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| 型号: | EVAL-ADE7752AEBZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 22/24页 |
| 文件大小: | 0K |
| 描述: | BOARD EVALUATION FOR ADE7752A |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电度表/功率表 |
| 已用 IC / 零件: | ADE7752A |
| 已供物品: | 板 |
| 相关产品: | ADE7752BARWZ-RL-ND - IC ENERGY METERING 3PHASE 24SOIC ADE7752BARWZ-ND - IC ENERGY METERING 3PHASE 24SOIC ADE7752AARZ-ND - IC ENERGY METERING 3PHASE 24SOIC ADE7752AARZ-RL-ND - IC ENERGY METERING 3PHASE 24SOIC |
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��ADE7752/ADE7752A�
�SELECTING� A� FREQUENCY� FOR� AN� ENERGY� METER� APPLICATION�
�As� shown� in� Table� 5,� the� user� can� select� one� of� seven� frequen-�
�cies.� 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).�
�Since� only� seven� different� output� frequencies� can� be� selected,�
�the� available� frequency� selection� has� been� optimized� for� a� 3-�
�phase� 4-wire� service� with� a� meter� constant� of� 100� imp/kWhr�
��shows� the� output� frequency� for� several� maximum� currents�
�(I� MAX� )� with� a� line� voltage� of� 220� V� (phase� neutral).� In� all� cases,�
�the� meter� constant� is� 100� imp/kWhr.�
�Table� 8.� V.� F1� and� F2� Frequency� at� 100� imp/kWhr�
�I� MAX� (A)� F1� and� F2� (Hz)�
�10� 0.18�
�25� 0.46�
�40� 0.73�
�60� 1.10�
�80� 1.47�
�100� 1.83�
�The� F� 1–7� frequencies� allow� complete� coverage� of� this� range� of�
�output� frequencies� on� F1� and� F2.� When� designing� an� energy�
�meter,� the� nominal� design� voltage� on� the� voltage� channels�
�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� shows� the� output� frequency� on� F1� and�
�F2� when� all� six� analog� inputs� are� half� scale.�
�Table� 9.� F1� and� F2� Frequency� with� Half-Scale� AC� Inputs�
�Frequency� on� F1� and� F2�
�SCF� S1� S0� F� 1–7� (Half-Scale� AC� Inputs)�
�FREQUENCY� OUTPUTS�
��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� high� going� pulses.� The� pulse� width� (t� 1� )� is� set� at�
�275� ms,� and� the� time� between� the� rising� edges� of� F1� and� F2� (t� 3� )�
�is� approximately� half� the� period� of� F1� (t� 2� ).� If,� however,� the�
�period� of� F1� and� F2� falls� below� 550� ms� (1.81� Hz),� the� pulse�
�width� of� F1� and� F2� is� set� to� half� of� their� period.� The� maximum�
��The� high� frequency� CF� output� is� intended� to� be� used� for�
�communications� and� calibration� purposes.� CF� produces� a�
�96� ms-wide� active� high� pulse� (t� 4� )� at� a� frequency� proportional� to�
�active� power.� The� CF� output� frequencies� are� given� in� Table� 7.� As�
�in� the� case� of� F1� and� F2,� if� the� period� of� CF� (t� 5� )� falls� below�
�192� ms,� the� CF� pulse� width� is� set� to� half� the� period.� For�
�example,� if� the� CF� frequency� is� 20� Hz,� the� CF� pulse� width� is�
�25� ms.� One� exception� to� this� is� when� the� mode� is� S0� =� 1,�
�SCF� =� S1� =� 0.� In� this� case,� the� CF� pulse� width� is� 66%� of� the� period.�
�NO� LOAD� THRESHOLD�
�The� ADE7752� also� includes� no� load� threshold� and� start-up� cur-�
�rent� features� that� eliminate� any� creep� effects� in� the� meter.� The�
�ADE7752� is� designed� to� issue� a� minimum� output� frequency.�
�Any� load� generating� a� frequency� lower� than� this� minimum� fre-�
�quency� does� not� cause� a� pulse� to� be� issued� on� F1,� F2,� or� CF.� The�
�minimum� output� frequency� is� given� as� 0.005%� of� the� full-scale�
�output� frequency� for� each� of� the� F� 1–7� frequency� selections� or�
�approximately� 0.00204%� of� the� F� 1–7� frequency� (see� Table� 10).�
�For� example,� for� an� energy� meter� with� a� 100� imp/kWhr� meter�
�0�
�1�
�0�
�1�
�0�
�1�
�0�
�0�
�0�
�0�
�0�
�1�
�1�
�1�
�0�
�0�
�1�
�1�
�0�
�0�
�1�
�1.27�
�1.19�
�5.09�
�4.77�
�19.07�
�19.07�
�76.29�
�0.26�
�0.24�
�1.02�
�0.96�
�3.84�
�3.84�
�15.35�
�constant� using� F� 1–7� (4.77� Hz),� the� minimum� output� frequency� at�
�F1� or� F2� would� be� 9.59� ×� 10� –5� Hz.� This� would� be� 1.� 54×� 10� –3� Hz�
�at� CF� (16� � F1� Hz).� In� this� example,� the� no� load� threshold�
�would� be� equivalent� to� 3.45� W� of� load� or� a� start-up� current� of�
�15.70� mA� at� 240� V.�
�Table� 10.� CF,� F1,� and� F2� Minimum� Frequency� at� No� Load�
�Threshold�
�1�
�1�
�1�
�0.60�
�0.12�
�SCF�
�S1�
�S0�
�F1,� F2� Min� (Hz)�
�CF� Min� (Hz)�
�When� selecting� a� suitable� F� 1–7� frequency� for� a� meter� design,� the�
�frequency� output� at� I� MAX� (maximum� load)� with� a� 100� imp/kWhr�
��The� frequency� closest� to� that� listed� in� Table� 9� is� the� best� choice�
�of� frequency� (F� 1–7� ).� For� example,� if� a� 3-phase� 4-wire� Wye� meter�
�with� a� 25� A� maximum� current� is� being� designed,� the� output�
�frequency� on� F1� and� F2� with� a� 100� imp/kWhr� meter� constant� is�
��0�
�1�
�0�
�1�
�0�
�1�
�0�
�1�
�0�
�0�
�0�
�0�
�1�
�1�
�1�
�1�
�0�
�0�
�1�
�1�
�0�
�0�
�1�
�1�
�2.56� x� 10� ?05�
�2.40� x� 10� ?05�
�1.02� x� 10� ?04�
�9.59� x� 10� ?05�
�3.84� x� 10� ?04�
�3.84� x� 10� ?04�
�1.54� x� 10� ?03�
�1.20� x� 10� ?05�
�4.09� x� 10� ?03�
�1.92� x� 10� ?04�
�1.64� x� 10� ?02�
�1.54� x� 10� ?03�
�6.14� x� 10� ?03�
�3.07� x� 10� ?03�
�1.23� x� 10� ?02�
�1.92� x� 10� ?04�
�the� closest� frequency� to� 0.15� Hz� in� column� 5� is� 0.12� Hz.�
�Therefore,� F� 1–7� =� 0.6� Hz� is� selected� for� this� design.�
�Rev.� C� |� Page� 22� of� 24�
�相关PDF资料 |
PDF描述 |
|---|---|
| EVAL-ADE7753ZEB | BOARD EVALUATION AD7753 |
| EVAL-ADE7754EBZ | BOARD EVALAUTION FOR ADE7754 |
| EVAL-ADE7755ZEB | BOARD EVALUATION FOR AD7755 |
| EVAL-ADE7758ZEB | BOARD EVAL FOR AD7758 |
| EVAL-ADE7759EBZ | BOARD EVALUATION FOR ADE7759 |
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参数描述 |
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