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| 型号: | 71M6543F-IGTR/F |
| 厂商: | Maxim Integrated |
| 文件页数: | 90/154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�
�Table� 66:� GAIN_ADJn� Compensation� Channels� (� Figure� 2� ,� Figure� 31,� Table� 1� )�
�Gain� Adjustment� Output�
�GAIN_ADJ0�
�GAIN_ADJ1�
�GAIN_ADJ2�
�GAIN_ADJ3�
�CE� RAM� Address�
�0x40�
�0x41�
�0x42�
�0x43�
�Sensor� Channel(s)�
�(pin� names)�
�VADC8� (VA)�
�VADC9� (VB)�
�VADC10� (VC)�
�IADC0-IADC1�
�IADC2-IADC3�
�IADC4-IADC5�
�Compensation� For:�
�VREF� in� 71M6543� and� Voltage� Divider�
�Resistors�
�VREF� in� 71M6543� and� Shunt�
�(Neutral� Current)�
�VREF� in� 71M6xx3� and� Shunt�
�(Phase� A)�
�VREF� in� 71M6xx3� and� Shunt�
�(Phase� B)�
�IADC6-IADC7� VREF� in� 71M6xx3� and� Shunt�
�(Phase� C)�
�determined� by� the� values� stored� in� the� PPMC� (1� order� coefficient)� and� PPMC2� (2�
�order� coefficient),�
�given� current-sensing� channel� (i.e.,� the� 1� order� PPMC� coefficients� are� summed� together,� and� the� 2�
�GAIN_ADJ4� 0x44�
�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� temperature� variation� of� the� shunt� current� sensor�
�(if� required)� and� the� corresponding� VREF� voltage� reference� (summed� together).�
�The� shunt� sensor� requires� a� second� order� polynomial� compensation� which� is� determined� by� the� PPMC�
�and� PPMC2� coefficients� for� the� corresponding� current� measurement� channel.� The� corresponding� VREF�
�voltage� reference� also� requires� the� PPMC� and� PPMC2� coefficients� to� match� the� second� order�
�temperature� behavior� of� the� voltage� reference.� The� PPMC� and� PPMC2� values� associated� with� the� shunt�
�and� with� the� corresponding� VREF� are� summed� together� to� obtain� the� compensation� coefficients� for� a�
�st� nd�
�order� PPMC2� coefficients� are� summed� together).�
�In� the� 71M6543F� and� 71M6543G,� the� required� VREF� compensation� coefficients� PPMC� and� PPMC2� are�
�calculated� from� readable� on-chip� non-volatile� fuses� (see� 4.5.2� Temperature� Coefficients� for� the�
�71M6543F� ).� These� coefficients� are� designed� to� achieve� ±40� ppm/°C� for� VREF� in� the� 71M6543F� and�
�71M6543G.� PPMC� and� PPMC2� coefficients� are� similarly� calculated� for� the� 71M6xx3� remote� sensor�
�(see� 4.5.3� Temperature� Coefficients� for� the� 71M6xx3� ).�
�For� the� current� channels,� to� determine� the� PPMC� and� PPMC2� coefficients� for� the� shunt� current�
�sensors,� the� designer� must� either� know� the� average� temperature� curve� of� the� shunt� from� its�
�manufacturer’s� data� sheet� or� obtain� these� coefficients� by� laboratory� characterization� of� the� shunt� used�
�in� the� design.�
�4.5.5�
�Temperature� Compensation� of� VREF� and� Current� Transformers�
�This� section� discusses� metrology� temperature� compensation� for� meter� designs� where� Current�
�Transformer� (CT)� sensors� are� used,� as� shown� in� Figure� 32.�
�Sensors� that� are� directly� connected� to� the� 71M6543� are� affected� by� the� voltage� variation� in� the� 71M6543�
�VREF� due� to� temperature.� The� VREF� in� the� 71M6543� can� be� compensated� digitally� using� a� second-�
�order� polynomial� function� of� temperature.� The� 71M6543� features� a� temperature� sensor� for� the� purposes�
�of� temperature� compensating� its� VREF.� The� compensation� computations� must� be� implemented� in� MPU�
�firmware� and� written� to� the� corresponding� GAIN_ADJx� CE� RAM� location.�
�Referring� to� Figure� 32� ,� the� VADC8� (VA),� VADC9� (VB)� and� VADC10� (VC)� voltage� sensors� are� directly�
�connected� to� the� 71M6543.� Thus,� the� precision� of� the� voltage� sensors� is� primarily� affected� by� VREF� in� the�
�71M6543.� The� temperature� coefficient� of� the� resistors� used� to� implement� the� voltage� dividers� for� the� voltage�
�sensors� (see� Figure� 27� )� determine� the� behavior� of� the� voltage� division� ratio� with� respect� to� temperature.� It� is�
�recommended� to� use� resistors� with� low� temperature� coefficients,� while� forming� the� entire� voltage� divider�
�using� resistors� belonging� to� the� same� technology� family,� in� order� to� minimize� the� temperature� dependency� of�
�the� voltage� division� ratio.� The� resistors� must� also� have� suitable� voltage� ratings.�
�The� Current� Transformers� are� directly� connected� to� the� 71M6543� and� are� therefore� primarily� affected� by� the�
�VREF� temperature� dependency� in� the� 71M6543.� For� best� performance,� it� is� recommended� to� use� the�
�90�
�v2�
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| 71M6543FT-IGT/F | 制造商:Maxim Integrated Products 功能描述:ENERGY METER ICS - Rail/Tube |
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