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| 型号: | ADE7759ARSZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 21/36页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 1PHASE 20SSOP |
| 标准包装: | 66 |
| 输入阻抗: | 390 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: | 3mA |
| 电源电压: | 4.75 V ~ 5.25 V |
| 测量仪表类型: | 单相 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 20-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 20-SSOP |
| 包装: | 管件 |
| 产品目录页面: | 797 (CN2011-ZH PDF) |
| 配用: | EVAL-ADE7759EBZ-ND - BOARD EVALUATION FOR ADE7759 |
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��
��
��ADE7759�
�INSTANTANEOUS� p(t)� =� V�
�POWER� SIGNAL�
�I� –V�
�I�
�cos(2� t)�
�1999Ah�
�ACTIVE� REAL� POWER�
�SIGNAL� =� V� I�
�13333h�
�+30%� FS�
�CCCDh�
�+20%� FS�
�POSITIVE�
�POWER�
�VI�
�6666h�
�+10%� FS�
�CCCDh�
�00000h�
�F999Ah�
�–10%� FS�
�F3333h�
�–20%� FS�
�NEGATIVE�
�POWER�
�00000h�
�ECCCDh�
�000h�
�7FFh�
�800h�
�–30%� FS�
�CURRENT�
�{APGAIN� [11:0]}�
�i(t)� =� 2�
�I�
�sin(� t)�
�CHANNEL� 1� (ACTIVE� POWER)�
�VOLTAGE�
�CALIBRATION� RANGE�
�v(t)� =� 2�
�V�
�sin(� t)�
�Figure� 35.� Active� Power� Calculation� Output� Range�
�Figure� 32.� Active� Power� Calculation�
�ENERGY� CALCULATION�
�0�
�As� stated� earlier,� power� is� defined� as� the� rate� of� energy� flow.�
�This� relationship� can� be� expressed� mathematically� as:�
�–4�
�P� =�
�dE�
�dt�
�(5)�
�–8�
�where� P� =� power� and� E� =� energy.�
�–12�
�Conversely,� energy� is� given� as� the� integral� of� power:�
�–16�
�E� =� ∫� Pdt�
�(6)�
�The� AD7759� achieves� the� integration� of� the� active� power� signal�
�–20�
�by� continuously� accumulating� the� active� power� signal� in� the�
�40-bit� active� energy� register� (ASENERGY[39:0]).� This� discrete�
�time� accumulation� or� summation� is� equivalent� to� integration� in�
�–24�
�1�
�3�
�10�
�30�
�100�
�continuous� time.� Equation� 7� expresses� this� relationship:�
�E� =� ∫� P� (� t� )� dt� =� Lim� ?� ∑� p� (� nT� )� ×� T� ?�
�?� ?�
�n� =� 0�
�FREQUENCY� –� Hz�
�Figure� 33.� Frequency� Response� of� LPF2�
�Figure� 34� shows� the� signal� processing� chain� for� the� active� power�
�calculation� in� the� ADE7759.� As� explained,� the� active� power� is�
�calculated� by� low� pass� filtering� the� instantaneous� power� signal.�
�?� ∞� ?�
�T� →� 0�
�where� n� is� the� discrete� time� sample� number� and� T� is� the�
�sample� period.�
�(7)�
�The� discrete� time� sample� period� (T)� for� the� accumulation� regis-�
�HPF�
�ACTIVE� POWER�
�SIGNAL� –� P�
�ter� in� the� ADE7759� is� 1.1� μ� s� (4/CLKIN).� As� well� as� calculating�
�I�
�CURRENT� SIGNAL� –� i(t)�
�MULTIPLIER�
�20�
�LPF2�
�CCCDh�
�the� energy,� this� integration� removes� any� sinusodial� components�
�which� may� be� in� the� active� power� signal.�
�Figure� 36� shows� a� graphical� representation� of� this� discrete� time�
�integration� or� accumulation.� The� active� power� signal� in� the� wave-�
�1�
�V�
�VOLTAGE� SIGNAL� –� v(t)�
�INSTANTANEOUS� POWER� SIGNAL� –� p(t)�
�–40%� TO� +40%� FS�
�1999Ah�
�00h�
�form� register� is� continuously� added� to� the� active� energy� register.�
�This� addition� is� a� signed� addition;� therefore� negative� energy� will� be�
�subtracted� from� the� active� energy� contents.�
�As� shown� in� Figure� 36,� the� active� power� signal� is� accumulated�
�in� a� 40-bit� signed� register� (AENERGY[39:0]).� The� active�
�Figure� 34.� Active� Power� Signal� Processing�
�Shown� in� Figure� 35� is� the� maximum� code� (hexadecimal)� output�
�range� for� the� active� power� signal� (LPF2)� when� the� digital� inte-�
�grator� is� disabled.� Note� that� when� the� integrator� is� enabled,� the�
�output� range� changes� depending� on� the� input� signal� frequency.�
�Furthermore,� the� output� range� can� also� be� changed� by� the�
�active� power� gain� register—see� Channel� 1� ADC� section.� The�
�minimum� output� range� is� given� when� the� active� power� gain�
�register� contents� are� equal� to� 800h,� and� the� maximum� range� is�
�given� by� writing� 7FFh� to� the� active� power� gain� register.� This�
�can� be� used� to� calibrate� the� active� power� (or� energy)� calculation�
�in� the� ADE7759.�
�REV.� A�
�power� signal� can� be� read� from� the� waveform� register� by� setting�
�MODE[14:13]� =� 0,� 0� and� setting� the� WSMP� bit� (Bit� 3)� in�
�the� interrupt� enable� register� to� 1.� Like� Channel� 1� and� Channel� 2�
�waveform� sampling� modes,� the� waveform� data� is� available� at�
�sample� rates� of� 27.9� kSPS,� 14� kSPS,� 7� kSPS,� or� 3.5� kSPS—see�
�Figure� 24.� Figure� 37� shows� this� energy� accumulation� for� full-scale�
�signals� (sinusodial)� on� analog� inputs.� The� three� curves� displayed�
�illustrate� the� minimum� period� of� time� it� takes� the� energy� register� to�
�roll� over� when� the� active� power� gain� register� contents� are� 7FFh,�
�000h,� and� 800h.� The� active� power� gain� register� is� used� to� carry� out�
�power� calibration� in� the� ADE7759.� As� shown,� the� fastest�
�integration� time� will� occur� when� the� active� power� gain� register� is�
�set� to� maximum� full� scale,� i.e.,� 7FFh.�
�–21� –�
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