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参数资料
| 型号: | ADE7761BARSZ-RL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 18/24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) |
��
�
�ADE7761B�
�Fault� with� Active� Input� Greater� Than� Inactive� Input�
�If� V� 1A� is� the� active� current� input� (that� is,� being� used� for� billing),�
�and� the� voltage� signal� on� V� 1B� (inactive� input)� falls� below� 93.75%�
�of� V� 1A� ,� the� fault� indicator� becomes� active.� Both� analog� inputs�
�are� filtered� and� averaged� to� prevent� false� triggering� of� this� logic�
�output.� As� a� consequence� of� the� filtering,� there� is� a� time� delay� of�
�approximately� 3� sec� on� the� Logic� Output� FAULT� after� the� fault�
�event.� The� FAULT� logic� output� is� independent� of� any� activity� on�
�the� F1� or� F2� outputs.� Figure� 28� shows� one� condition� under�
�which� FAULT� becomes� active.� Because� V� 1A� is� the� active� input�
�and� it� is� still� greater� than� V� 1B� ,� billing� is� maintained� on� V� 1A� ;� that�
�Calibration� Concerns�
�Typically,� when� a� meter� is� being� calibrated,� the� voltage� and� current�
�circuits� are� separated,� as� shown� in� Figure� 30.� This� means� that�
�current� passes� through� only� the� phase� or� neutral� circuit.� Figure� 30�
�shows� current� being� passed� through� the� phase� circuit.� This� is�
�the� preferred� option� because� the� ADE7761B� starts� billing� on� the�
�input� V� 1A� on� power-up.� The� Phase� Circuit� CT� is� connected� to�
�V� 1A� in� Figure� 30.� Because� there� is� no� current� in� the� neutral� circuit,�
�the� FAULT� indicator� comes� on� under� these� conditions.� However,�
�this� does� not� affect� the� accuracy� of� the� calibration� and� can� be�
�used� as� a� means� to� test� the� functionality� of� the� fault� detection.�
�FILTER�
�V� 1A� V� 1A�
�is,� no� swap� to� the� V� 1B� input� occurs.� V� 1A� remains� the� active� input.�
�FAULT�
�AND�
�IB�
�CT�
�R� F�
�V� 1A�
�V� 1B�
�A�
�COMPARE�
�RB�
�V� 1A�
�C� F�
�0V�
�AGND�
�V� 1A�
�V� 1B�
�V� 1N�
�B�
�TO�
�MULTIPLIER�
�TEST�
�IB�
�AGND�
�RB�
�0V�
�C� F�
�V� 1N�
�V� 1B� <� 93.75%� OF� V� 1A�
�FAULT�
�V� 1B�
�CURRENT�
�RA� 1�
�CT�
�R� F�
�V� 1B�
�RB� 1�
�C� F�
�<0� >0�
�ACTIVE� POINT� –� INACTIVE� INPUT�
�6.25%� OF� ACTIVE� INPUT�
�Figure� 28.� Fault� Conditions� for� Active� Input� Greater� Than� Inactive� Input�
�V�
�240V� rms�
�VR� 1�
�R� F�
�C� T�
�V� 2P�
�V� 2N�
�Fault� with� Inactive� Input� Greater� Than� Active� Input�
�Figure� 29� illustrates� another� fault� condition.� If� the� difference�
�between� V� 1B� ,� the� inactive� input,� and� V� 1A� ,� the� active� input� (that�
�is,� being� used� for� billing),� becomes� greater� than� 6.25%� of� V� 1B� ,�
�the� FAULT� indicator� becomes� active� and� a� swap� over� to� the� V� 1B�
�input� occurs.� The� Analog� Input� V� 1B� becomes� the� active� input.�
�Again,� a� time� constant� of� about� 3� sec� is� associated� with� this� swap.�
�V� 1A� does� not� swap� back� to� the� active� channel� until� V� 1A� is� greater�
�than� V� 1B� ,� and� the� difference� between� V� 1A� and� V� 1B� ,� in� this� order,�
�becomes� greater� than� 6.25%� of� V� 1A� .� However,� the� FAULT� indi-�
�cator� becomes� inactive� as� soon� as� V� 1A� is� within� 6.25%� of� V� 1B� .� This�
�threshold� eliminates� potential� chatter� between� V� 1A� and� V� 1B� .�
�1� RB� +� VR� =� RF.�
�Figure� 30.� Conditions� for� Calibration� of� Channel� B�
�If� the� neutral� circuit� is� chosen� for� the� current� circuit� in� the�
�arrangement� shown� in� Figure� 30,� this� may� have� implications� for�
�the� calibration� accuracy.� The� ADE7761B� powers� up� with� the�
�V� 1A� input� active� as� normal.� However,� because� there� is� no� current�
�in� the� phase� circuit,� the� signal� on� V� 1A� is� zero.� This� causes� a� fault�
�to� be� flagged� and� the� active� input� to� be� swapped� to� V� 1B� (neutral).�
�The� meter� can� be� calibrated� in� this� mode,� but� the� phase� and�
�neutral� CTs� may� differ� slightly.� Because� under� no-fault� conditions�
�all� billing� is� carried� out� using� the� phase� CT,� the� meter� should� be�
�calibrated� using� the� phase� circuit.� Of� course,� both� phase� and�
�V� 1A�
�V� 1B�
�V� 1A�
�A�
�FILTER�
�AND�
�COMPARE�
�FAULT�
�neutral� circuits� can� be� calibrated.�
�MISSING� NEUTRAL� MODE�
�0V�
�AGND�
�V� 1A�
�V� 1B�
�V� 1N�
�B�
�TO�
�MULTIPLIER�
�The� ADE7761B� integrates� a� novel� fault� detection� scheme� that�
�warns� and� allows� the� ADE7761B� to� continue� to� bill� in� case� a�
�meter� is� connected� to� only� one� wire� (see� Figure� 31).� For� correct�
�V� 1A� <� 93.75%� OF� V� 1B�
�FAULT� +� SWAP�
�<0�
�V� 1B�
�>0�
�ACTIVE� POINT� –� INACTIVE� INPUT�
�operation� of� the� ADE7761B� in� this� mode,� the� V� DD� pin� of� the�
�ADE7761B� must� be� maintained� within� the� specified� range�
�(5� V� ±� 5%).� The� missing� neutral� detection� algorithm� is� designed�
�to� work� over� a� line� frequency� of� 45� Hz� to� 55� Hz.�
�6.25%� OF� INACTIVE� INPUT�
�Figure� 29.� Fault� Conditions� for� Inactive� Input� Greater� Than� Active� Input�
�Rev.� 0� |� Page� 18� of� 24�
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