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| 型号: | ADE7878ACPZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 43/100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�
�ADE7854/ADE7858/ADE7868/ADE7878�
�f� (� t� )� =� ∑� F� k� 2� sin� (� k� ω� t� +� γ� k� )�
�f� 2� (� t� )� =� ∑� F� k� 2� ?� ∑� F� k� 2� cos(� 2� k� ω� t� +� 2� γ� k� )� +�
�∑� 2� ×� F� k� ×� F� m� sin� (� k� ω� t� +� γ� k� )� ×� sin� (� m� ω� t� +� γ� m� )�
�an� internal� 8-bit� register� located� at� Address� 0xE7FE,� followed�
�by� a� write� of� 0x00� to� an� internal� 8-bit� register� located� at�
�Address� 0xE7E3.� Reinitialize� the� registers.� Write� the� last�
�register� in� the� queue� three� times.� Enable� the� write� protec-�
�tion� by� writing� 0xAD� to� an� internal� 8-bit� register� located�
�at� Address� 0xE7FE,� followed� by� a� write� of� 0x80� to� an� internal�
�8-bit� register� located� at� Address� 0xE7E3.�
�There� is� no� obvious� reason� to� stop� the� DSP� if� the� ADE78xx� is�
�maintained� in� PSM0� normal� mode.� All� ADE78xx� registers,�
�including� ones� located� in� the� data� memory� RAM,� can� be�
�modified� without� stopping� the� DSP.� However,� to� stop� the� DSP,�
�∞�
�k� =� 1�
�Then�
�∞� ∞�
�k� =� 1� k� =� 1�
�∞�
�+� 2�
�k� ,� m� =� 1�
�k� ≠� m�
�After� the� LPF� and� the� execution� of� the� square� root,� the� rms�
�value� of� f(t)� is� obtained� by�
�(11)�
�(12)�
�∑� F� k� 2�
�?� T� ?�
�1� ?� 2�
�?�
�∫� 2� ×� F� 1� ×� sin(� ω� t� )� dt� ?� ∫� 2� ×� F� 1� ×� sin(� ω� t� )� dt� ?�
�T� ?� 0�
�?� ?�
�?� ?�
�F� DC� =�
�� 2� � F� 1�
�∫� f� (� t� )� dt�
�F� rms� =�
�1� t� 2�
�0x0000� has� to� be� written� into� run� register.� To� restart� the� DSP,�
�one� of� the� following� procedures� must� be� followed:�
�?� If� the� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� registers�
�located� in� the� data� memory� RAM� have� not� been� modified,�
�write� 0x0001� into� the� run� register� to� start� the� DSP.�
�?� If� the� ADE7854� /� ADE7858� /� ADE7868� /� ADE7878� registers�
�located� in� the� data� memory� RAM� have� to� be� modified,� first�
�execute� a� software� or� a� hardware� reset,� and� then� follow� the�
�recommended� procedure� to� initialize� the� registers� at� power�
�up.�
�As� mentioned� in� the� Power� Management� section,� when� the�
��power� mode,� it� is� recommended� to� stop� the� DSP� by� writing�
�0x0000� into� the� run� register� (see� Figure� 11� and� Table� 12� for�
�the� recommended� actions� when� changing� power� modes).�
�ROOT� MEAN� SQUARE� MEASUREMENT�
�Root� mean� square� (rms)� is� a� measurement� of� the� magnitude� of�
�an� ac� signal.� Its� definition� can� be� both� practical� and� mathematical.�
�Defined� practically,� the� rms� value� assigned� to� an� ac� signal� is� the�
�amount� of� dc� required� to� produce� an� equivalent� amount� of�
�power� in� the� load.� Mathematically,� the� rms� value� of� a� conti-�
�nuous� signal� f(t)� is� defined� as�
�(9)�
�t� 0�
�For� time� sampling� signals,� rms� calculation� involves� squaring� the�
�signal,� taking� the� average,� and� obtaining� the� square� root.�
�∞�
�F� =� (13)�
�k� =� 1�
�The� rms� calculation� based� on� this� method� is� simultaneously�
�processed� on� all� seven� analog� input� channels.� Each� result� is�
�available� in� the� 24-bit� registers:� AIRMS,� BIRMS,� CIRMS,�
�AVRMS,� BVRMS,� CVRMS,� and� NIRMS� (NIRMS� is� available�
�on� the� ADE7868� and� ADE7878� only).�
�The� second� method� computes� the� absolute� value� of� the� input�
�signal� and� then� filters� it� to� extract� its� dc� component.� It� computes�
�the� absolute� mean� value� of� the� input.� If� the� input� signal� in�
�Equation� 12� has� a� fundamental� component� only,� its� average�
�value� is�
�T�
�F� DC� =�
�T�
�2�
�2�
�π�
�The� calculation� based� on� this� method� is� simultaneously� processed�
�only� on� the� three� phase� currents.� Each� result� is� available� in� the�
�20-bit� registers,� which� are� available� on� the� ADE7868� and�
�ADE7878� only:� AIMAV,� BMAV,� and� CMAV.� Note� that� the�
�proportionality� between� mav� and� rms� values� is� maintained� for�
�the� fundamental� components� only.� If� harmonics� are� present� in� the�
�current� channel,� the� mean� absolute� value� is� no� longer�
�proportional� to� rms.�
�Current� RMS� Calculation�
�∑� f� [� n� ]�
�N�
�F� rms� =�
�1�
�N�
�N� =� 1�
�2�
�(10)�
�This� section� presents� the� first� approach� to� compute� the� rms�
�values� of� all� phase� and� neutral� currents.�
�Equation� 10� implies� that� for� signals� containing� harmonics,� the�
�rms� calculation� contains� the� contribution� of� all� harmonics,� not�
�only� the� fundamental.� The� ADE78xx� uses� two� different� methods�
�to� calculate� rms� values.� The� first� one� is� very� accurate� and� is� active�
�only� in� PSM0� mode.� The� second� one� is� less� accurate,� uses� the�
�estimation� of� the� mean� absolute� value� (mav)� measurement,� is�
�active� in� PSM0� and� PSM1� modes,� and� is� available� for� the�
�ADE7868� and� ADE7878� only.�
�The� first� method� is� to� low-pass� filter� the� square� of� the� input�
���rms� calculation� on� one� of� the� phases� of� the� current� channel.�
�The� current� channel� rms� value� is� processed� from� the� samples�
�used� in� the� current� channel.� The� current� rms� values� are� signed�
�24-bit� values� and� they� are� stored� into� the� AIRMS,� BIRMS,� CIRMS,�
�and� NIRMS� (� ADE7868� /� ADE7878� only)� registers.� The� update�
�rate� of� the� current� rms� measurement� is� 8� kHz.�
�With� the� specified� full-scale� analog� input� signal� of� 0.5� V,� the�
�ADC� produces� an� output� code� that� is� approximately� ±5,928,256.�
�The� equivalent� rms� value� of� a� full-scale� sinusoidal� signal� is�
�4,191,910� (0x3FF6A6),� independent� of� the� line� frequency.� If�
�Rev.� H� |� Page� 43� of� 100�
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