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参数资料
| 型号: | ADE7753ARSZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 31/60页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 1PHASE 20SSOP |
| 标准包装: | 66 |
| 输入阻抗: | 390 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: | 3mA |
| 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: | 管件 |
| 产品目录页面: | 797 (CN2011-ZH PDF) |
| 配用: | EVAL-ADE7753ZEB-ND - BOARD EVALUATION AD7753 |
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��
�
�ADE7753�
�0xFFFF,FFFF,FFFF� before� it� overflows.� The� integration� time�
�under� these� conditions� with� WDIV� =� 0� is� calculated� as� follows:�
�are� generated� at� the� DFC� output.� Under� steady� load� conditions,�
�the� output� frequency� is� proportional� to� the� active� power.�
�Time� =�
�0 xFFFF, FFFF, FFFF�
�0� xCCCCD�
�×� 1.12� μs� =� 375.8� s� =� 6.26� min(15)�
�The� maximum� output� frequency,� with� ac� input� signals� at� full� scale�
�and� CFNUM� =� 0x00� and� CFDEN� =� 0x00,� is� approximately� 23� kHz.�
�When� WDIV� is� set� to� a� value� different� from� 0,� the� integration�
�time� varies,� as� shown� in� Equation� 16.�
�The� ADE7753� incorporates� two� registers,� CFNUM[11:0]� and�
�CFDEN[11:0],� to� set� the� CF� frequency.� These� are� unsigned�
�Time� =� Time� WDIV� =� 0� � WDIV�
�(16)�
�12-bit� registers,� which� can� be� used� to� adjust� the� CF� frequency� to�
�a� wide� range� of� values.� These� frequency-scaling� registers� are�
�POWER� OFFSET� CALIBRATION�
�The� ADE7753� also� incorporates� an� active� power� offset� register�
�(APOS[15:0]).� This� is� a� signed� twos� complement� 16-bit� register�
�that� can� be� used� to� remove� offsets� in� the� active� power� calculation—�
�see� Figure� 65.� An� offset� could� exist� in� the� power� calculation� due�
�to� crosstalk� between� channels� on� the� PCB� or� in� the� IC� itself.�
�The� offset� calibration� allows� the� contents� of� the� active� power�
�register� to� be� maintained� at� 0� when� no� power� is� being� consumed.�
�The� 256� LSBs� (APOS� =� 0x0100)� written� to� the� active� power�
�offset� register� are� equivalent� to� 1� LSB� in� the� waveform� sample�
�register.� Assuming� the� average� value,� output� from� LPF2� is�
�0xCCCCD� (838,861d)� when� inputs� on� Channels� 1� and� 2� are�
�both� at� full� scale.� At� ?60� dB� down� on� Channel� 1� (1/1000� of� the�
�Channel� 1� full-scale� input),� the� average� word� value� output� from�
�LPF2� is� 838.861� (838,861/1,000).� One� LSB� in� the� LPF2� output�
�has� a� measurement� error� of� 1/838.861� � 100%� =� 0.119%� of� the�
�average� value.� The� active� power� offset� register� has� a� resolution�
�equal� to� 1/256� LSB� of� the� waveform� register,� therefore� the� power�
�offset� correction� resolution� is� 0.00047%/LSB� (0.119%/256)� at� –60� dB.�
�ENERGY-TO-FREQUENCY� CONVERSION�
�ADE7753� also� provides� energy-to-frequency� conversion� for�
�calibration� purposes.� After� initial� calibration� at� manufacturing,�
�the� manufacturer� or� end� customer� often� verify� the� energy� meter�
�calibration.� One� convenient� way� to� verify� the� meter� calibration�
�12-bit� registers,� which� can� scale� the� output� frequency� by� 1/2� 12� to�
�1� with� a� step� of� 1/2� 12� .�
�If� the� value� 0� is� written� to� any� of� these� registers,� the� value� 1�
�would� be� applied� to� the� register.� The� ratio� (CFNUM� +� 1)/�
�(CFDEN� +� 1)� should� be� smaller� than� 1� to� ensure� proper�
�operation.� If� the� ratio� of� the� registers� (CFNUM� +� 1)/(CFDEN� +� 1)�
�is� greater� than� 1,� the� register� values� would� be� adjusted� to� a� ratio�
�(CFNUM� +� 1)/(CFDEN� +� 1)� of� 1.� For� example,� if� the� output�
�frequency� is� 1.562� kHz� while� the� contents� of� CFDEN� are� 0�
�(0x000),� then� the� output� frequency� can� be� set� to� 6.1� Hz� by�
�writing� 0xFF� to� the� CFDEN� register.�
�When� CFNUM� and� CFDEN� are� both� set� to� one,� the� CF� pulse�
�width� is� fixed� at� 16� CLKIN/4� clock� cycles,� approximately� 18� μs�
�with� a� CLKIN� of� 3.579545� MHz.� If� the� CF� pulse� output� is�
�longer� than� 180� ms� for� an� active� energy� frequency� of� less� than�
�5.56� Hz,� the� pulse� width� is� fixed� at� 90� ms.� Otherwise,� the� pulse�
�width� is� 50%� of� the� duty� cycle.�
�The� output� frequency� has� a� slight� ripple� at� a� frequency� equal� to�
�twice� the� line� frequency.� This� is� due� to� imperfect� filtering� of� the�
�instantaneous� power� signal� to� generate� the� active� power� signal—�
�see� the� Active� Power� Calculation� section.� Equation� 9� from� the�
��instantaneous� power� signal.� This� is� filtered� by� LPF2,� which� has�
�a� magnitude� response� given� by� Equation� 17.�
�1� +�
�is� for� the� manufacturer� to� provide� an� output� frequency,� which� is�
�proportional� to� the� energy� or� active� power� under� steady� load�
�conditions.� This� output� frequency� can� provide� a� simple,� single-�
�wire,� optically� isolated� interface� to� external� calibration�
�H� (� f� )� =�
�1�
�f� 2�
�8� .� 9� 2�
�(17)�
�equipment.� Figure� 67� illustrates� the� energy-to-frequency�
�The� active� power� signal� (output� of� LPF2)� can� be� rewritten� as�
�?� 1� +� ?� 8� .� 9� ?� ?�
�conversion� in� the� ADE7753.�
�DFC�
�11�
�CFNUM[11:0]�
�%�
�0�
�CF�
�?� ?�
�?� ?�
�?� VI� ?�
�p� (� t� )� =� VI� ?� ?� 2� ?�
�?� ?� 2f� L� ?� ?�
�?� ?� ?� ?�
�×� cos(4π� f� L� t� )�
�(18)�
�48�
�AENERGY[48:0]�
�0�
�11�
�0�
�where� f� L� is� the� line� frequency,� for� example,� 60� Hz.�
�From� Equation� 13,�
�?� 4� π� f� L� 1� +� ?� 8� .� 9� ?� ?�
�CFDEN[11:0]� 02875-0-066�
�Figure� 67.� ADE7753� Energy-to-Frequency� Conversion�
�A� digital-to-frequency� converter� (DFC)� is� used� to� generate� the�
�CF� pulsed� output.� The� DFC� generates� a� pulse� each� time� 1� LSB�
�in� the� active� energy� register� is� accumulated.� An� output� pulse� is�
�generated� when� (CFDEN� +� 1)/(CFNUM� +� 1)� number� of� pulses�
�?� ?�
�?� ?�
�?� VI� ?�
�E� (� t� )� =� VIt� ?� ?� 2� ?�
�?� ?� 2f� L� ?� ?�
�?� ?� ?� ?�
�×� sin(4π� f� L� t� )�
�(19)�
�Rev.� C� |� Page� 31� of� 60�
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相关代理商/技术参数 |
参数描述 |
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| ADE7753ARSZ | 制造商:Analog Devices 功能描述:ENERGY METERING IC |
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