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�ADM1031�
�Functional� Description�
�The� ADM1031� is� a� temperature� monitor� and� dual� PWM�
�fan� controller� for� microprocessor-based� systems.� The�
�device� communicates� with� the� system� via� a� serial� System�
�Management� Bus� (SMBus).� The� serial� bus� controller� has� a�
�hardwired� address� pin� for� device� selection� (Pin� 13),� a� serial�
�data� line� for� reading� and� writing� addresses� and� data� (Pin� 15),�
�and� an� input� line� for� the� serial� clock� (Pin� 16).� All� control� and�
�programming� functions� of� the� ADM1031� are� performed�
�over� the� serial� bus.� The� device� also� supports� Alert� Response�
�Address� (ARA).�
�Internal� Registers�
�Brief� descriptions� of� the� ADM1031’s� principal� internal�
�registers� are� given� below.� For� more� detailed� information� on�
�the� function� of� each� register,� see� Table� 18� through� Table� 33.�
�Configuration� Register�
�This� register� controls� and� configures� various� functions� on�
�the� device.�
�defines� the� range� over� which� auto� fan� control� is� provided,�
�and� hence� determines� the� temperature� at� which� the� fan� is� run�
�at� full� speed.�
�Serial� Bus� Interface�
�Control� of� the� ADM1031� is� carried� out� via� the� SMBus.�
�The� ADM1031� is� connected� to� this� bus� as� a� slave� device,�
�under� the� control� of� a� master� device,� for� example,� the� 810�
�chipset.�
�The� ADM1031� has� a� 7-bit� serial� bus� address.� When� the�
�device� is� powered� up,� it� does� so� with� a� default� serial� bus�
�address.� The� five� MSBs� of� the� address� are� set� to� 01011;� the�
�two� LSBs� are� determined� by� the� logical� state� of� Pin� 13�
�(ADD).� This� is� a� three-state� input� that� can� be� grounded,�
�connected� to� V� CC� ,� or� left� open-circuit� to� give� three� different�
�addresses.� The� state� of� the� ADD� pin� is� only� sampled� at�
�powerup,� so� changing� ADD� with� power� on� has� no� effect�
�until� the� device� is� powered� off,� then� on� again.�
�Table 5. ADD PIN� TRUTH� TABLE�
�Address� Pointer� Register�
�This� register� contains� the� address� that� selects� one� of� the�
�other� internal� registers.� When� writing� to� the� ADM1031,� the�
�first� byte� of� data� is� always� a� register� address,� which� is� written�
�ADD� Pin�
�GND�
�No� Connect�
�V� CC�
�A1�
�0�
�1�
�0�
�A0�
�0�
�0�
�1�
�to� the� address� pointer� register.�
�Status� Registers�
�These� registers� provide� status� of� each� limit� comparison.�
�Value� and� Limit� Registers�
�Theses� registers� store� the� results� of� temperature� and� fan�
�speed� measurements,� along� with� their� limit� values.�
�Fan� Speed� Configuration� Register�
�This� register� is� used� to� program� the� PWM� duty� cycle� for�
�each� fan.�
�Offset� Registers�
�These� registers� allow� the� temperature� channel� readings� to�
�be� offset� by� a� 5-bit� twos� complement� value� written� to� these�
�registers.� These� values� are� automatically� added� to� the�
�temperature� values� (or� subtracted� from� if� negative).� This�
�allows� the� systems� designer� to� optimize� the� system� if�
�required,� by� adding� or� subtracting� up� to� 15� ?� C� from� a�
�temperature� reading.�
�Fan� Characteristics� Registers�
�These� registers� are� used� to� select� the� spin-up� time,� PWM�
�frequency,� and� speed� range� for� the� fans� used.�
�THERM� Limit� Registers�
�These� registers� contain� the� temperature� values� at� which�
�THERM� is� asserted.�
�T� MIN� /T� RANGE� Registers�
�These� registers� are� read/write� registers� that� hold� the�
�minimum� temperature� value� below� which� the� fan� does� not�
�run� when� the� device� is� in� automatic� fan� speed� control� mode.�
�These� registers� also� hold� the� temperature� range� value� that�
�If� ADD� is� left� open-circuit,� then� the� default� address� is�
�0101110.� The� facility� to� make� hardwired� changes� at� the�
�ADD� pin� allows� the� user� to� avoid� conflicts� with� other�
�devices� sharing� the� same� serial� bus;� for� example,� if� more�
�than� one� ADM1031� is� used� in� a� system.�
�Serial� Bus� Protocol�
�1.� The� master� initiates� data� transfer� by� establishing� a�
�START� condition,� defined� as� a� high-to-low�
�transition� on� the� serial� data� line� SDA� while� the�
�serial� clock� line� SCL� remains� high.� This� indicates�
�that� an� address/data� stream� follows.� All� slave�
�peripherals� connected� to� the� serial� bus� respond� to�
�the� START� condition,� and� shift� in� the� next� eight�
�bits,� consisting� of� a� 7-bit� address� (MSB� first)� plus�
�an� R/W� bit� that� determines� the� direction� of� the�
�data� transfer,� that� is,� whether� data� is� written� to� or�
�read� from� the� slave� device.�
�The� peripheral� whose� address� corresponds� to� the�
�transmitted� address� responds� by� pulling� the� data�
�line� low� during� the� low� period� before� the� ninth�
�clock� pulse,� known� as� the� Acknowledge� Bit.� All�
�other� devices� on� the� bus� now� remain� idle� while� the�
�selected� device� waits� for� data� to� be� read� from� or�
�written� to� it.� If� the� R/W� bit� is� a� 0,� then� the� master�
�writes� to� the� slave� device.� If� the� R/W� bit� is� a� 1,�
�then� the� master� reads� from� the� slave� device.�
�2.� Data� is� sent� over� the� serial� bus� in� sequences� of�
�nine� clock� pulses,� eight� bits� of� data,� followed� by�
�an� acknowledge� bit� from� the� slave� device.�
�Transitions� on� the� data� line� must� occur� during� the�
�low� period� of� the� clock� signal� and� remain� stable�
�http://onsemi.com�
�7�
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