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| 型号: | ADE7759ARSRL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 12/36页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METERING 1PHASE 20SSOP |
| 标准包装: | 1,500 |
| 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: | 带卷 (TR) |
| 配用: | EVAL-ADE7759EBZ-ND - BOARD EVALUATION FOR ADE7759 |
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��ADE7759�
�It� is� also� possible� to� adjust� offset� errors� on� Channel� 1� and�
�CH1OS[5:0]�
�Channel� 2� by� writing� to� the� offset� correction� registers� (CH1OS�
�and� CH2OS,� respectively).� These� registers� allow� channel�
�offsets� in� the� range� ±� 24� mV� to� ±� 50� mV� (depending� on� the�
�gain� setting)� to� be� removed.� Note� that� it� is� not� necessary� to�
�perform� an� offset� correction� in� an� energy� measurement� applica-�
�1Fh�
�00h�
�01,1111b� SIGN� +� 5� BITS�
�tion� if� HPF1� Channel� 1� is� switched� on.� Figure� 6� shows� the�
�effect� of� offsets� on� the� real� power� calculation;� an� offset� on�
�Channel� 1� and� Channel� 2� will� contribute� a� dc� component�
�–50mV�
�0mV�
�+50mV�
�OFFSET�
�ADJUST�
�after� multiplication.� Since� this� dc� component� is� extracted� by�
�LPF2� to� generate� the� active� (real)� power� information,� the�
�offsets� will� have� contributed� an� error� to� the� active� power�
�3Fh�
�11,1111b� SIGN� +� 5� BITS�
�calculation.� This� problem� is� easily� avoided� by� enabling� HPF1�
�in� Channel� 1.� By� removing� the� offset� from� at� least� one� channel,�
�no� error� component� is� generated� at� dc� by� the� multiplication.�
�Error� terms� at� cos(� ω� t)� are� removed� by� LPF2� and� by� integra-�
�tion� of� the� active� power� signal� in� the� active� energy� register�
�(AENERGY[39:0])—see� Energy� Calculation� section.�
�DC� COMPONENT� (INCLUDING� ERROR� TERM)�
�IS� EXTRACTED� BY� THE� LPF� FOR� REAL�
�POWER� CALCULATION�
�Figure� 7.� Channel� Offset� Correction� Range� (Gain� =� 1)�
�di/dt� CURRENT� SENSOR� AND� DIGITAL� INTEGRATOR�
�The� di/dt� sensor� detects� changes� in� magnetic� field� caused� by� ac�
�current.� Figure� 8� shows� the� principle� of� a� di/dt� current� sensor.�
�MAGNETIC� FIELD� CREATED� BY� CURRENT�
�(DIRECTLY� PROPORTIONAL� TO� CURRENT)�
�V� OS�
�V�
�2�
�I� OS�
�I�
�0�
�I� OS�
�V� OS�
�V�
�I�
�2�
�+� EMF� (ELECTROMOTIVE� FORCE)�
�–� INDUCED� BY� CHANGES� IN�
�MAGNETIC� FLUX� DENSITY� (di/dt)�
�Figure� 8.� Principle� of� a� di/dt� Current� Sensor�
�Figure� 6.� Effect� of� Channel� Offsets� on� the� Real�
�Power� Calculation�
�The� contents� of� the� offset� correction� registers� are� 6-bit,� sign� and�
�magnitude� coded.� The� weighting� of� the� LSB� size� depends� on�
�the� gain� setting,� i.e.,� 1,� 2,� 4,� 8,� or� 16.� Table� II� shows� the�
�correctable� offset� span� for� each� of� the� gain� settings� and� the� LSB�
�weight� (mV)� for� the� offset� correction� registers.� The� maximum�
�value� that� can� be� written� to� the� offset� correction� registers� is� ±� 31�
�decimal—see� Figure� 7.�
�Table� II.� Offset� Correction� Range�
�The� flux� density� of� a� magnetic� field� induced� by� a� current� is� directly�
�proportional� to� the� magnitude� of� the� current.� The� changes� in� the�
�magnetic� flux� density� passing� through� a� conductor� loop� generate�
�an� electromotive� force� (EMF)� between� the� two� ends� of� the� loop.�
�The� EMF� is� a� voltage� signal� that� is� proportional� to� the� di/dt� of�
�the� current.� The� voltage� output� from� the� di/dt� current� sensor�
�is� determined� by� the� mutual� inductance� between� the� current-�
�carrying� conductor� and� the� di/dt� sensor.� Figure� 9� shows� that�
�the� mutual� inductance� produces� a� di/dt� signal� at� the� output�
�of� the� sensor.�
�Gain�
�Correctable� Span�
�LSB� Size�
�MUTUAL� INDUCTANCE� M�
�1�
�2�
�4�
�8�
�16�
�±� 50� mV�
�±� 37� mV�
�±� 30� mV�
�±� 26� mV�
�±� 24� mV�
�1.61� mV/LSB�
�1.19� mV/LSB�
�0.97� mV/LSB�
�0.84� mV/LSB�
�0.77� mV/LSB�
�i(t)�
�+�
�v=M�
�–�
�di(t)�
�dt�
�Figure� 7� shows� the� relationship� between� the� offset� correction�
�register� contents� and� the� offset� (mV)� on� the� analog� inputs� for� a�
�gain� setting� of� one.� To� perform� an� offset� adjustment,� the� analog�
�inputs� should� be� first� connected� to� AGND,� and� there� should� be�
�no� signal� on� either� Channel� 1� or� Channel� 2.� A� read� from�
�Channel� 1� or� Channel� 2� using� the� waveform� register� will� give� an�
�indication� of� the� offset� in� the� channel.� This� offset� can� be�
�canceled� by� writing� an� equal� but� opposite� offset� value� to� the�
�relevant� offset� register.� The� offset� correction� can� be� confirmed�
�by� performing� another� read.� Note� that� when� adjusting� the� offset� of�
�Channel� 1,� the� digital� integrator� and� the� HPF1� should� be� disabled.�
�Figure� 9.� Mutual� Inductance� Between� the� di/dt�
�Sensor� and� the� Current� Carrying� Conductor�
�The� current� signal� needs� to� be� recovered� from� the� di/dt� signal�
�before� it� can� be� used� for� active� power� calculation.� An� integrator�
�is� therefore� necessary� to� restore� the� signal� to� its� original� form.�
�The� ADE7759� has� a� built-in� digital� integrator� to� recover� the�
�current� signal� from� the� di/dt� sensor.� The� digital� integrator� on�
�Channel� 1� is� switched� on� by� default� when� the� ADE7759� is�
�powered� up.� Setting� the� MSB� of� the� CH1OS� register� to� 0� will�
�turn� off� the� integrator.� Figures� 10� to� 13� show� the� magnitude�
�and� phase� response� of� the� digital� integrator.�
�–12� –�
�REV.� A�
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| ADE7759ARSZ | 功能描述:IC ENERGY METERING 1PHASE 20SSOP 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:* |
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