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参数资料
| 型号: | ADE7757ARNZRL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 12/16页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 1PHASE 16SOIC |
| 标准包装: | 2,500 |
| 输入阻抗: | 320 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: | 5mA |
| 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: | 16-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-SOIC |
| 包装: | 带卷 (TR) |
��
���
���ADE7757�
�Interfacing� the� ADE7757� to� a� Microcontroller� for� Energy�
�Measurement�
�The� easiest� way� to� interface� the� ADE7757� to� a� microcontroller�
�is� to� use� the� CF� high� frequency� output� with� the� output� frequency�
�scaling� set� to� 2048� � F1,� F2.� This� is� done� by� setting� SCF� =� 0�
�and� S0� =� S1� =� 1� (see� Table� III).� With� full-scale� ac� signals� on�
�the� analog� inputs,� the� output� frequency� on� CF� will� be� approxi-�
�mately� 2.867� kHz.� Figure� 14� illustrates� one� scheme� that� could�
�be� used� to� digitize� the� output� frequency� and� carry� out� the� neces-�
�sary� averaging� mentioned� in� the� previous� section.�
�INTERNAL� OSCILLATOR� (OSC)�
�The� nominal� internal� oscillator� frequency� is� 450� kHz� when� used�
�with� RCLKIN� with� a� nominal� value� of� 6.2� k� ?� .� The� frequency�
�outputs� are� directly� proportional� to� the� oscillator� frequency,�
�thus� RCLKIN� must� have� low� tolerance� and� low� temperature�
�drift� to� ensure� stability� and� linearity� of� the� chip.� The� oscillator�
�frequency� is� inversely� proportional� to� the� RCLKIN� as� shown� in�
�Figure� 15.� Although� the� internal� oscillator� operates� when� used�
�with� RCLKIN� values� between� 5.5� k� ?� and� 20� k� ?� ,� choosing� a�
�value� within� the� range� of� the� nominal� value,� as� shown� in� Figure� 15,�
�is� recommended.�
�CF�
�FREQUENCY�
�490�
�RIPPLE�
�480�
�AVERAGE�
�FREQUENCY�
�ADE7757�
�CF�
�TIME�
�MCU�
�COUNTER�
�TIMER�
�10%�
�470�
�460�
�450�
�440�
�430�
�420�
�410�
�400�
�5.8�
�5.9�
�6.0�
�6.1�
�6.2�
�6.3�
�6.4�
�6.5�
�6.6�
�6.7�
�Figure� 14.� Interfacing� the� ADE7757� to� an� MCU�
�As� shown,� the� frequency� output� CF� is� connected� to� an� MCU�
�counter� or� port.� This� will� count� the� number� of� pulses� in� a� given�
�integration� time,� which� is� determined� by� an� MCU� internal� timer.�
�The� average� power� proportional� to� the� average� frequency� is�
�given� by�
�RESISTANCE� –� k�
�Figure� 15.� Effect� of� RCLKIN� on� Internal� Oscillator�
�Frequency� (OSC)�
�TRANSFER� FUNCTION�
�Frequency� Outputs� F1� and� F2�
�The� ADE7757� calculates� the� product� of� two� voltage� signals� (on�
�Average� Frequency� =� Average� Power� =�
�Counter�
�Time�
�Channel� V1� and� Channel� V2)� and� then� low-pass� filters� this�
�product� to� extract� real� power� information.� This� real� power�
�Energy� =� Average� Power� � Time� =�
�� Time� =� Counter�
�515� .� 84� ×� V� 1� rms� ×� V� 2� rms� ×� F� 1� –� 4�
�The energy consumed during an integration period is given by�
�Counter�
�Time�
�For� the� purpose� of� calibration,� this� integration� time� could� be�
�10� seconds� to� 20� seconds� in� order� to� accumulate� enough� pulses� to�
�ensure� correct� averaging� of� the� frequency.� In� normal� opera-�
�tion,� the� integration� time� could� be� reduced� to� one� or� two� seconds,�
�depending,� for� example,� on� the� required� update� rate� of� a� dis-�
�play.� With� shorter� integration� times� on� the� MCU,� the� amount�
�of� energy� in� each� update� may� still� have� some� small� amount� of�
�ripple,� even� under� steady� load� conditions.� However,� over� a�
�minute� or� more� the� measured� energy� will� have� no� ripple.�
�Power� Measurement� Considerations�
�Calculating� and� displaying� power� information� will� always� have�
�information� is� then� converted� to� a� frequency.� The� frequency�
�information� is� output� on� F1� and� F2� in� the� form� of� active� low�
�pulses.� The� pulse� rate� at� these� outputs� is� relatively� low,� e.g.,�
�0.175� Hz� maximum� for� ac� signals� with� S0� =� S1� =� 0� (see� Table� II).�
�This� means� that� the� frequency� at� these� outputs� is� generated�
�from� real� power� information� accumulated� over� a� relatively� long�
�period� of� time.� The� result� is� an� output� frequency� that� is� propor-�
�tional� to� the� average� real� power.� The� averaging� of� the� real� power�
�signal� is� implicit� to� the� digital-to-frequency� conversion.� The�
�output� frequency� or� pulse� rate� is� related� to� the� input� voltage�
�signals� by� the� following� equation�
�Freq� =� 2�
�V� REF�
�where�
�some� associated� ripple� that� will� depend� on� the� integration� period�
�used� in� the� MCU� to� determine� average� power� and� also� on� the�
�load.� For� example,� at� light� loads,� the� output� frequency� may� be�
�10� Hz.� With� an� integration� period� of� two� seconds,� only� about�
�20� pulses� will� be� counted.� The� possibility� of� missing� one� pulse�
�always� exists� as� the� ADE7757� output� frequency� is� running�
�Freq�
�V� 1� rms�
�V� 2� rms�
�V� REF�
�F� 1-4�
�=�
�=�
�=�
�=�
�=�
�Output� frequency� on� F1� and� F2� (Hz).�
�Differential� rms� voltage� signal� on� Channel� V1� (V).�
�Differential� rms� voltage� signal� on� Channel� V2� (V).�
�The� reference� voltage� (2.5� V� ±� 8%)� (V).�
�One� of� four� possible� frequencies� selected� by� using� the�
�logic� inputs� S0� and� S1—see� Table� I.�
�asynchronously� to� the� MCU� timer.� This� would� result� in� a� one-�
�in-twenty� or� 5%� error� in� the� power� measurement.�
�–12� –�
�REV.� A�
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