参数资料
| 型号: | EVAL-ADE7953EBZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 34/72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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��
��
��?� xWGAIN� ?�
�Active� Power� � ?�
�?� 0� x� 400000� ?�
�?� BIGAIN� ?�
�IRMSB� INITIAL�
�?� 0� x� 400000� ?�
�?� xVARGAIN� ?�
�?� 0� x� 400000� ?�
�ADE7953�
�ENERGY� CALIBRATION�
�GAIN� CALIBRATION�
�The� active,� reactive,� and� apparent� power� measurements� can�
�be� calibrated� on� Current� Channel� A� and� Current� Channel� B�
�separately.� This� allows� meter-to-meter� gain� variation� to� be�
�compensated� for.�
�The� AWGAIN� register� (Address� 0x282� and� Address� 0x382)�
�controls� the� active� power� gain� calibration� on� Current� Channel� A,�
�and� the� BWGAIN� register� (Address� 0x28E� and� Address� 0x38E)�
�controls� the� active� power� gain� calibration� on� Current� Channel� B.�
�The� default� value� of� the� xWGAIN� registers� is� 0x400000,� which�
�corresponds� to� no� gain� calibration.� The� minimum� value� that� can� be�
�written� to� the� xWGAIN� registers� is� 0x200000,� which� represents� a�
�gain� adjustment� of� ?50%.� The� maximum� value� that� can� be�
�written� to� the� xWGAIN� registers� is� 0x600000,� which� represents�
�a� gain� adjustment� of� +50%.� Equation� 29� shows� the� relationship�
�between� the� gain� adjustment� and� the� xWGAIN� registers.�
�Output� Power� (W)� =� (29)�
�?�
�?� ?�
�Similar� gain� calibration� registers� are� available� for� the� reactive�
�power� and� the� apparent� power.� The� reactive� power� on� Current�
�Channel� A� and� Current� Channel� B� can� be� gain� calibrated� using�
�the� AVARGAIN� (Address� 0x283� and� Address� 0x383)� and�
�BVARGAIN� (Address� 0x28F� and� Address� 0x38F)� registers,�
�respectively.� The� apparent� power� on� Current� Channel� A� and�
�Current� Channel� B� can� be� gain� calibrated� using� the� AVAGAIN�
�(Address� 0x284� and� Address� 0x384)� and� BVAGAIN�
�(Address� 0x290� and� Address� 0x390)� registers,� respectively.�
�The� xVARGAIN� and� xVAGAIN� registers� affect� the� reactive� and�
�apparent� powers� in� the� same� way� that� the� xWGAIN� registers�
�affect� the� active� power.� Equation� 29� can� therefore� be� modified�
�to� represent� the� gain� calibration� of� the� reactive� and� apparent�
�powers,� as� shown� in� Equation� 30� and� Equation� 31.�
�Output� Power� (VAR)� =� (30)�
�Reactive� Power� � ?�
�?� ?�
�Data� Sheet�
�Current� Channel� Gain� Adjustment�
�A� gain� calibration� register� is� also� provided� on� Current� Channel� B.�
�This� register� can� be� used� to� match� Current� Channel� B� to� Current�
�Channel� A� for� simple� calibration� and� computation.� The� Current�
�Channel� B� gain� calibration� is� performed� using� the� BIGAIN� register�
�(Address� 0x28C� and� Address� 0x38C).� Equation� 32� shows� the�
�relationship� between� the� gain� adjustment� and� the� IRMSB� register.�
�IRMSB� Expected� =� (32)�
�� ?� ?�
�?� ?�
�Similar� registers� are� available� for� the� voltage� channel� and� for�
�Current� Channel� A:� the� AVGAIN� register� (Address� 0x281� and�
�Address� 0x381)� and� BVGAIN� register� (Address� 0x28D� and�
�Address� 0x38D).� Only� the� AVGAIN� register� affects� the� RMS�
�reading� but� to� avoid� discrepancies� in� other� registers� if� AVGAIN�
�is� set� then� BVGAIN� should� be� set� to� the� same� value.� The�
�AIGAIN� register� (Address� 0x280� and� Address� 0x380)� provides�
�the� calibration� adjustment� and� function� in� the� same� way� as� the�
�BIGAIN� register.�
�PHASE� CALIBRATION�
�The� ADE7953� is� designed� to� function� with� a� variety� of� current�
�transducers,� including� those� that� induce� inherent� phase� errors.�
�A� phase� error� of� 0.1°� to� 0.3°� is� not� uncommon� for� a� current�
�transformer� (CT).� These� phase� errors� can� vary� from� part� to�
�part,� and� they� must� be� corrected� to� achieve� accurate� power�
�readings.� The� errors� associated� with� phase� mismatch� are�
�particularly� noticeable� at� low� power� factors.� The� ADE7953�
�provides� a� means� of� digitally� calibrating� these� small� phase�
�errors� by� introducing� a� time� delay� or� a� time� advance.�
�Because� different� sensors� can� be� used� on� Current� Channel� A�
�and� Current� Channel� B,� separate� phase� calibration� registers� are�
�included� on� each� channel.� The� PHCALA� register� (Address� 0x108)�
�can� be� used� to� correct� phase� errors� on� Current� Channel� A,� and�
�the� PHCALB� register� (Address� 0x109)� can� be� used� to� correct�
�phase� errors� on� Current� Channel� B.� Both� registers� are� in� 10-bit�
�sign� magnitude� format,� with� the� MSB� indicating� whether� a� time�
�delay� or� a� time� advance� is� added� to� the� corresponding� current�
�?� xVAGAIN� ?�
�?� 0� x� 400000� ?�
�Output� Power� (VA)� =�
�Apparent� Power� � ?�
�?� ?�
�(31)�
�channel.� Writing� a� 0� to� the� MSB� of� the� PHCALx� register� intro-�
�duces� a� time� delay� to� the� current� channel.� Writing� a� 1� to� the�
�MSB� of� the� PHCALx� register� introduces� a� time� advance.�
�The� maximum� range� that� can� be� written� to� PHCALx[8:0]� is�
�383� (decimal).� One� LSB� of� the� PHCALx� register� is� equivalent� to�
�a� time� delay� or� time� advance� of� 1.117� μs� (CLKIN/4).� With� a� line�
�frequency� of� 50� Hz,� the� resolution� is� 0.02°/LSB� ((360� ×� 50� Hz)/�
�895� kHz),� which� provides� a� total� correction� of� 7.66°� in� either�
�direction.� With� a� line� frequency� of� 60� Hz,� the� resolution� is�
�0.024°/LSB� ((360� ×� 60� Hz)/895� kHz),� which� provides� a� total�
�correction� of� 9.192°� in� either� direction.�
�Rev.� B� |� Page� 34� of� 72�
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