参数资料
| 型号: | EVAL-ADE7953EBZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 38/72页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL FOR ADE7953 |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电度表/功率表 |
| 已用 IC / 零件: | ADE7953 |
| 主要属性: | 3 通道 |
| 次要属性: | USB 接口 |
| 已供物品: | 2 板,CD |
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��ADE7953�
�POWER� FACTOR�
�The� ADE7953� provides� a� direct� power� factor� measurement�
�simultaneously� on� Current� Channel� A� and� Current� Channel� B.�
�Power� factor� in� an� ac� circuit� is� defined� as� the� ratio� of� the� active�
�power� flowing� to� the� load� to� the� apparent� power.� The� power�
�factor� measurement� is� defined� in� terms� of� “leading”� or� “lagging,”�
�referring� to� whether� the� current� waveform� is� leading� or� lagging�
�the� voltage� waveform.�
�When� the� current� waveform� is� leading� the� voltage� waveform,�
�the� load� is� capacitive� and� is� defined� as� a� negative� power� factor.�
�When� the� current� waveform� is� lagging� the� voltage� waveform,�
�the� load� is� inductive� and� is� defined� as� a� positive� power� factor.�
�The� relationship� of� the� current� waveform� to� the� voltage� wave-�
��Data� Sheet�
�By� default,� the� instantaneous� active� and� apparent� power�
�readings� are� used� to� calculate� the� power� factor,� and� the� register�
�is� updated� at� a� rate� of� 6.99� kHz.� The� sign� bit� is� taken� from� the�
�instantaneous� reactive� energy� measurement� on� each� channel.�
�USING� THE� LINE� CYCLE� ACCUMULATION� MODE�
�TO� DETERMINE� THE� POWER� FACTOR�
�If� a� power� factor� measurement� with� more� averaging� is� required,�
�the� ADE7953� can� use� the� line� cycle� accumulation� measurement�
�on� the� active� and� apparent� energies� to� determine� the� power� factor�
�(see� the� Active� Energy� Line� Cycle� Accumulation� Mode� section�
�and� the� Apparent� Energy� Line� Cycle� Accumulation� Mode� section).�
�This� option� provides� a� more� stable� power� factor� reading.�
�To� use� the� line� cycle� accumulation� mode� to� determine� the� power�
�ACTIVE� (–)�
�REACTIVE� (–)�
�ACTIVE� (+)�
�REACTIVE� (–)�
�factor,� the� ADE7953� must� be� configured� as� follows:�
�I�
�+60°� =� θ;� PF� =� –0.5�
�–60°� =� θ;� PF� =� +0.5�
�V�
�CAPACITIVE� LOAD:�
�CURRENT� LEADS�
�VOLTAGE�
�INDUCTIVE� LOAD:�
�CURRENT� LAGS�
�?�
�?�
�The� PFMODE� bit� (Bit� 3)� must� be� set� to� 1� in� the� CONFIG�
�register� (Address� 0x102).�
�The� line� cycle� accumulation� mode� must� be� enabled� on�
�both� the� active� and� apparent� energies� by� setting� the�
�xLWATT� and� xLVA� bits� to� 1� in� the� LCYCMODE� register�
�(Address� 0x004).�
�I� VOLTAGE�
�ACTIVE� (–)� ACTIVE� (+)�
�REACTIVE� (+)� REACTIVE� (+)�
�Figure� 59.� Capacitive� and� Inductive� Loads�
�As� shown� in� Figure� 59,� the� reactive� power� measurement� is�
�negative� when� the� load� is� capacitive� and� positive� when� the�
�load� is� inductive.� The� sign� of� the� reactive� power� can� therefore�
�be� used� to� reflect� the� sign� of� the� power� factor.�
�The� mathematical� definition� of� power� factor� is� shown� in�
�Equation� 37.�
�When� using� line� cycle� accumulation� to� determine� the� power�
�factor,� the� update� rate� of� the� power� factor� measurement� is� an�
�integral� number� of� half� line� cycles.� The� number� of� half� line� cycles�
�is� programmed� in� the� LINECYC� register� (Address� 0x101).� For�
�complete� information� about� setting� up� the� line� cycle� accumula-�
���Mode� section.�
�POWER� FACTOR� WITH� NO-LOAD� DETECTION�
�Power� Factor� =� (� Sign� of� Reactive� Power� )� �
�|� Active Power� |�
�Apparent� Power�
�(37)�
�The� power� factor� measurement� is� affected� by� the� no-load�
�condition� if� no-load� detection� is� enabled� (see� the� No-Load�
�The� absolute� value� of� active� power� is� used.�
�The� power� factor� measurement� includes� the� effect� of� all�
�harmonics� over� the� 1.23� kHz� bandwidth.�
�The� power� factor� readings� are� stored� in� two� 16-bit,� signed�
�registers:� PFA� (Address� 0x10A)� for� Current� Channel� A� and�
�PFB� (Address� 0x10B)� for� Current� Channel� B.� These� registers� are�
�signed,� twos� complement� registers� with� the� MSB� indicating� the�
�polarity� of� the� power� factor.� Each� LSB� of� the� PFx� register� equates�
�to� a� weight� of� 2� ?15� ;� therefore,� the� maximum� register� value� of�
�0x7FFF� corresponds� to� a� power� factor� value� of� 1.� The� minimum�
�register� value� of� 0x8000� corresponds� to� a� power� factor� of� ?1.�
�Detection� section).� The� following� considerations� apply� only�
�when� no-load� detection� is� enabled� and� a� no-load� condition�
�occurs:�
�?� If� the� apparent� energy� no-load� condition� is� true,� the� power�
�factor� measurement� is� set� to� 1� because� it� is� assumed� that�
�there� is� no� active� or� reactive� power.�
�?� If� the� active� energy� no-load� condition� is� true,� the� power�
�factor� measurement� is� set� to� 0� because� it� is� assumed� that�
�the� load� is� purely� capacitive� or� inductive.�
�?� If� the� reactive� energy� no-load� condition� is� true,� the� sign� of�
�the� power� factor� is� based� on� the� sign� of� the� active� power.�
�Rev.� B� |� Page� 38� of� 72�
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