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�FDS_6533_6534_004�
�71M6533/G/H� and� 71M6534/H� Data� Sheet�
�correction� coefficients� PPM1� and� PPMC2� per� the� formulae� given� in� Section� 6.4.15� VREF� .� See� Section� 3.5�
�Temperature� Compensation� for� additional� details.�
�The� fuse� TRIMBGB� is� non-zero� for� the� high-accuracy� parts� and� zero� for� the� regular� parts.� Only� partial� trim�
�fuse� information� is� available� for� the� regular� parts.� The� values� for� PPMC� and� PPMC2� that� are� used� by� the�
�CE� to� implement� temperature� compensation� are� calculated� as� follows:�
�?�
�?�
�PPMC� =� TC1� *� 22.46� =� (52.46� -� TRIMT� )� *� 3.18� *� 22.46� =� (52.46� -� TRIMT� )� *� 71.423�
�PPMC2� =� TC2� *� 1150.1� =� –0.444� *� 1150.1� =� -510.6�
�The� factor� TRIMT� used� to� calculate� PPMC� is� derived� from� the� trim� fuse� TRIMT� [7:0].�
�3.3�
�Connecting� 5� V� Devices�
�All� digital� input� pins� of� the� 71M6533/71M6534� are� compatible� with� external� 5� V� devices.� I/O� pins� configured�
�as� inputs� do� not� require� current-limiting� resistors� when� they� are� connected� to� external� 5� V� devices.�
�3.4�
�Temperature� Measurement�
�(� N� (� T� )� ?� N� n� )�
�S� n�
�Measurement� of� absolute� temperature� uses� the� on-chip� temperature� sensor� and� applying� the� following�
�formula:�
�T� =� +� T� n�
�In� the� above� formula� T� is� the� temperature� in� °C,� N(T)� is� the� ADC� count� at� temperature� T,� N� n� is� the� ADC�
�count� at� 25°C,� S� n� is� the� sensitivity� in� LSB/°C� as� stated� in� the� Electrical� Specifications,� and� T� n� is� +25� °C.�
�It� is� recommended� that� temperature� measurements� be� based� on� TEMP_RAW_X� which� is� the� sum� of� two�
�consecutive� temperature� readings,� thus� being� higher� by� a� factor� of� two� than� the� raw� sensor� readings.�
�Example:� At� 25°C� a� temperature� sensor� value� of� 483,203,000� (N� n� )� is� read� by� the� ADC.� At� an� unknown�
�temperature� T� the� value� 449.648.000� is� read� at� (N(T)).� We� determine� the� absolute� temperature� by� dividing�
�the� difference� of� N� n� and� N(T)� by� 512� times� the� slope� factor� (-1180).� After� this,� we� add� the� 25� °C� from� the�
�reference� measurement:�
�T� =�
�449.648.000 - 483,203,000�
�512� ?� (� ?� 1180� )�
�+� 25� C� =� 80� .� 5� C�
�The� divisor� 512� accounts� for� the� 8-bit� shift� of� the� ADC� value� and� for� the� factor� of� 2� introduced� into� the�
�measurement� by� the� CE� which� adds� two� consecutive� temperature� readings.�
�3.5�
�Temperature� Compensation�
�In� a� typical� application,� the� CE� compensates� for� the� temperature� dependency� of� the� reference� voltage�
�(see� Section� 4.1.1� ).� System-wide� temperature� correction� over� the� entire� meter� is� possible� by� involving�
�the� MPU.� The� thermal� coefficients� processed� by� the� MPU� may� include� the� current� sensors,� the� voltage�
�sensors,� and� other� influences.�
�3.5.1�
�Temperature� Coefficients�
�For� the� 71M6533� and� 71M6534� (regular� accuracy� parts),� the� temperature� coefficient� TC2� is� given� as� a�
�constant� that� represent� typical� component� behavior� (in� μV/°C� 2� ).� TC1� can� be� calculated� for� the� individual�
�chip� from� the� contents� of� the� TRIMT[7:0]� I/O� RAM� register.� TC1� and� TC2� allow� compensation� for� variations�
�of� the� reference� voltage� to� within� ±40� PPM/°C.�
�For� the� high-accuracy� parts,� individualized� coefficients� TC1� and� TC2� can� be� retrieved� from� the� on-chip�
�fuses� via� TRIMBGA� ,� TRIMBGB� ,� TRIMM[2:0]� (see� Section� 3.2� Distinction� between� 71M6533/71M6534� and�
�71M6533G/H/71M6534H� Parts� ).� For� this� part,� TC1� and� TC2� allow� compensation� for� variations� of� the�
�reference� voltage� to� within� ±15� PPM/°C�
�Rev� 2�
�69�
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