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�Data� Sheet�
�ADE7880�
�HPGAIN�
�HPGAIN�
�HPGAIN�
�HPGAIN�
�HPGAIN�
�HPGAIN�
�HXWATTOS�
�HYWATTOS�
�HZWATTOS�
�HXVAROS�
�HYVAROS�
�HZVAROS�
�2� 2�
�÷�
�2� 2�
�÷�
�2� 2�
�÷�
�2� 2�
�÷�
�2� 2�
�÷�
�2� 2�
�÷�
�HXWATT�
�HYWATT�
�HZWATT�
�HXVAR�
�HYVAR�
�HZVAR�
�Figure� 86.� Harmonic� Active� and� Reactive� Powers� Signal� Processing�
�The� harmonic� distortions� of� the� three� harmonic� components�
�are� stored� into� the� HXVHD,� HXIHD,� HYVHD,� HYIHD,�
�HZVHD,� and� HZIHD� 24-bit� registers� in� 3.21� signed� format.�
�This� means� the� ratios� are� limited� to� +3.9999� and� all� greater�
�results� are� clamped� to� it.�
�As� a� reference,� Table� 20� presents� the� ADE7880� harmonic� engine�
�outputs� when� one� phase� is� analyzed� and� the� registers� in� which�
�the� outputs� are� stored.�
�Harmonic� Calculations� When� the� Neutral� is� Monitored�
�When� the� neutral� current� and� the� sum� of� phase� currents� are�
�monitored,� only� the� harmonic� rms� related� registers� are� updated.�
�The� registers� HX,� HY� and� HZ� identify� the� index� of� the� harmonic,�
�including� the� fundamental.� When� a� phase� is� analyzed,� the�
�fundamental� rms� values� are� calculated� continuously� and� the�
�results� are� stored� in� dedicated� registers� FIRMS� and� FVRMS.�
�When� the� neutral� is� analyzed,� the� fundamental� information� is�
�calculated� by� setting� one� of� the� harmonic� index� registers� HX,�
�HY� or� HZ� to� 1� and� the� results� are� stored� in� harmonic� registers.�
�The� maximum� index� allowed� in� HX,� HY� and� HZ� registers� is� 63.�
�The� no� attenuation� pass� band� is� 2.8� kHz,� corresponding� to� a�
�?3� dB� bandwidth� of� 3.3� kHz,� thus� all� harmonics� of� frequency�
�lower� than� 2800� Hz� are� supported� without� attenuation.�
�HXIRMS,� HYIRMS� and� HZIRMS� registers� contain� the� harmonic�
�rms� components� of� the� neutral� current� and� HXVRMS,� HYVRMS�
�and� HZVRMS� registers� contain� the� harmonic� rms� components�
�of� ISUM.� Note� that� in� this� case,� the� rms� of� the� fundamental�
�component� is� not� computed� into� FIRMS� or� FVRMS� registers,�
�but� it� is� computed� if� one� of� the� index� registers� HX,� HY� and� HZ�
�is� initialized� with� 1.�
�If� the� HX� register� is� initialized� to� 1,� the� ADE7880� computes� the�
�harmonic� distortions� of� the� other� harmonics� identified� into� HY�
�and� HZ� registers� and� stores� them� in� 3.21� signed� format� into� the�
�HYVHD,� HYIHD,� HZVHD,� and� HZIHD� 24-bit� registers.� The�
�distortions� of� the� neutral� current� are� saved� into� HYIHD� and�
�HZIHD� registers� and� the� distortions� of� the� ISUM� are� stored�
�into� the� HYVHD� and� HZVHD� registers.� As� HX� is� set� to� 1,� th� e�
�HXIHD� and� HXVHD� registers� contain� 0x1FFFFF,� a� number�
�representing� 1� in� 3.21� signed� format.�
�As� a� reference,� Table� 21� presents� the� A� DE7880� harmonic� engine�
�outputs� when� the� neutral� current� and� ISUM� are� analyzed� and�
�the� registers� in� which� the� outputs� are� stored.�
�Configuring� Harmonic� Calculations� Upd� ate� Rate�
�The� ADE7880� harmonic� engine� functions� at� 8� kHz� rate.� From�
�the� moment� the� HCONFIG� register� is� initialized� and� the�
�harmonic� indexes� are� set� in� the� HX,� HY� and� HZ� index� reg� isters,�
�the� ADE7880� calculations� take� typically� 750� ms� to� settle� within�
�the� specification� parameters.�
�The� update� rate� of� the� harmon� ic� engine� output� registers� is�
�managed� by� Bits[7:5]� (HRATE)� in� HCONFIG� register� and� i� s�
�independent� of� the� engine’s� calculations� rate� of� 8� kHz.� The� defaul� t�
�value� of� 000� means� the� registers� are� updated� every� 125� μsec�
�(8� kHz� rate).� Other� update� periods� are:� 250� μsec� (HRATE� =�
�001),� 1� ms� (010),� 16� ms� (011),� 128� ms� (100),� 512� ms� (101),�
�1.024� sec� (110).� If� HRATE� bits� are� 111,� then� the� harmonic�
�calculations� are� disabled.�
�The� ADE7880� provides� tw� o� ways� to� manage� the� harmonic�
�computations.� The� first� approach,� enabled� when� Bit� 0� (HRC� FG)�
�of� HCONFIG� register� is� cleared� to� its� default� value� of� 0,� sets� Bit�
�19� (HREADY)� in� STATUS0� register� to� 1� after� a� certain� period�
�of� time� and� then� every� time� the� harmonic� calculations� are� updated�
�at� HRATE� frequency.� This� allows� an� external� microcontroller� to�
�access� the� harmonic� calculations� only� after� they� have� settled.�
�The� time� period� is� determined� by� the� state� of� Bits[4:3]� (HSTIME)�
�in� the� HCONFIG� register.� The� default� value� of� 01� sets� the� time�
�Rev.� A� |� Page� 63� of� 104�
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