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| 型号: | ADE7763ARSZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 21/56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-ADE7763ZEB-ND - BOARD EVALUATION FOR ADE7763 |
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��
�
�Data� Sheet�
�Antialias� Filter�
��to� the� modulator.� This� filter� prevents� aliasing,� which� is� an�
�artifact� of� all� sampled� systems.� Aliasing� means� that� frequency�
�components� in� the� input� signal� to� the� ADC� that� are� higher� than�
�half� the� sampling� rate� of� the� ADC� appear� in� the� sampled� signal�
�at� a� frequency� below� half� the� sampling� rate.� Figure� 41� illustrates�
�the� effect.� Frequency� components� (shown� as� arrows)� above� half�
�the� sampling� frequency� (also� known� as� the� Nyquist� frequency,�
�i.e.,� 447� kHz)� are� imaged� or� folded� back� down� below� 447� kHz.�
�ADE7763�
�Reference� Circuit�
��circuitry.� The� nominal� reference� voltage� at� the� REF� IN/OUT� pin� is�
�2.42� V.� This� is� the� reference� voltage� used� for� the� ADCs.� However,�
�Channel� 1� has� three� input� range� options� that� are� selected� by�
�dividing� down� the� reference� value� used� for� the� ADC� in�
�Channel� 1.� The� reference� value� used� for� Channel� 1� is� divided�
�down� to� ?� and� ?� of� the� nominal� value� by� using� an� internal�
��OUTPUT�
�This� happens� with� all� ADCs,� regardless� of� the� architecture.� In�
�the� example� shown,� only� frequencies� near� the� sampling�
�MAXIMUM�
�LOAD� =� 10� μ� A�
�IMPEDANCE�
�6k� ?�
�REF� IN/OUT�
�frequency,� i.e.,� 894� kHz,� move� into� the� band� of� interest� for�
�metering,� i.e.,� 40� Hz� to� 2� kHz.� This� allows� the� use� of� a� very�
�simple� LPF� (low-pass� filter)� to� attenuate� high� frequency� (near�
�PTAT�
�60� μ� A�
�2.5V�
�1.7k� ?�
�2.42V�
�900� kHz)� noise,� and� it� prevents� distortion� in� the� band� of� interest.�
�For� conventional� current� sensors,� a� simple� RC� filter� (single-pole�
�12.5k� ?�
�12.5k� ?�
�LPF)� with� a� corner� frequency� of� 10� kHz� produces� an� attenuation�
�of� approximately� 40� dB� at� 894� kHz—see� Figure� 41.� The� 20� dB�
�per� decade� attenuation� is� usually� sufficient� to� eliminate� the� effects�
�of� aliasing� for� conventional� current� sensors;� however,� for� a� di/dt�
�12.5k� ?�
�12.5k� ?�
�REFERENCE� INPUT�
�TO� ADC� CHANNEL� 1�
�(RANGE� SELECT)�
�2.42V,� 1.21V,� 0.6V�
�sensor� such� as� a� Rogowski� coil,� the� sensor� has� a� 20� dB� per� decade�
�gain.� This� neutralizes� the� –20� dB� per� decade� attenuation�
�produced� by� one� simple� LPF.� Therefore,� when� using� a� di/dt�
�sensor,� care� should� be� taken� to� offset� the� 20� dB� per� decade� gain.�
�One� simple� approach� is� to� cascade� two� RC� filters� to� produce� the�
�–40� dB� per� decade� attenuation.�
�ALIASING� EFFECTS�
�SAMPLING�
�Figure� 42.� Reference� Circuit� Output�
�The� REF� IN/OUT� pin� can� be� overdriven� by� an� external� source� such� as�
�a� 2.5� V� reference.� Note� that� the� nominal� reference� value� supplied�
�to� the� ADCs� is� now� 2.5� V,� not� 2.42� V,� which� increases� the�
�nominal� analog� input� signal� range� by� 2.5/2.42� � 100%� =� 3%� or�
�from� 0.5� V� to� 0.5165� V.�
�The� voltage� of� the� ADE7763� reference� drifts� slightly� with� changes�
�in� temperature—see� Table� 1� for� the� temperature� coefficient�
�IMAGE�
�FREQUENCIES�
�FREQUENCY�
�specification� (in� ppm/°C).� The� value� of� the� temperature� drift�
�varies� from� part� to� part.� Because� the� reference� is� used� for� the�
�ADCs� in� both� Channels� 1� and� 2,� any� x%� drift� in� the� reference�
�0�
�2� 447� 894�
�FREQUENCY� (kHz)�
�Figure� 41.� ADC� and� Signal� Processing� in� Channel� 1� Outline� Dimensions�
�results� in� 2x%� deviation� in� the� meter� accuracy.� The� reference�
�drift� that� results� from� a� temperature� change� is� usually� very�
�small,� typically� much� smaller� than� the� drift� of� other� components�
�on� a� meter.� However,� if� guaranteed� temperature� performance� is�
�(1)�
�Code� (� ADC� )� =� 3.0492� �
�� 262,144�
�ADC� Transfer� Function�
�The� following� expression� relates� the� output� of� the� LPF� in� the�
�Σ� -?� ADC� to� the� analog� input� signal� level.� Both� ADCs� in� the�
�ADE7763� are� designed� to� produce� the� same� output� code� for� the�
�same� input� signal� level.�
�V� IN�
�V� OUT�
�Therefore,� with� a� full-scale� signal� on� the� input� of� 0.5� V� and� an�
�internal� reference� of� 2.42� V,� the� ADC� output� code� is� nominally�
�165,151,� or� 0x2851F.� The� maximum� code� from� the� ADC� is�
�±262,144;� this� is� equivalent� to� an� input� signal� level� of� ±0.794� V.�
�However,� for� specified� performance,� do� not� exceed� the� 0.5� V�
�needed,� use� an� external� voltage� reference.� Alternatively,� the�
�meter� can� be� calibrated� at� multiple� temperatures.� Real-time�
�compensation� can� be� achieved� easily� by� using� the� on-chip�
�temperature� sensor.�
�CHANNEL� 1� ADC�
��Channel� 1.� In� waveform� sampling� mode,� the� ADC� outputs� a�
�signed,� twos� complement,� 24-bit� data-word� at� a� maximum� of�
�27.9� kSPS� (CLKIN/128).� With� the� specified� full-scale� analog�
�input� signal� of� 0.5� V� (or� 0.25� V� or� 0.125� V—see� the� Analog�
�Inputs� section),� the� ADC� produces� an� output� code� that� is�
�approximately� between� 0x28� 51EC� (+2,642,412d)� and�
��full-scale� input� signal� level.�
�Rev.� C� |� Page� 21� of� 56�
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