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参数资料
| 型号: | AD71056ARZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 16/20页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 1PHASE 16SOIC |
| 标准包装: | 48 |
| 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: | 管件 |
| 产品目录页面: | 797 (CN2011-ZH PDF) |
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�AD71056�
�Table� 6.� Maximum� Output� Frequency� on� the� F1� and� F2� Pins�
�Table� 8.� F1� and� F2� Frequency� at� 100� imp/kWh�
�Max� Frequency� or� AC� Inputs� (Hz)�
�S1�
�0�
�0�
�1�
�1�
�S0�
�0�
�1�
�0�
�1�
�OSC� Relation�
�0.204� � f� 1�
�0.204� � f� 2�
�0.204� � f� 3�
�0.204� � f� 4�
�0.175�
�0.35�
�0.70�
�1.40�
�1�
�I� MAX� (A)�
�12.5�
�25.0�
�40.0�
�60.0�
�F1� and� F2� (Hz)�
�0.076�
�0.153�
�0.244�
�0.367�
�1�
�Values� are� generated� using� the� nominal� frequency� of� 450� kHz.�
�80.0�
�0.489�
�Frequency� Output� CF�
�120.0�
�0.733�
�Values� are� generated� using� the� nominal� frequency� of� 450� kHz.�
�Values� are� generated� using� the� nominal� frequency� of� 450� kHz.�
�The� Pulse� Output� CF� (calibration� frequency)� is� intended� for�
�calibration� purposes.� The� output� pulse� rate� on� CF� can� be� up� to�
�2048� times� the� pulse� rate� on� the� F1� and� F2� pins.� The� lower� the�
�f� 1…4� frequency� selected,� the� higher� the� CF� scaling� (except� for� the�
�high� frequency� mode� where� SCF� =� 0,� S1� =� S0� =� 1).� Table� 7�
�shows� how� the� two� frequencies� are� related,� depending� on� the�
�states� of� the� logic� inputs� (S0,� S1,� and� SCF).� Due� to� its� relatively�
�high� pulse� rate,� the� frequency� at� the� CF� logic� output� is�
�proportional� to� the� instantaneous� real� power.� As� with� F1� and�
�F2,� CF� is� derived� from� the� output� of� the� low-pass� filter� after�
�multiplication.� However,� because� the� output� frequency� is� high,�
�this� real� power� information� is� accumulated� over� a� much� shorter�
�time.� Therefore,� less� averaging� is� carried� out� in� the� digital-to-�
�frequency� conversion.� With� much� less� averaging� of� the� real�
�power� signal,� the� CF� output� is� much� more� responsive� to� power�
�fluctuations� (see� the� signal� processing� block� in� Figure� 15).�
�Table� 7.� Maximum� Output� Frequency� on� CF�
�SCF� S1� S0� CF� Max� for� AC� Signals� (Hz)� 1�
�1� 0� 0� 128� � F1,� F2� =� 22.4�
�0� 0� 0� 64� � F1,� F2� =� 11.2�
�1� 0� 1� 64� � F1,� F2� =� 22.4�
�0� 0� 1� 32� � F1,� F2� =� 11.2�
�1� 1� 0� 32� � F1,� F2� =� 22.4�
�0� 1� 0� 16� � F1,� F2� =� 11.2�
�1� 1� 1� 16� � F1,� F2� =� 22.4�
�0� 1� 1� 2048� � F1,� F2� =� 2.867� kHz�
�1�
�SELECTING� A� FREQUENCY� FOR� AN� ENERGY�
�METER� APPLICATION�
�As� listed� in� Table� 5,� the� user� can� select� one� of� four� frequencies.�
�This� frequency� selection� determines� the� maximum� frequency�
�on� the� F1� and� F2� pins.� These� outputs� are� intended� for� driving�
�an� energy� register� (electromechanical� or� other).� Because� only�
�four� different� output� frequencies� can� be� selected,� the� available�
�frequency� selection� is� optimized� for� a� meter� constant� of�
�100� imp/kWh� with� a� maximum� current� between� 10� A� and�
�120� A.� Table� 8� shows� the� output� frequency� for� several� maxi-�
�mum� currents� (I� MAX� )� with� a� line� voltage� of� 220� V.� In� all� cases,�
�the� meter� constant� is� 100� imp/kWh.�
�The� f� 1…4� frequencies� allow� complete� coverage� of� this� range� of�
�output� frequencies� (F1,� 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� constant.�
�The� current� channel� should� also� be� no� more� than� half-scale�
�when� the� meter� sees� maximum� load.� This� allows� overcurrent�
�signals� and� signals� with� high� crest� factors� to� be� accommodated.�
�Table� 9� lists� the� output� frequency� on� the� F1� and� F2� pins� when�
�both� analog� inputs� are� half-scale.� The� frequencies� listed� in� Table� 9�
�align� very� well� with� those� listed� in� Table� 8� for� maximum� load.�
�Table� 9.� F1� and� F2� Frequency� with� Half-Scale� AC� Inputs�
�Frequency� on� F1� and� F2—�
�S1� S0� f� 1…4� (Hz)� CH1� and� CH2� Half-Scale� AC� Input� 1�
�0� 0� 0.86� 0.051� � f� 1� 0.044� Hz�
�0� 1� 1.72� 0.051� � f� 2� 0.088� Hz�
�1� 0� 3.43� 0.051� � f� 3� 0.176� Hz�
�1� 1� 6.86� 0.051� � f� 4� 0.352� Hz�
�1�
�When� selecting� a� suitable� f� 1…4� frequency� for� a� meter� design,�
�compare� the� frequency� output� at� I� MAX� (maximum� load)� based�
�on� a� meter� constant� of� 100� imp/kWh� against� the� last� column� of�
�Table� 9.� The� closest� frequency� in� Table� 9� determines� the� best�
�choice� of� frequency� (� f� 1…4� ).� For� example,� if� a� meter� with� a�
�maximum� current� of� 25� A� is� being� designed,� the� output�
�frequency� on� the� F1� and� F2� pins� with� a� meter� constant� of�
�100� imp/kWh� is� 0.153� Hz� at� 25� A� and� 220� V� (from� Table� 8).� In�
�the� last� column� of� Table� 9,� the� closest� frequency� to� 0.153� Hz� is�
�0.176� Hz.� Therefore,� f� 3� (3.43� Hz)� is� selected� for� this� design� (see�
�Table� 5).�
�Frequency� Outputs�
�Figure� 2� shows� a� timing� diagram� for� the� various� frequency�
�outputs.� The� outputs� (F1� and� F2)� are� the� low� frequency� outputs�
�that� can� be� used� to� directly� drive� a� stepper� motor� or� electro-�
�mechanical� impulse� counter.� The� F1� and� F2� outputs� provide�
�two� alternating� low� frequency� pulses.� The� F1� and� F2� pulse�
�widths� (t� 1� )� are� set� such� that� if� they� fall� below� 240� ms� (0.24� Hz),�
�they� are� set� to� half� of� their� period.� The� maximum� output�
�frequencies� for� F1� and� F2� are� shown� in� Table� 6.�
�The� high� frequency� CF� output� is� intended� to� be� used� for�
�communications� and� calibration� purposes.� CF� produces� a�
�90-ms-wide� active� high� pulse� (t� 4� )� at� a� frequency� proportional�
�Rev.� A� |� Page� 16� of� 20�
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