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参数资料
| 型号: | ADE7751ARSZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 6/16页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 1PHASE 24SSOP |
| 标准包装: | 59 |
| 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: | 24-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 24-SSOP |
| 包装: | 管件 |
| 配用: | EVAL-ADE7751ZEB-ND - BOARD EVALUATION FOR ADE7751 |
��
�
�ADE7751�
�PIN� FUNCTION� DESCRIPTIONS� (continued)�
�Pin� No.�
�13,� 14�
�15,� 16�
�17�
�18�
�19�
�20�
�21�
�22�
�23,� 24�
�Mnemonic�
�S1,� S0�
�G1,� G0�
�CLKIN�
�CLKOUT�
�FAULT�
�REVP�
�DGND�
�CF�
�F2,� F1�
�Description�
�These� logic� inputs� are� used� to� select� one� of� four� possible� frequencies� for� the� digital-to-frequency�
�conversion.� This� offers� the� designer� greater� flexibility� when� designing� the� energy� meter.� See� Select-�
�ing� a� Frequency� for� an� Energy� Meter� Application� section.�
�These� logic� inputs� are� used� to� select� one� of� four� possible� gains� for� the� analog� inputs� V1A� and� V1B.�
�The� possible� gains� are� 1,� 2,� 8,� and� 16.� See� Analog� Inputs� section.�
�An� external� clock� can� be� provided� at� this� logic� input.� Alternatively,� a� parallel� resonant� AT� crystal� can�
�be� connected� across� CLKIN� and� CLKOUT� to� provide� a� clock� source� for� the� ADE7751.� The� clock�
�frequency� for� specified� operation� is� 3.579545� MHz.� Crystal� load� capacitors� of� between� 22� pF�
�and� 33� pF� (ceramic)� should� be� used� with� the� gate� oscillator� circuit.�
�A� crystal� can� be� connected� across� this� pin� and� CLKIN� as� described� above� to� provide� a� clock� source�
�for� the� ADE7751.� The� CLKOUT� pin� can� drive� one� CMOS� load� when� an� external� clock� is� supplied�
�at� CLKIN� or� by� the� gate� oscillator� circuit.�
�This� logic� output� will� go� active� high� when� a� fault� condition� occurs.� A� fault� is� defined� as� a� condition�
�under� which� the� signals� on� V1A� and� V1B� differ� by� more� than� 12.5%.� The� logic� output� will� be� reset�
�to� zero� when� a� fault� condition� is� no� longer� detected.� See� Fault� Detection� section.�
�This� logic� output� will� go� logic� high� when� negative� power� is� detected,� i.e.,� when� the� phase� angle�
�between� the� voltage� and� current� signals� is� greater� that� 90� °� .� This� output� is� not� latched� and� will� be�
�reset� when� positive� power� is� once� again� detected.� The� output� will� go� high� or� low� at� the� same� time� as�
�a� pulse� is� issued� on� CF.�
�This� provides� the� ground� reference� for� the� digital� circuitry� in� the� ADE7751,� i.e.,� multiplier,� filter,�
�and� digital-to-frequency� converter.� This� pin� should� be� tied� to� the� analog� ground� plane� of� the� PCB.�
�The� digital� ground� plane� is� the� ground� reference� for� all� digital� circuitry,� e.g.,� counters� (mechanical�
�and� digital),� MCUs,� and� indicator� LEDs.� For� good� noise� suppression,� the� analog� ground� plane�
�should� only� be� connected� to� the� digital� ground� plane� at� one� point,� e.g.,� a� star� ground.�
�Calibration� Frequency� Logic� Output.� The� CF� logic� output� gives� instantaneous� real� power� informa-�
�tion.� This� output� is� intended� to� be� used� for� calibration� purposes.� Also� see� SCF� pin� description.�
�Low-Frequency� Logic� Outputs.� F1� and� F2� supply� average� real� power� information.� The� logic�
�outputs� can� be� used� to� directly� drive� electromechanical� counters� and� 2-phase� stepper� motors.� See�
�Transfer� Function� section.�
�TERMINOLOGY�
�ADC� Offset� Error�
�This� refers� to� the� dc� offset� associated� with� the� analog� inputs� to�
�the� ADCs.� It� means� that� with� the� analog� inputs� connected� to�
�AGND� the� ADCs� still� see� an� analog� input� signal� of� 1� mV� to�
�Measurement� Error�
�The� error� associated� with� the� energy� measurement� made� by� the�
�ADE7751� is� defined� by� the� following� formula:�
�Percentage� Error� =�
�10� mV.� However,� when� the� HPF� is� switched� on,� the� offset� is�
�removed� from� the� current� channel� and� the� power� calculation� is�
�Energy Registered by the ADE7751 – True Energy�
�True� Energy�
�� 100%�
�not� affected� by� this� offset.�
�Gain� Error�
�The� gain� error� of� the� ADE7751� is� defined� as� the� difference� between�
�the� measured� output� frequency� (minus� the� offset)� and� the� ideal�
�output� frequency.� It� is� measured� with� a� gain� of� 1� in� Channel�
�V1A.� The� difference� is� expressed� as� a� percentage� of� the� ideal�
�frequency.� The� ideal� frequency� is� obtained� from� the� transfer�
�function—see� Transfer� Function� section.�
�Gain� Error� Match�
�The� gain� error� match� is� defined� as� the� gain� error� (minus� the�
�offset)� obtained� when� switching� between� a� gain� of� 1� and� a� gain�
�of� 2,� 8,� or� 16.� It� is� expressed� as� a� percentage� of� the� output�
�frequency� obtained� under� a� gain� of� 1.� This� gives� the� gain�
�error� observed� when� the� gain� selection� is� changed� from�
�1� to� 2,� 8,� or� 16.�
�–6� –�
�Phase� Error� Between� Channels�
�The� HPF� (high-pass� filter)� in� Channel� 1� has� a� phase� lead�
�response.� To� offset� this� phase� response� and� equalize� the� phase�
�response� between� channels,� a� phase� correction� network� is� also�
�placed� in� Channel� 1.� The� phase� correction� network� matches� the�
�phase� to� within� ±� 0.1� °� over� a� range� of� 45� Hz� to� 65� Hz� and� ±� 0.2� °�
�over� a� range� 40� Hz� to� 1� kHz� (see� Figures� 10� and� 11).�
�Power� Supply� Rejection�
�This� quantifies� the� ADE7751� measurement� error� as� a� percent-�
�age� of� reading� when� the� power� supplies� are� varied.�
�For� the� ac� PSR� measurement,� a� reading� at� nominal� supplies�
�(5� V)� is� taken.� A� 200� mV� rms/100� Hz� signal� is� then� introduced�
�onto� the� supplies� and� a� second� reading� is� obtained� under� the�
�same� input� signal� levels.� Any� error� introduced� is� expressed� as� a�
�percentage� of� the� reading—see� Measurement� Error� definition.�
�For� the� dc� PSR� measurement,� a� reading� at� nominal� supplies�
�(5� V)� is� taken.� The� supplies� are� then� varied� ±� 5%� and� a� second�
�reading� is� obtained� with� the� same� input� signal� levels.� Any� error�
�introduced� is� again� expressed� as� a� percentage� of� the� reading.�
�REV.� 0�
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| ADE7751ARSZRL | 功能描述:IC ENERGY METERING 1PHASE 24SSOP RoHS:是 类别:集成电路 (IC) >> PMIC - 能量测量 系列:- 产品培训模块:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 标准包装:2,500 系列:* |
| ADE7752 | 制造商:AD 制造商全称:Analog Devices 功能描述:Three Phase Energy Metering IC with Pulse Output |
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