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| 型号: | ADE7878ACPZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 33/100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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�ADC� Output� � ??� 1� +�
�??�
�?� Content� of� Voltage� Gain� Register� ?�
�2� 23�
�DataSheet�
�Voltage� Waveform� Gain� Registers�
�There� is� a� multiplier� in� the� signal� path� of� each� phase� voltage.�
�The� voltage� waveform� can� be� changed� by� ±100%� by� writing�
�a� corresponding� twos� complement� number� to� the� 24-bit� signed�
�voltage� waveform� gain� registers� (AVGAIN,� BVGAIN,� and�
�CVGAIN).� For� example,� if� 0x400000� is� written� to� those� registers,�
�the� ADC� output� is� scaled� up� by� 50%.� To� scale� the� input� by� ?50%,�
�write� 0xC00000� to� the� registers.� Equation� 4� describes� mathe-�
�matically� the� function� of� the� current� waveform� gain� registers.�
�Voltage� Waveform� =�
�(4)�
�?� ?�
�Changing� the� content� of� the� AVGAIN,� BVGAIN,� and� CVGAIN�
�registers� affects� all� calculations� based� on� its� voltage;� that� is,� it�
�affects� the� corresponding� phase� active/reactive/apparent� energy�
�and� voltage� rms� calculation.� In� addition,� waveform� samples� are�
�scaled� accordingly.�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
�serial� ports� of� the� ADE78xx� work� on� 32-,� 16-,� or� 8-bit� words,�
�and� the� DSP� works� on� 28� bits.� As� presented� in� Figure� 35,� the�
�AVGAIN,� BVGAIN,� and� CVGAIN� registers� are� accessed� as�
�32-bit� registers� with� four� MSBs� padded� with� 0s� and� sign�
�extended� to� 28� bits.�
�Voltage� Channel� HPF�
�As� explained� in� the� Current� Channel� HPF� section,� the� ADC�
�outputs� can� contain� a� dc� offset� that� can� create� errors� in� power�
�and� rms� calculations.� HPFs� are� placed� in� the� signal� path� of� the�
�phase� voltages,� similar� to� the� ones� in� the� current� channels.� The�
�HPFDIS� register� can� enable� or� disable� the� filters.� See� the�
��Voltage� Channel� Sampling�
�The� waveform� samples� of� the� voltage� channel� are� taken� at� the�
�output� of� HPF� and� stored� into� VAWV,� VBWV,� and� VCWV�
�ADE7854/ADE7858/ADE7868/ADE7878�
�CHANGING� PHASE� VOLTAGE� DATAPATH�
�The� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� can� direct� one�
�phase� voltage� input� to� the� computational� datapath� of� another�
�phase.� For� example,� Phase� A� voltage� can� be� introduced� in� the�
�Phase� B� computational� datapath,� which� means� all� powers�
�computed� by� the� ADE78xx� in� Phase� B� are� based� on� Phase� A�
�voltage� and� Phase� B� current.�
�Bits[9:8]� (VTOIA[1:0])� of� the� CONFIG� register� manage� what�
�phase� voltage� is� directed� to� Phase� A� computational� data� path.� If�
�VTOIA[1:0]� =� 00� (default� value),� the� Phase� A� voltage� is� directed�
�to� the� Phase� A� computational� data� path.� If� VTOIA[1:0]� =� 01,�
�the� Phase� B� voltage� is� directed� to� the� Phase� A� computational�
�data� path.� If� VTOIA[1:0]� =� 10,� the� Phase� C� voltage� is� directed�
�to� the� Phase� A� computational� data� path.� If� VTOIA[1:0]� =� 11,�
�the� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� behaves� as� if�
�VTOIA[1:0]� =� 00.�
�Bits[11:10]� (VTOIB[1:0])� of� the� CONFIG� register� manage�
�what� phase� voltage� is� directed� to� the� Phase� B� computational�
�data� path.� If� VTOIB[1:0]� =� 00� (default� value),� the� Phase� B�
�voltage� is� directed� to� the� Phase� B� computational� data� path.�
�If� VTOIB[1:0]� =� 01,� the� Phase� C� voltage� is� directed� to� the�
�Phase� B� computational� data� path.� If� VTOIB[1:0]� =� 10,� the� Phase� A�
�voltage� is� directed� to� the� Phase� B� computational� data� path.� If�
��behaves� as� if� VTOIB[1:0]� =� 00.�
�Bits[13:12]� (VTOIC[1:0])� of� the� CONFIG� register� manage� what�
�phase� voltage� is� directed� to� the� Phase� C� computational� data�
�path.� If� VTOIC[1:0]� =� 00� (default� value),� the� Phase� C� voltage� is�
�directed� to� Phase� C� computational� data� path,� if� VTOIC[1:0]� =�
�01,� the� Phase� A� voltage� is� directed� to� the� Phase� C� computational�
�data� path.� If� VTOIC[1:0]� =� 10,� the� Phase� B� voltage� is� directed� to�
�the� Phase� C� computational� data� path.� If� VTOIC[1:0]� =� 11,� the�
��VTOIC[1:0]� =� 00.�
�24-bit� signed� registers� at� a� rate� of� 8� kSPS.� All� power� and� rms�
�calculations� remain� uninterrupted� during� this� process.� Bit� 17�
�(DREADY)� in� the� STATUS0� register� is� set� when� the� VAWV,�
�VBWV,� and� VCWV� registers� are� available� to� be� read� using� the�
�I� 2� C� or� SPI� serial� port.� Setting� Bit� 17� (DREADY)� in� the� MASK0�
�register� enables� an� interrupt� to� be� set� when� the� DREADY� flag� is�
�set.� See� the� Digital� Signal� Processor� section� for� more� details� on�
�Bit� DREADY.�
�As� stated� in� the� Current� Waveform� Gain� Registers� section,� the�
�serial� ports� of� the� ADE78xx� work� on� 32-,� 16-,� or� 8-bit� words.�
�Similar� to� registers� presented� in� Figure� 37,� the� VAWV,� VBWV,�
�and� VCWV� 24-bit� signed� registers� are� transmitted� sign�
�extended� to� 32� bits.�
�The� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� each� contain� an�
�HSDC� port� especially� designed� to� provide� fast� access� to� the�
�waveform� sample� registers.� See� the� HSDC� Interface� section� for�
�more� details.�
�Rev.� H� |� Page� 33� of� 100�
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