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| 型号: | ADE7878ACPZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 49/100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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��
�
�Power� =�
�dEnergy�
�DataSheet�
�The� output� is� scaled� by� ?50%� by� writing� 0xC00000� to� the� watt�
�gain� registers,� and� it� is� increased� by� +50%� by� writing� 0x400000�
�to� them.� These� registers� are� used� to� calibrate� the� active� power�
��ADE7878� for� each� phase.�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
��work� on� 32-,� 16-,� or� 8-bit� words,� and� the� DSP� works� on� 28� bits.�
�Similar� to� registers� presented� in� Figure� 35,� AWGAIN,� BWGAIN,�
�CWGAIN,� AFWGAIN,� BFWGAIN,� and� CFWGAIN� 24-bit�
�signed� registers� are� accessed� as� 32-bit� registers� with� the� four�
�MSBs� padded� with� 0s� and� sign� extended� to� 28� bits.�
�Active� Power� Offset� Calibration�
�The� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� incorporate� a�
�watt� offset� 24-bit� register� on� each� phase� and� on� each� active�
�power.� The� AWATTOS,� BWATTOS,� and� CWATTOS� registers�
�compensate� the� offsets� in� the� total� active� power� calculations,�
�and� the� AFWATTOS,� BFWATTOS,� and� CFWATTOS� registers�
�compensate� offsets� in� the� fundamental� active� power� calculations.�
�These� are� signed� twos� complement,� 24-bit� registers� that� are�
�used� to� remove� offsets� in� the� active� power� calculations.� An�
�offset� can� exist� in� the� power� calculation� due� to� crosstalk� between�
�channels� on� the� PCB� or� in� the� chip� itself.� One� LSB� in� the� active�
�power� offset� register� is� equivalent� to� 1� LSB� in� the� active� power�
�multiplier� output.� With� full-scale� current� and� voltage� inputs,�
�the� LPF2� output� is� PMAX� =� 33,516,139.� At� ?80� dB� down� from�
�the� full� scale� (active� power� scaled� down� 10� 4� times),� one� LSB� of�
�the� active� power� offset� register� represents� 0.0298%� of� PMAX.�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
��work� on� 32-,� 16-,� or� 8-bit� words� and� the� DSP� works� on� 28� bits.�
�Similar� to� registers� presented� in� Figure� 35,� the� AWATTOS,�
�BWATTOS,� CWATTOS,� AFWATTOS,� BFWATTOS,� and�
�CFWATTOS� 24-bit� signed� registers� are� accessed� as� 32-bit�
�registers� with� the� four� MSBs� padded� with� 0s� and� sign� extended�
�to� 28� bits.�
�Sign� of� Active� Power� Calculation�
�The� average� active� power� is� a� signed� calculation.� If� the� phase�
�difference� between� the� current� and� voltage� waveform� is� more�
�than� 90°,� the� average� power� becomes� negative.� Negative� power�
�indicates� that� energy� is� being� injected� back� on� the� grid.� The�
�ADE78xx� has� sign� detection� circuitry� for� active� power�
�calculations.� It� can� monitor� the� total� active� powers� or� the�
�ADE7854/ADE7858/ADE7868/ADE7878�
�Calculation� section,� the� active� energy� accumulation� is� performed�
�in� two� stages.� Every� time� a� sign� change� is� detected� in� the� energy�
�accumulation� at� the� end� of� the� first� stage,� that� is,� after� the� energy�
�accumulated� into� the� internal� accumulator� reaches� the� WTHR�
�register� threshold,� a� dedicated� interrupt� is� triggered.� The� sign� of�
�each� phase� active� power� can� be� read� in� the� PHSIGN� register.�
�Bit� 6� (REVAPSEL)� in� the� ACCMODE� register� sets� the� type�
�of� active� power� being� monitored.� When� REVAPSEL� is� 0,�
�the� default� value,� the� total� active� power� is� monitored.� When�
�REVAPSEL� is� 1,� the� fundamental� active� power� is� monitored.�
�Bits[8:6]� (REVAPC,� REVAPB,� and� REVAPA,� respectively)� in� the�
�STATUS0� register� are� set� when� a� sign� change� occurs� in� the�
�power� selected� by� Bit� 6� (REVAPSEL)� in� the� ACCMODE�
�register.�
�Bits[2:0]� (CWSIGN,� BWSIGN,� and� AWSIGN,� respectively)� in�
�the� PHSIGN� register� are� set� simultaneously� with� the� REVAPC,�
�REVAPB,� and� REVAPA� bits.� They� indicate� the� sign� of� the� power.�
�When� they� are� 0,� the� corresponding� power� is� positive.� When�
�they� are� 1,� the� corresponding� power� is� negative.�
�Bit� REVAPx� of� STATUS0� and� Bit� xWSIGN� in� the� PHSIGN�
�register� refer� to� the� total� active� power� of� Phase� x,� the� power� type�
�being� selected� by� Bit� 6� (REVAPSEL)� in� the� ACCMODE� register.�
�Interrupts� attached� to� Bits[8:6]� (REVAPC,� REVAPB,� and� REVAPA,�
�respectively)� in� the� STATUS0� register� can� be� enabled� by� setting�
�Bits[8:6]� in� the� MASK0� register.� If� enabled,� the� IRQ0� pin� is� set�
�low,� and� the� status� bit� is� set� to� 1� whenever� a� change� of� sign� occurs.�
�To� find� the� phase� that� triggered� the� interrupt,� the� PHSIGN� register�
�is� read� immediately� after� reading� the� STATUS0� register.� Next,� the�
�status� bit� is� cleared� and� the� IRQ0� pin� is� returned� to� high� by� writing�
�to� the� STATUS0� register� with� the� corresponding� bit� set� to� 1.�
�Active� Energy� Calculation�
�As� previously� stated,� power� is� defined� as� the� rate� of� energy� flow.�
�This� relationship� can� be� expressed� mathematically� as�
�(23)�
�dt�
�Conversely,� energy� is� given� as� the� integral� of� power,� as� follows:�
�Energy� =� ∫� p� (� t� )� dt� (24)�
�Total� and� fundamental� active� energy� accumulations� are� always�
�signed� operations.� Negative� energy� is� subtracted� from� the� active�
�energy� contents.�
��Rev.� H� |� Page� 49� of� 100�
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