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�Data� Sheet�
�Note� that� q� (� t� )� can� be� rewritten� as�
�ADE7854/ADE7858/ADE7868/ADE7878�
��{�
�q� (� t� )� =� ∑� V� k� I� k� cos� (� φ� k� ?� γ� k� ?�
�)� ?� cos� (� 2� kωt� +� φ� k� +� γ� k� +� π� )� }� +�
�∞�
�k� =� 1�
�π�
�2�
�2�
�power� measurement,� which� is� the� time� it� takes� the� power� to�
��∑� V� k� I� m�
�{� cos� [� (� k� –� m� )� ωt� +� φ� ?� γ� ?� π� 2� ]� ?�
�∞�
�k� ,� m� =� 1�
�k� ≠� m�
�k� k�
�Table� 17.� Settling� Time� for� Fundamental� Reactive� Power�
�Input� Signals�
�63%� Full� Scale� 100%� Full� Scale�
�]� }�
�cos� [� (� k� +� m� )� ωt� +� φ� k� +� γ� k� +�
�(32)�
�1� nT�
�π�
�∫� q� (� t� )� dt� =� ∑� V� k� I� k� cos(� φ� k� –� γ� k� ?� 2� )�
�Q� =� ∑� V� k� I� k� sin(� φ� k� –� γ� k� )�
�LPF� 2� Output� � ?� 1� +�
�?� xVARGAIN� Re� gister� ?� (35)�
�2� 23�
�π�
�2�
�The� average� total� reactive� power� over� an� integral� number� of� line�
�cycles� (n)� is� given� by� the� expression� in� Equation� 33.�
�∞�
�Q� =� (33)�
�nT� 0� k� =� 1�
�∞�
�k� =� 1�
�where:�
�T� is� the� period� of� the� line� cycle.�
�Q� is� referred� to� as� the� total� reactive� power.� Note� that� the� total�
�reactive� power� is� equal� to� the� dc� component� of� the� instantaneous�
�reactive� power� signal� q(t)� in� Equation� 32,� that� is,�
�375� ms� 875� ms�
�Reactive� Power� Gain� Calibration�
�The� average� reactive� power� in� each� phase� can� be� scaled� by�
�±100%� by� writing� to� one� of� the� phase’s� VAR� gain� 24-bit� registers�
�(AVARGAIN,� BVARGAIN,� CVARGAIN,� AFVARGAIN,�
�BFVARGAIN,� or� CFVARGAIN).� The� xVARGAIN� registers� are�
�placed� in� each� phase� of� the� total� reactive� power� datapath.� The�
�xFVARGAIN� registers� are� placed� in� each� phase� of� the� fundamental�
�reactive� power� datapath.� The� xVARGAIN� registers� are� twos� com-�
�plement� signed� registers� and� have� a� resolution� of� 2� ?23� /LSB.� The�
�function� of� the� xVARGAIN� registers� is� expressed� by�
�Average� Reactive� Power� =�
�?�
�?� ?�
�∑� V� k� I� k�
�∞�
�k� =� 1�
�sin(� φ� k� –� γ� k� )�
�The� output� is� scaled� by� –50%� by� writing� 0xC00000� to� the�
�xVARGAIN� registers� and� increased� by� +50%� by� writing�
�V� k� I�
�1�
�xVAR� =� ∑�
�2� 4�
�This� is� the� relationship� used� to� calculate� the� total� reactive� power�
�in� the� ADE7858� /� ADE7868� /� ADE7878� for� each� phase.� The�
�instantaneous� reactive� power� signal,� q(t),� is� generated� by� multi-�
�plying� each� harmonic� of� the� voltage� signals� by� the� 90°� phase-�
�shifted� corresponding� harmonic� of� the� current� in� each� phase.�
�The� ADE7858� /� ADE7868� /� ADE7878� store� the� instantaneous�
�total� phase� reactive� powers� into� the� AVAR,� BVAR,� and� CVAR�
�registers.� Their� expression� is�
�∞�
�×� k� ×� sin(� φ� k� –� γ� k� )� ×� PMAX� ×� (34)�
�k� =� 1� V� FS� I� FS�
�where:�
�V� FS� ,� I� FS� are� the� rms� values� of� the� phase� voltage� and� current� when�
�the� ADC� inputs� are� at� full� scale.�
�PMAX� =� 33,516,139,� the� instantaneous� power� computed� when�
�the� ADC� inputs� are� at� full� scale� and� in� phase.�
�The� xVAR� waveform� registers� can� be� accessed� using� various�
�serial� ports.� Refer� to� the� Waveform� Sampling� Mode� section� for�
�more� details.�
�The� expression� of� fundamental� reactive� power� is� obtained� from�
�Equation� 33� with� k� =� 1,� as� follows:�
�FQ� =� V� 1� I� 1� sin(� φ� 1� –� γ� 1� )�
�The� ADE7878� computes� the� fundamental� reactive� power� using�
�a� proprietary� algorithm� that� requires� some� initialization� function�
�of� the� frequency� of� the� network� and� its� nominal� voltage� measured�
�in� the� voltage� channel.� These� initializations� are� introduced� in�
�the� Active� Power� Calculation� section� and� are� common� for� both�
�fundamental� active� and� reactive� powers.�
�0x400000� to� them.� These� registers� can� be� used� to� calibrate� the�
�reactive� power� (or� energy)� gain� in� the� ADE78xx� for� each� phase.�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
�serial� ports� of� the� ADE7858� /� ADE7868� /� ADE7878� work� on� 32-,�
�16-,� or� 8-bit� words� and� the� DSP� works� on� 28� bits.� Similar� to�
�registers� presented� in� Figure� 35,� the� AVARGAIN,� BVARGAIN,�
�CVARGAIN,� AFVARGAIN,� BFVARGAIN,� and� CFVARGAIN�
�24-bit� signed� registers� are� accessed� as� 32-bit� registers� with� the�
�four� MSBs� padded� with� 0s� and� sign� extended� to� 28� bits.�
�Reactive� Power� Offset� Calibration�
�The� ADE7858/ADE7868/ADE7878provideareactivepower�
�offset� register� on� each� phase� and� on� each� reactive� power.� AVAROS,�
�BVAROS,� and� CVAROS� registers� compensate� the� offsets� in� the�
�total� reactive� power� calculations,� whereas� AFVAROS,� BFVAROS,�
�and� CFVAROS� registers� compensate� offsets� in� the� fundamental�
�reactive� power� calculations.� These� are� signed� twos� complement,�
�24-bit� registers� that� are� used� to� remove� offsets� in� the� reactive�
�power� calculations.� An� offset� can� exist� in� the� power� calculation�
�due� to� crosstalk� between� channels� on� the� PCB� or� in� the� chip�
�itself.� The� offset� resolution� of� the� registers� is� the� same� as� for� the�
��Calibration� section).�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
�serial� ports� of� the� ADE7858� /� ADE7868� /� ADE7878� work� on� 32-,�
�16-,� or� 8-bit� words� and� the� DSP� works� on� 28� bits.� Similar� to� the�
�registers� presented� in� Figure� 35,� the� AVAROS,� BVAROS,� and�
�CVAROS� 24-bit� signed� registers� are� accessed� as� 32-bit� registers�
�with� the� four� MSBs� padded� with� 0s� and� sign� extended� to� 28� bits.�
�Rev.� H� |� Page� 53� of� 100�
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