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参数资料
| 型号: | ADE7761BARSZ-RL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 21/24页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 1PHASE 20SSOP |
| 标准包装: | 1,500 |
| 输入阻抗: | 790 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: | 3.65mA |
| 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: | 带卷 (TR) |
��
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��ADE7761B�
�APPLICATIONS� INFORMATION�
�INTERFACING� TO� A� MICROCONTROLLER� FOR�
�ENERGY� MEASUREMENT�
�The� easiest� way� to� interface� the� ADE7761B� to� a� microcontroller�
�is� to� use� the� CF� high� frequency� output� with� the� output� frequency�
�scaling� set� to� 2048� � F� 1� ,� F� 2� .� This� is� done� by� setting� SCF� =� 0�
�and� S0� =� S1� =� 1� (see� Table� 8).� With� full-scale� ac� signals� on� the�
�analog� inputs,� the� output� frequency� on� CF� is� approximately�
�5.5� kHz.� Figure� 35� illustrates� one� scheme� that� could� be� used� to�
�digitize� the� output� frequency� and� carry� out� the� necessary�
�averaging� mentioned� in� the� Frequency� Output� CF� section.�
�SELECTING� A� FREQUENCY� FOR� AN� ENERGY�
�METER� APPLICATION�
�As� shown� in� Table� 6,� the� user� can� select� one� of� four� frequencies.�
�This� frequency� selection� determines� the� maximum� frequency�
�on� F1� and� F2.� These� outputs� are� intended� to� be� used� to� drive�
�the� energy� register� (electromechanical� or� other).� Because� only�
�four� different� output� frequencies� can� be� selected,� the� available�
�frequency� selection� was� optimized� for� a� meter� constant� of�
�100� impulses/kWh� with� a� maximum� current� of� between� 10� A�
�and� 120� A.� Table� 9� shows� the� output� frequency� for� several�
�CF�
�AVERAGE�
�FREQUENCY�
�FREQUENCY�
�RIPPLE�
�±10%�
�maximum� currents� (I� MAX� )� with� a� line� voltage� of� 240� V.� In� all�
�cases,� the� meter� constant� is� 100� impulses/kWh.�
�Table� 9.� F� 1� and� F� 2� Frequency� at� 100� Impulses/kWh�
�I� MAX� (A)� F� 1� and� F� 2� (Hz)�
�12.5�
�0.083�
�25�
�0.166�
�TIME�
�40�
�60�
�0.266�
�0.4�
�ADE7761B�
�MCU�
�COUNTER�
�80�
�120�
�0.533�
�0.8�
�CF�
�REVP� 1�
�FAULT� 2�
�UP/DOWN�
�LOGIC�
�The� f� 1–4� frequencies� allow� complete� coverage� of� this� range� of�
�output� frequencies� on� F1� and� F2.� When� designing� an� energy�
�meter,� the� nominal� design� voltage� on� Channel� V2� (voltage)�
�should� be� set� to� half-scale� to� allow� for� calibration� of� the� meter�
�1� REVP� MUST� BE� USED� IF� THE� METER� IS� BIDIRECTIONAL� OR�
�DIRECTION� OF� ENERGY� FLOW� IS� NEEDED.�
�2� FAULT� MUST� BE� USED� TO� RECORD� ENERGY� IN� FAULT� CONDITION.�
�Figure� 35.� Interfacing� the� ADE7761B� to� an� MCU�
�As� shown� in� Figure� 35,� the� frequency� output� CF� is� connected� to�
�an� MCU� counter� or� port� that� counts� the� number� of� pulses� in� a�
�given� integration� time,� determined� by� an� MCU� internal� timer.�
�The� average� power,� proportional� to� the� average� frequency,� is�
�constant.� The� current� channel� should� also� be� no� more� than� half-�
�scale� when� the� meter� sees� maximum� load,� which� accommodates�
�overcurrent� signals� and� signals� with� high� crest� factors.� Table� 10�
�shows� the� output� frequency� on� F1� and� F2� when� both� analog�
�inputs� are� half-scale.� The� frequencies� listed� in� Table� 10� align�
�well� with� those� listed� in� Table� 9� for� maximum� load.�
�Table� 10.� F� 1� and� F� 2� Frequency� with� Half-Scale� AC� Inputs�
�Frequency� on� F1� and� F2,� Channel� V1� and�
�Average� Frequency� =� Average� Active� Power� =�
�Counter�
�Timer�
�S0�
�0�
�S1�
�0�
�f� 1–4� (Hz)�
�1.72�
�Channel� V2,� Half-Scale� AC� Inputs� (Hz)�
�0.092�
�The� energy� consumed� during� an� integration� period� is�
�0�
�1�
�3.44�
�0.183�
�Energy� =� Average� Power� � Time� =�
�Counter�
�Time�
�� Time� =� Counter�
�1�
�1�
�0�
�1�
�6.86�
�13.5�
�0.337�
�0.734�
�For� the� purpose� of� calibration,� this� integration� time� could� be�
�10� sec� to� 20� sec� to� accumulate� enough� pulses� to� ensure� correct�
�averaging� of� the� frequency.� In� normal� operation,� the� integration�
�time� could� be� reduced� to� 1� sec� or� 2� sec,� depending� on,� for�
�example,� the� required� update� rate� of� a� display.� With� shorter�
�integration� times� on� the� MCU,� the� amount� of� energy� in� each�
�update� may� still� have� a� small� amount� of� ripple,� even� under�
�steady� load� conditions.� However,� over� a� minute� or� more,� the�
�measured� energy� has� no� ripple.�
�When� selecting� a� suitable� f� 1–4� frequency� for� a� meter� design,� the�
�frequency� output� at� I� MAX� (maximum� load)� with� a� meter� constant�
�of� 100� impulses/kWh� should� be� compared� with� Column� 4� of�
�Table� 10.� The� frequency� that� is� closest� in� Table� 10� determines�
�the� best� choice� of� frequency� (f� 1-4� ).� For� example,� if� a� meter� with�
�a� maximum� current� of� 40� A� is� being� designed,� the� output�
�frequency� on� F1� and� F2� with� a� meter� constant� of� 100� impulses�
�per� kWh� is� 0.266� Hz� at� 40� A� and� 240� V� (see� Table� 9).�
�Looking� at� Table� 10,� the� closest� frequency� to� 0.266� Hz�
�in� Column� 4� is� 0.183� Hz.� Therefore,� F� 2� (3.4� Hz;� see� Table� 6)�
�is� selected� for� this� design.�
�Rev.� 0� |� Page� 21� of� 24�
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