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�
�ADM1031�
�Register� 0� y� 24� Local� Temperature� T� MIN� /T� RANGE�
�<7:3>� Local� Temperature� T� MIN� .� These� bits� set� the�
�temperature� at� which� the� fan� turns� on� when�
�under� auto� fan� speed� control.� T� MIN� can� be�
�programmed� in� 4� ?� C� increments.�
�00000� =� 0� ?� C�
�00001� =� 4� ?� C�
�00010� =� 8� ?� C�
�00011� =� 12� ?� C�
�|�
�|�
�01000� =� 32� ?� C� (Default)�
�|�
�|�
�11110� =� 120� ?� C�
�11111� =� 124� ?� C�
�<2:0>� Local� Temperature� T� RANGE� .� This� nibble� sets�
�the� temperature� range� over� which� automatic�
�fan� speed� control� takes� place.�
�000� =� 5� ?� C�
�001� =� 10� ?� C�
�010� =� 20� ?� C�
�011� =� 40� ?� C�
�100� =� 80� ?� C�
�Register� 0� y� 25,� 0� y� 26� Remote� 1,� 2� Temperature�
�T� MIN� /T� RANGE�
�<7:3>� Remote� Temperature� T� MIN� .� Sets� the�
�temperature� at� which� the� fan� switches� on�
�based� on� Remote� X� Temperature� Readings.�
�00000� =� 0� ?� C�
�00001� =� 4� ?� C�
�00010� =� 8� ?� C�
�00011� =� 12� ?� C�
�|�
�|�
�01100� =� 48� ?� C�
�|�
�|�
�11110� =� 120� ?� C�
�11111� =� 124� ?� C�
�Filtered� Control� Mode�
�The� automatic� fan� speed� control� loop� reacts�
�instantaneously� to� changes� in� temperature,� that� is,� the� PWM�
�duty� cycle� responds� immediately� to� temperature� change.� In�
�certain� circumstances,� we� do� not� want� the� PWM� output� to�
�react� instantaneously� to� temperature� changes.� If� significant�
�variations� in� temperature� are� found� in� a� system,� the� fan�
�speed� changes,� which� could� be� obvious� to� someone� in� close�
�proximity.� One� way� to� improve� the� system’s� acoustics�
�would� be� to� slow� down� the� loop� so� that� the� fan� ramps� slowly�
�to� its� newly� calculated� fan� speed.� This� also� ensures� that�
�temperature� transients� are� effectively� ignored,� and� the� fan’s�
�operation� is� smooth.�
�There� are� two� means� by� which� to� apply� filtering� to� the�
�automatic� fan� speed� control� loop.� The� first� method� is� to� ramp�
�the� fan� speed� at� a� predetermined� rate,� to� its� newly� calculated�
�value� instead� of� jumping� directly� to� the� new� fan� speed.� The�
�second� approach� involves� changing� the� on-chip� ADC�
�sample� rate,� to� change� the� number� of� temperature� readings�
�taken� per� second.�
�The� filtered� mode� on� the� ADM1031� is� invoked� by� setting�
�Bit� 0� of� the� fan� filter� register� (Register� 0� ?� 23)� for� Fan� 1� and�
�Bit� 1� for� Fan� 2.� Once� the� fan� filter� register� has� been� written�
�to,� and� all� other� control� loop� parameters� (such� as� T� MIN� ,�
�T� RANGE� )� have� been� programmed,� the� device� can� be� placed�
�into� automatic� fan� speed� control� mode� by� setting� Bit� 7� of�
�Configuration� Register� 1� (Register� 0� ?� 00)� to� 1.�
�Effect� of� Ramp� Rate� on� Filtered� Mode�
�Bits� <6:5>� of� the� fan� filter� register� determine� the� ramp�
�rate� in� filtered� mode.� The� PWM_OUT� signal� driving� the� fan�
�has� a� period,� T,� given� by� the� PWM_OUT� drive� frequency,�
�f,� since� T� =� 1/f.� For� a� given� PWM� period,� T,� the� PWM� period�
�is� subdivided� in� to� 240� equal� time� slots.� One� time� slot�
�corresponds� to� the� smallest� possible� increment� in� PWM� duty�
�cycle.� A� PWM� signal� of� 33%� duty� cycle� is� thus� high� for�
�1/3� ?� 240� time� slots� and� low� for� 2/3� ?� 240� time� slots.�
�Therefore,� 33%� PWM� duty� cycle� corresponds� to� a� signal�
�that� is� high� for� 80� time� slots� and� low� for� 160� time� slots.�
�PWM_OUT�
�<2:0>�
�Remote� Temperature� T� RANGE� .� This� nibble�
�sets� the� temperature� range� over� which� the� fan�
�is� controlled� based� on� remote� temperature�
�readings.�
�000� =� 5� ?� C�
�001� =� 10� ?� C�
�010� =� 20� ?� C�
�011� =� 40� ?� C�
�100� =� 80� ?� C�
�33%� DUTY�
�CYCLE�
�80� TIME� 160� TIME�
�SLOTS� SLOTS�
�PWM� OUTPUT�
�(ONE� PERIOD)� =�
�240� TIME� SLOTS�
�Figure� 27.� 33%� PWM� Duty� Cycle� Represented�
�in� Time� Slots�
�The� ramp� rates� in� filtered� mode� are� selectable� between� 1,�
�2,� 4,� and� 8.� The� ramp� rates� are� actually� discrete� time� slots.�
�For� example,� if� the� ramp� rate� =� 8,� then� eight� time� slots� are�
�added� to� the� PWM_OUT� high� duty� cycle� each� time� the�
�PWM_OUT� duty� cycle� needs� to� be� increased.� Figure� 28�
�shows� how� the� filtered� mode� algorithm� operates.�
�http://onsemi.com�
�17�
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