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| 型号: | ADE7878ACPZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 51/100页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 3PH 40LFCSP |
| 标准包装: | 1 |
| 输入阻抗: | 400 千欧 |
| 测量误差: | 0.2% |
| 电压 - 高输入/输出: | 2.4V |
| 电压 - 低输入/输出: | 0.4V |
| 电源电压: | 2.4 V ~ 3.7 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: | 40-WFQFN 裸露焊盘,CSP |
| 供应商设备封装: | 40-LFCSP-WQ(6x6) |
| 包装: | 托盘 |
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�
�Data� Sheet�
�CFWATTHR� 32-bit� signed� registers.� The� active� energy� register�
�ADE7854/ADE7858/ADE7868/ADE7878�
�Table� 15.� Inputs� to� Watt-Hour� Accumulation� Registers�
�content� can� roll� over� to� full-scale� negative� (0x80000000)� and�
�continue� increasing� in� value� when� the� active� power� is� positive.�
�Conversely,� if� the� active� power� is� negative,� the� energy� register�
�underflows� to� full-scale� positive� (0x7FFFFFFF)� and� continues�
�decreasing� in� value.�
�Bit� 0� (AEHF)� in� the� STATUS0� register� is� set� when� Bit� 30� of�
�one� of� the� xWATTHR� registers� changes,� signifying� one� of� these�
�CONSEL�
�00�
�01�
�10�
�11�
�AWATTHR�
�VA� � IA�
�VA� � IA�
�VA� � IA�
�VA� � IA�
�BWATTHR�
�VB� � IB�
�0�
�VB� � IB�
�VB� =� ?VA� ?� VC�
�VB� � IB�
�VB� =� ?VA�
�CWATTHR�
�VC� � IC�
�VC� � IC�
�VC� � IC�
�VC� � IC�
�registers� is� half� full.� If� the� active� power� is� positive,� the� watt-hour�
�register� becomes� half� full� when� it� increments� from� 0x3FFF� FFFF� to�
�0x4000� 0000.� If� the� active� power� is� negative,� the� watt-hour�
�register� becomes� half� full� when� it� decrements� from� 0xC000�
�0000� to� 0xBFFF� FFFF.� Similarly,� Bit� 1� (FAEHF)� in� STATUS0�
�register,� is� set� when� Bit� 30� of� one� of� the� xFWATTHR� registers�
�changes,� signifying� one� of� these� registers� is� half� full.�
�Setting� Bits[1:0]� in� the� MASK0� register� enable� the� FAEHF� and�
�AEHF� interrupts,� respectively.� If� enabled,� the� IRQ0� pin� is� set�
�low� and� the� status� bit� is� set� to� 1� whenever� one� of� the� energy�
�registers,� xWATTHR� (for� the� AEHF� interrupt)� or� xFWATTHR�
�(for� the� FAEHF� interrupt),� become� half� full.� The� status� bit� is�
�cleared� and� the� IRQ0� pin� is� set� to� logic� high� by� writing� to� the�
�STATUS0� register� with� the� corresponding� bit� set� to� 1.�
�Setting� Bit� 6� (RSTREAD)� of� the� LCYCMODE� register� enables� a�
�read-with-reset� for� all� watt-hour� accumulation� registers,� that� is,�
�the� registers� are� reset� to� 0� after� a� read� operation.�
�Integration� Time� Under� Steady� Load�
�The� discrete� time� sample� period� (T)� for� the� accumulation� register�
�is� 125� μs� (8� kHz� frequency).� With� full-scale� sinusoidal� signals�
�on� the� analog� inputs� and� the� watt� gain� registers� set� to� 0x00000,� the�
�average� word� value� from� each� LPF2� is� PMAX� =� 33,516,139� =�
�0x1FF6A6B.� If� the� WTHR� register� threshold� is� set� at� the� PMAX�
�level,� this� means� the� DSP� generates� a� pulse� that� is� added� at� watt-�
�hour� registers� every� 125� μs.�
�The� maximum� value� that� can� be� stored� in� the� watt-hour�
�accumulation� register� before� it� overflows� is� 2� 31� ?� 1� or�
�0x7FFFFFFF.� The� integration� time� is� calculated� as�
�Time� =� 0x7FFF,FFFF� ×� 125� μs� =� 74� hr� 33� min� 55� sec� (27)�
�Energy� Accumulation� Modes�
�The� active� power� accumulated� in� each� watt-hour� accumulation�
�32-bit� register� (AWATTHR,� BWATTHR,� CWATTHR,�
�AFWATTHR,� BFWATTHR,� and� CFWATTHR)� depends� on� the�
�configuration� of� Bit� 5� and� Bit� 4� (CONSEL� bits)� in� the� ACCMODE�
��Depending� on� the� polyphase� meter� service,� choose� the� appro-�
�priate� formula� to� calculate� the� active� energy.� The� American�
�ANSI� C12.10� standard� defines� the� different� configurations� of�
�the� meter.� Table� 16� describes� which� mode� to� choose� in� these�
�various� configurations.�
�Table� 16.� Meter� Form� Configuration�
�ANSI� Meter� Form� Configuration� CONSEL�
�5S/13S� 3-wire� delta� 01�
�6S/14S� 4-wire� wye� 10�
�8S/15S� 4-wire� delta� 11�
�9S/16S� 4-wire� wye� 00�
�Bits[1:0]� (WATTACC[1:0])� in� the� ACCMODE� register� determine�
�how� the� CF� frequency� output� can� be� generated� as� a� function� of�
�the� total� and� fundamental� active� powers.� Whereas� the� watt-hour�
�accumulation� registers� accumulate� the� active� power� in� a� signed�
�format,� the� frequency� output� can� be� generated� in� signed� mode�
�or� in� absolute� mode� as� a� function� of� the� WATTACC[1:0]� bits.�
�See� the� Energy-to-Frequency� Conversion� section� for� details.�
�Line� Cycle� Active� Energy� Accumulation� Mode�
�In� line� cycle� energy� accumulation� mode,� the� energy� accumula-�
�tion� is� synchronized� to� the� voltage� channel� zero� crossings� such�
�that� active� energy� is� accumulated� over� an� integral� number� of�
�half� line� cycles.� The� advantage� of� summing� the� active� energy�
�over� an� integer� number� of� line� cycles� is� that� the� sinusoidal� compo-�
�nent� in� the� active� energy� is� reduced� to� 0.� This� eliminates� any�
�ripple� in� the� energy� calculation� and� allows� the� energy� to� be�
�accumulated� accurately� over� a� shorter� time.� By� using� the� line�
�cycle� energy� accumulation� mode,� the� energy� calibration� can� be�
�greatly� simplified,� and� the� time� required� to� calibrate� the� meter�
�can� be� significantly� reduced.� In� line� cycle� energy� accumulation�
�mode,� the� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� transfer� the�
�active� energy� accumulated� in� the� 32-bit� internal� accumulation�
�registers� into� the� xWATTHR� or� xFWATTHR� registers� after� an�
�integral� number� of� line� cycles,� as� shown� in� Figure� 70.� The�
�number� of� half� line� cycles� is� specified� in� the� LINECYC� register.�
�Rev.� H� |� Page� 51� of� 100�
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