time�
��phase� voltage� should� be� considered� with� another� phase� current�
�voltage� and� Phase� C� voltage� is� stored� into� the� ANGLE0� register.�
�The� 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� Figure� 55� for� details).�
�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� 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� 55� for� details).�
�in� the� computational� data� path.� Bits[9:8]� (VTOIA[1:0]),�
�PHASE� A�
�PHASE� B�
�PHASE� C�
�Bits[11:10]� (VTOIB[1:0]),� and� Bits[13:12]� (VTOIC[1:0])� in� the�
�CONFIG� register� can� be� used� to� direct� one� phase� voltage� to� the�
���Time� Interval� Between� Phases�
�ANGLE2�
�ANGLE1�
�The� ADE7880� has� the� capability� to� measure� the� time� delay�
�between� phase� voltages,� between� phase� currents,� or� between�
�voltages� and� currents� of� the� same� phase.� The� negative-to-positive�
�transitions� identified� by� the� zero-crossing� detection� circuit� are�
�used� as� start� and� stop� measuring� points.� Only� one� set� of� such�
�measurements� is� available� at� one� time,� based� on� Bits[10:9]�
�(ANGLESEL[1:0])� in� the� COMPMODE� register.�
�ANGLE0�
�Figure� 55.� 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/�
�Rev.� A� |� Page� 32� of� 104�
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