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�ADE7757�
�The� HPF� in� Channel� V1� has� an� associated� phase� response� that�
�is� compensated� for� on-chip.� Figures� 11� and� 12� show� the� phase�
�error� between� channels� with� the� compensation� network� acti-�
�vated.� The� ADE7757� is� phase� compensated� up� to� 1� kHz� as�
�shown.� This� will� ensure� correct� active� harmonic� power� calcula-�
�tion� even� at� low� power� factors.�
�0.30�
�0.25�
�0.20�
�0.15�
�0.10�
�For� a� line� frequency� of� 50� Hz,� this� would� give� an� attenuation�
�of� the� 2� (100� Hz)� component� of� approximately� 22� dB.� The�
�dominating� harmonic� will� be� at� twice� the� line� frequency� (2� )�
�due� to� the� instantaneous� power� calculation.�
�Figure� 13� shows� the� instantaneous� real� power� signal� at� the� output�
�of� the� LPF� that� still� contains� a� significant� amount� of� instanta-�
�neous� power� information,� i.e.,� cos(2� t).� This� signal� is� then� passed�
�to� the� digital-to-frequency� converter� where� it� is� integrated�
�(accumulated)� over� time� in� order� to� produce� an� output� frequency.�
�The� accumulation� of� the� signal� will� suppress� or� average� out� any�
�non-dc� components� in� the� instantaneous� real� power� signal.� The�
�average� value� of� a� sinusoidal� signal� is� zero.� Thus,� the� frequency�
�generated� by� the� ADE7757� is� proportional� to� the� average� real�
�power.� Figure� 13� shows� the� digital-to-frequency� conversion� for�
�steady� load� conditions,� i.e.,� constant� voltage� and� current.�
�0.05�
�0�
�–0.05�
�V�
�DIGITAL-TO-�
�FREQUENCY�
�F1�
�F1�
�–0.10�
�0�
�100�
�200�
�300�
�400�
�500�
�600�
�700�
�800�
�900� 1000�
�LPF�
�F2�
�TIME�
�FREQUENCY� –� Hz�
�Figure� 11.� Phase� Error� between� Channels� (0� Hz� to� 1� kHz)�
�MULTIPLIER�
�I�
�DIGITAL-TO-�
�FREQUENCY�
�CF�
�CF�
�LPF� TO� EXTRACT�
�0.30�
�REAL� POWER�
�(DC� TERM)�
�0.25�
�V�
�2�
�I�
�COS� (2� )�
�TIME�
�0.20�
�0.15�
�ATTENUATED� BY� LPF�
�0.10�
�0�
�2�
�FREQUENCY� (RAD/s)�
�0.05�
�0�
�–0.05�
�INSTANTANEOUS� REAL� POWER� SIGNAL�
�(FREQUENCY� DOMAIN)�
�Figure� 13.� Real� Power-to-Frequency� Conversion�
�As� can� be� seen� in� the� diagram,� the� frequency� output� CF� is� seen�
�to� vary� over� time,� even� under� steady� load� conditions.� This� fre-�
�–0.10�
�40�
�45�
�50�
�55�
�FREQUENCY� –� Hz�
�60�
�65�
�70�
�quency� variation� is� primarily� due� to� the� cos(2� t)� component� in�
�the� instantaneous� real� power� signal.� The� output� frequency� on�
�CF� can� be� up� to� 2048� times� higher� than� the� frequency� on� F1�
�Figure� 12.� Phase� Error� between� Channels� (40� Hz� to� 70� Hz)�
�Digital-to-Frequency� Conversion�
�As� previously� described,� the� digital� output� of� the� low-pass� filter�
�after� multiplication� contains� the� real� power� information.� However,�
�since� this� LPF� is� not� an� ideal� “brick� wall”� filter� implementation,�
�the� output� signal� also� contains� attenuated� components� at� the�
�line� frequency� and� its� harmonics,� i.e.,� cos(h� t)� where� h� =� 1,� 2,�
�3,� .� .� .� and� so� on.�
�The� magnitude� response� of� the� filter� is� given� by�
�and� F2.� This� higher� output� frequency� is� generated� by� accumu-�
�lating� the� instantaneous� real� power� signal� over� a� much� shorter�
�time� while� converting� it� to� a� frequency.� This� shorter� accumula-�
�tion� period� means� less� averaging� of� the� cos(2� t)� component.�
�Consequently,� some� of� this� instantaneous� power� signal� passes�
�through� the� digital-to-frequency� conversion.� This� will� not� be� a�
�problem� in� the� application.� Where� CF� is� used� for� calibration�
�purposes,� the� frequency� should� be� averaged� by� the� frequency�
�counter,� which� will� remove� any� ripple.� If� CF� is� being� used� to�
�measure� energy,� for� example� in� a� microprocessor� based� applica-�
�|� H� (� f� )� |� =�
�1� +�
�1�
�f� 2�
�4� .� 45� 2�
�(5)�
�tion,� the� CF� output� should� also� be� averaged� to� calculate� power.�
�Because� the� outputs� F1� and� F2� operate� at� a� much� lower� fre-�
�quency,� a� lot� more� averaging� of� the� instantaneous� real� power�
�signal� is� carried� out.� The� result� is� a� greatly� attenuated� sinusoidal�
�content� and� a� virtually� ripple-free� frequency� output.�
�REV.� A�
�–11� –�
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