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| 型号: | 71M6543F-IGTR/F |
| 厂商: | Maxim Integrated |
| 文件页数: | 91/154页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METER 64K FLSH 100LQFP |
| 标准包装: | 1,000 |
| 系列: | * |
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�71M6543F/71M6543G� Data� Sheet�
�differential� signal� conditioning� circuit,� as� shown� in� Figure� 29� ,� to� connect� the� CTs� to� the� 71M6543.� Current�
�transformers� may� also� require� temperature� compensation.� The� copper� wire� winding� in� the� CT� has� dc�
�resistance� with� a� temperature� coefficient,� which� makes� the� voltage� delivered� to� the� burden� resistor�
�temperature� dependent,� and� the� burden� resistor� also� has� a� temperature� coefficient.� Thus,� each� CT� sensor�
�channel� needs� to� compensate� for� the� 71M6543� VREF,� and� optionally� for� the� temperature� dependency� of� the�
�CT� and� its� burden� resistor� depending� on� the� required� accuracy� class.�
�The� MPU� has� the� responsibility� of� computing� the� necessary� sample� gain� compensation� values� required� for�
�each� sensor� channel� based� on� the� sensed� temperature.� Maxim� provides� demonstration� code� that�
�implements� the� GAIN_ADJx� compensation� equation� shown� below.� The� resulting� GAIN_ADJx� values� are�
�stored� by� the� MPU� in� five� CE� RAM� locations� GAIN_ADJ0-GAIN_ADJ5� (� CE� RAM� 0x40-0x44� ).� The�
�demonstration� code� thus� provides� a� suitable� implementation� of� temperature� compensation,� but� other�
�methods� are� possible� in� MPU� firmware� by� utilizing� the� on-chip� temperature� sensor� while� storing� the� sample�
�gain� adjustment� results� in� the� CE� RAM� GAIN_ADJn� storage� locations.� The� demonstration� code� maintains�
�five� separate� sets� of� PPMC� and� PPMC2� coefficients� and� computes� five� separate� GAIN_ADJn� values�
�based� on� the� sensed� temperature� using� the� equation� below:�
�10� ?� TEMP� _� X� ?� PPMC� 100� ?� TEMP� _� X� 2� ?� PPMC� 2�
�GAIN� _� ADJx� =� 16385� +�
�2� 14� 2� 23�
�+�
�the� sample� in� each� corresponding� sensor� channel.� A� GAIN_ADJx� value� of� 16,384� (i.e.,� 2� )corresponds� to�
�In� the� above� equation,� TEMP_X� is� the� deviation� from� nominal� or� calibration� temperature� expressed� in�
�multiples� of� 0.1� °C.� The� 10x� and� 100x� factors� seen� in� the� above� equation� are� due� to� 0.1� C� scaling� of�
�The� GAIN_ADJn� values� stored� by� the� MPU� in� CE� RAM� are� used� by� the� CE� to� gain� adjust� (i.e.,� multiply)�
�14�
�unity� gain,� while� values� less� than� 16,384� attenuate� the� samples� and� values� greater� than� 16,384� amplify�
�the� samples.�
�o�
�TEMP_X� .� For� example,� if� the� calibration� (reference)� temperature� is� 22� °C� and� the� measured� temperature�
�is� 27� °C,� then� 10*� TEMP_X� =� (27-22)� x� 10� =� 50� (decimal),� which� represents� a� +5� °C� deviation� from� 22� °C.�
�In� the� demonstration� code,� TEMP_X� is� calculated� in� the� MPU� from� the� STEMP[10:0]� temperature� sensor�
�reading� using� the� equation� provided� below� and� is� scaled� in� 0.1°C� units.� See� 2.5.5� 71M6543� Temperature�
�Sensor� on� page� 53� for� the� equation� to� calculate� temperature� in� °C� from� the� STEMP[10:0]� reading.�
�Table� 67� shows� the� five� GAIN_ADJx� equation� output� storage� locations� and� the� voltage� or� current�
�measurements� for� which� they� compensate.�
�Table� 67:� GAIN_ADJx� Compensation� Channels� (� Figure� 3� ,� Figure� 32� ,� Table� 2� )�
�Gain� Adjustment� Output�
�GAIN_ADJ0�
�GAIN_ADJ1�
�GAIN_ADJ2�
�GAIN_ADJ3�
�GAIN_ADJ4�
�CE� RAM� Address�
�0x40�
�0x41�
�0x42�
�0x43�
�0x44�
�Sensor� Channel(s)�
�(pin� names)�
�VADC8� (VA)�
�VADC9� (VB)�
�VADC10� (VC)�
�IADC0-IADC1�
�IADC2-IADC3�
�IADC4-IADC5�
�IADC6-IADC7�
�Compensation� For:�
�VREF� in� 71M6543� and� Voltage� Divider�
�Resistors�
�VREF� in� 71M6543,� CT� and� Burden�
�Resistor� (Neutral� Current)�
�VREF� in� 71M6543,� CT� and� Burden�
�Resistor� (Phase� A)�
�VREF� in� 71M6543,� CT� and� Burden�
�Resistor� (Phase� B)�
�VREF� in� 71M6543,� CT� and� Burden�
�Resistor� (Phase� C)�
�determined� by� the� values� stored� in� the� PPMC� (1� order� coefficient)� and� PPMC2� (2�
�order� coefficient),�
�In� the� demonstration� code,� the� shape� of� the� temperature� compensation� second-order� parabolic� curve� is�
�st� nd�
�which� are� typically� setup� by� the� MPU� at� initialization� time� from� values� that� are� stored� in� EEPROM.�
�To� disable� temperature� compensation� in� the� demonstration� code,� PPMC� and� PPMC2� are� both� set� to� zero�
�for� each� of� the� five� GAIN_ADJx� channels.� To� enable� temperature� compensation,� the� PPMC� and� PPMC2�
�coefficients� are� set� with� values� that� match� the� expected� VREF� temperature� variation� and� optionally� the�
�v2�
�91�
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| 71M6543FT-IGT/F | 制造商:Maxim Integrated Products 功能描述:ENERGY METER ICS - Rail/Tube |
| 71M6543FT-IGTR/F | 制造商:Maxim Integrated Products 功能描述:3-PHASE SOC, 64KB FLASH, PRES TEMP SENSOR - Tape and Reel |
| 71M6543G | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:Selectable Gain of 1 or 8 for One Current Energy Meter ICs Metrology Compensation |
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| 71M6543GHT-IGT/F | 制造商:Maxim Integrated Products 功能描述:3-PHASE, 128KB, PRES TEMP SENSOR, HI PREC - Bulk |
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