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参数资料
| 型号: | ADE7758ARWZRL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 41/72页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 3PHASE 24SOIC |
| 标准包装: | 1,000 |
| 输入阻抗: | 380 千欧 |
| 测量误差: | 0.1% |
| 电压 - 高输入/输出: | 2.4V |
| 电压 - 低输入/输出: | 0.8V |
| 电流 - 电源: | 8mA |
| 电源电压: | 4.75 V ~ 5.25 V |
| 测量仪表类型: | 3 相 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 24-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 24-SOIC W |
| 包装: | 带卷 (TR) |
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��
�
�Data� Sheet�
�Table� 14.� Inputs� to� VA-Hr� Accumulation� Registers�
�ADE7758�
�CONSEL[1,� 0]�
�00�
�01�
�10�
�11�
�AVAHR� 1�
�AVRMS� � AIRMS�
�AVRMS� � AIRMS�
�AVRMS� � AIRMS�
�Reserved�
�BVAHR�
�BVRMS� � BIRMS�
�AVRMS� +� CVRMS/2� � BIRMS�
�BVRMS� � BIRMS�
�Reserved�
�CVAHR�
�CVRMS� � CIRMS�
�CVRMS� � CIRMS�
�CVRMS� � CIRMS�
�Reserved�
�1�
�AVRMS/BVRMS/CVRMS� are� the� rms� voltage� waveform,� and� AIRMS/BIRMS/CIRMS� are� the� rms� values� of� the� current� waveform.�
�Energy� Accumulation� Mode�
�The� apparent� power� accumulated� in� each� VA-hr� accumulation�
�register� (AVAHR,� BVAHR,� or� CVAHR)� depends� on� the� con-�
�figuration� of� the� CONSEL� bits� in� the� COMPMODE� register�
�(Bit� 0� and� Bit� 1).� The� different� configurations� are� described� in�
�Table� 14.�
�The� contents� of� the� VA-hr� accumulation� registers� are� affected�
�by� both� the� registers� for� rms� voltage� gain� (VRMSGAIN),� as� well�
�as� the� VAGAIN� register� of� the� corresponding� phase.�
�Apparent� Power� Frequency� Output�
�Pin� 17� (VARCF)� of� the� ADE7758� provides� frequency� output� for�
�the� total� apparent� power.� By� setting� the� VACF� bit� (Bit� 7)� of� the�
�root� of� their� sum� to� determine� the� apparent� energy� over� the�
�same� period.�
�ENERGY� REGISTERS� SCALING�
�The� ADE7758� provides� measurements� of� active,� reactive,� and�
�apparent� energies� that� use� separate� signal� paths� and� filtering� for�
�calculation.� The� differences� in� the� datapaths� can� result� in� small�
�differences� in� LSB� weight� between� the� active,� reactive,� and�
�apparent� energy� registers.� These� measurements� are� internally�
�compensated� so� that� the� scaling� is� nearly� one� to� one.� The�
�relationship� between� the� registers� is� shown� in� Table� 15.�
�Table� 15.� Energy� Registers� Scaling�
�Frequency�
�WAVMODE� register,� this� pin� provides� an� output� frequency� that�
�is� directly� proportional� to� the� total� apparent� power.�
�Integrator� Off�
�60� Hz�
�50� Hz�
�A� digital-to-frequency� converter� (DFC)� is� used� to� generate� the�
�pulse� output� from� the� total� apparent� power.� The� TERMSEL� bits�
�(Bit� 2� to� Bit� 4)� of� the� COMPMODE� register� can� be� used� to�
�select� which� phases� to� include� in� the� total� power� calculation.�
�Setting� Bit� 2,� Bit� 3,� and� Bit� 4� includes� the� input� to� the� AVAHR,�
�VAR�
�VA�
�Integrator� On�
�VAR�
�VA�
�1.004� � WATT�
�1.00058� � WATT�
�1.0059� � WATT�
�1.00058� � WATT�
�1.0054� � WATT�
�1.0085� � WATT�
�1.0064� � WATT�
�1.00845� � WATT�
�BVAHR,� and� CVAHR� registers� in� the� total� apparent� power�
�calculation.� A� pair� of� frequency� divider� registers,� namely�
�VARCFDEN� and� VARCFNUM,� can� be� used� to� scale� the� output�
�frequency� of� this� pin.� Note� that� either� VAR� or� apparent� power�
�can� be� selected� at� one� time� for� this� frequency� output� (see� the�
�Reactive� Power� Frequency� Output� section).�
�Line� Cycle� Apparent� Energy� Accumulation� Mode�
�The� line� cycle� apparent� energy� accumulation� mode� is� activated�
�by� setting� the� LVA� bit� (Bit� 2)� in� the� LCYCMODE� register.� The�
�total� apparent� energy� accumulated� over� an� integer� number� of�
�zero� crossings� is� written� to� the� VA-hr� accumulation� registers�
�after� the� LINECYC� number� of� zero� crossings� is� detected.� The�
�operation� of� this� mode� is� similar� to� watt-hr� accumulation� (see�
�the� Line� Cycle� Active� Energy� Accumulation� Mode� section).�
�When� using� the� line� cycle� accumulation� mode,� the� RSTREAD�
�bit� (Bit� 6)� of� the� LCYCMODE� register� should� be� set� to� Logic� 0.�
�Note� that� this� mode� is� especially� useful� when� the� user� chooses�
�to� perform� the� apparent� energy� calculation� using� the� vectorial�
�method.�
�By� setting� LWATT� and� LVAR� bits� (Bit� 0� and� Bit� 1)� of� the�
�WAVEFORM� SAMPLING� MODE�
�The� waveform� samples� of� the� current� and� voltage� waveform,� as�
�well� as� the� active,� reactive,� and� apparent� power� multiplier� out-�
�puts,� can� all� be� routed� to� the� WAVEFORM� register� by� setting�
�the� WAVSEL[2:0]� bits� (Bit� 2� to� Bit� 4)� in� the� WAVMODE�
�register.� The� phase� in� which� the� samples� are� routed� is� set� by�
�setting� the� PHSEL[1:0]� bits� (Bit� 0� and� Bit� 1)� in� the� WAVMODE�
�register.� All� energy� calculation� remains� uninterrupted� during�
�waveform� sampling.� Four� output� sample� rates� can� be� chosen� by�
�using� Bit� 5� and� Bit� 6� of� the� WAVMODE� register� (DTRT[1:0]).�
�The� output� sample� rate� can� be� 26.04� kSPS,� 13.02� kSPS,�
�6.51� kSPS,� or� 3.25� kSPS� (see� Table� 20).�
�By� setting� the� WFSM� bit� in� the� interrupt� mask� register� to�
�Logic� 1,� the� interrupt� request� output� IRQ� goes� active� low� when�
�a� sample� is� available.� The� 24-bit� waveform� samples� are�
�transferred� from� the� ADE7758� one� byte� (8� bits)� at� a� time,� with�
�the� most� significant� byte� shifted� out� first.�
�The� interrupt� request� output� IRQ� stays� low� until� the� interrupt�
�routine� reads� the� reset� status� register� (see� the� Interrupts� section).�
�LCYCMODE� register,� the� active� and� reactive� energies� are�
�accumulated� over� the� same� period.� Therefore,� the� MCU� can�
�perform� the� squaring� of� the� two� terms� and� then� take� the� square�
�Rev.� E� |� Page� 41� of� 72�
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