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���
���SNIS143E� –� AUGUST� 2006� –� REVISED� MARCH� 2013�
�Processor� Family�
�min�
�Diode� Equation� η� D� ,� non-ideality�
�typ�
�max�
�Series� R�
�Pentium� III� CPUID� 67h�
�Pentium� III� CPUID� 68h/PGA370Socket/�
�1�
�1.0057�
�1.0065�
�1.008�
�1.0125�
�1.0125�
�Celeron�
�Pentium� 4,� 423� pin�
�Pentium� 4,� 478� pin�
�0.9933�
�0.9933�
�1.0045�
�1.0045�
�1.0368�
�1.0368�
�Pentium� 4� on� 0.13� micron� process,� 2-3.06GHz�
�Pentium� 4� on� 90� nm� process�
�Pentium� on� 65� nm� porcess�
�Pentium� M� Processor� (Centrino)�
�1.0011�
�1.0083�
�1.000�
�1.00151�
�1.0021�
�1.011�
�1.009�
�1.00220�
�1.0030�
�1.023�
�1.050�
�1.00289�
�3.64� ?�
�3.33� ?�
�4.52� ?�
�3.06� ?�
�MMBT3904�
�1.003�
�AMD� Athlon� MP� model� 6�
�AMD� Athlon� 64�
�AMD� Opteron�
�AMD� Sempron�
�1.002�
�1.008�
�1.008�
�1.008�
�1.008�
�1.008�
�1.00261�
�1.016�
�1.096�
�1.096�
�0.93� ?�
�Compensating� for� Different� Non-Ideality�
�In� order� to� compensate� for� the� errors� introduced� by� non-ideality,� the� temperature� sensor� is� calibrated� for� a�
�particular� processor.� Texas� Instruments� temperature� sensors� are� always� calibrated� to� the� typical� non-ideality� and�
�series� resistance� of� a� given� processor� type.� The� LM95241� is� calibrated� for� two� non-ideality� factors� and� series�
�resistance� values� thus� supporting� the� MMBT3904� transistor� and� the� Intel� processor� on� 65nm� or� 90nm� process�
�without� the� requirement� for� additional� trims.� For� most� accurate� measurements� TruTherm� mode� should� be� turned�
�on� when� measuring� the� Intel� processor� on� the� 65nm� or� 90nm� process� to� minimize� the� error� introduced� by� the�
�false� non-ideality� spread� (see� Diode� Non-Ideality� Factor� Effect� on� Accuracy� ).� When� a� temperature� sensor�
�calibrated� for� a� particular� processor� type� is� used� with� a� different� processor� type,� additional� errors� are� introduced.�
�Temperature� errors� associated� with� non-ideality� of� different� processor� types� may� be� reduced� in� a� specific�
�temperature� range� of� concern� through� use� of� software� calibration.� Typical� Non-ideality� specification� differences�
�cause� a� gain� variation� of� the� transfer� function,� therefore� the� center� of� the� temperature� range� of� interest� should� be�
�the� target� temperature� for� calibration� purposes.� The� following� equation� can� be� used� to� calculate� the� temperature�
�correction� factor� (T� CF� )� required� to� compensate� for� a� target� non-ideality� differing� from� that� supported� by� the�
�LM95241.�
�T� CF� =� [(� η� S� ?η� Processor� )� ÷� η� S� ]� ×� (T� CR� +� 273� K)�
�where�
�?�
�?�
�η� S� =� LM95241� non-ideality� for� accuracy� specification�
�η� T� =� target� thermal� diode� typical� non-ideality�
�?�
�T� CR� =� center� of� the� temperature� range� of� interest� in� °C�
�(10)�
�The� correction� factor� of� Equation� 10� should� be� directly� added� to� the� temperature� reading� produced� by� the�
�LM95233.� For� example� when� using� the� LM95241,� with� the� 3904� mode� selected,� to� measure� a� AMD� Athlon�
�processor,� with� a� typical� non-ideality� of� 1.008,� for� a� temperature� range� of� 60� °C� to� 100� °C� the� correction� factor�
�would� calculate� to:�
�T� CF� =[(1.003� ?� 1.008)÷1.003]×(80+273)� =� ?� 1.75°C�
�(11)�
�Therefore,� 1.75°C� should� be� subtracted� from� the� temperature� readings� of� the� LM95241� to� compensate� for� the�
�differing� typical� non-ideality� target.�
�Copyright� ?� 2006–2013,� Texas� Instruments� Incorporated�
�Product� Folder� Links:� LM95241�
��21�
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