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参数资料
| 型号: | ADM1031ARQ-REEL |
| 厂商: | ON Semiconductor |
| 文件页数: | 14/32页 |
| 文件大小: | 0K |
| 描述: | IC SENSOR 2-TEMP/FAN CTRL 16QSOP |
| 产品变化通告: | MFG CHG Notification ADI to ON Semi LTB Notification |
| 标准包装: | 2,500 |
| 功能: | 风扇控制,温度监控器 |
| 传感器类型: | 内部和外部 |
| 感应温度: | 0°C ~ 100°C,外部传感器 |
| 精确度: | ±1°C 本地,±0.5°C 远程 |
| 拓扑: | ADC,比较器,多路复用器,寄存器库 |
| 输出类型: | SMBus? |
| 输出警报: | 是 |
| 输出风扇: | 是 |
| 电源电压: | 3 V ~ 5.5 V |
| 工作温度: | 0°C ~ 100°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-QSOP |
| 包装: | 带卷 (TR) |
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��
�
�ADM1031�
�Fan� Spin-Up�
�As� mentioned� in� the� How� Does� the� Control� Loop� Work?�
�section,� once� the� temperature� being� measured� exceeds� the�
�T� MIN� value� programmed,� the� fan� turns� on� at� minimum� speed�
�(default� =� 33%� duty� cycle).� However,� the� problem� with� fans�
�being� driven� by� PWM� is� that� 33%� duty� cycle� is� not� enough�
�to� reliably� start� the� fan� spinning.� The� solution� is� to� spin� the�
�fan� up� for� a� predetermined� time,� and� once� the� fan� has� spun�
�up,� its� running� speed� can� be� reduced� in� line� with� the�
�temperature� being� measured.�
�The� ADM1031� allows� fan� spin-up� times� between� 200� ms�
�and� 8� seconds.� Bits� <2:0>� of� Fan� Characteristics� Register� 1�
�(Register� 0� ?� 20)� and� Fan� Characteristic� Register� 2� (Register�
�0� ?� 21)� program� the� fan� spin-up� times.�
�Table� 9.� FAN� SPIN-UP� TIMES�
�control� loop� calculates� the� fastest� fan� speed� based� on� the�
�temperature� being� measured,� drives� the� fans.�
�Figures� 24� and� 25� show� how� the� fan’s� PWM� duty� cycle� is�
�determined� by� two� independent� control� loops.� This� is� the�
�type� of� auto� mode� fan� behavior� seen� when� Bit� 5� and� Bit� 6� of�
�Configuration� Register� 1� are� set� to� 11.� Figure� 24� shows� the�
�control� loop� for� the� local� temperature� channel.� Its� T� MIN�
�value� has� been� programmed� to� 20� ?� C,� and� its� T� RANGE� value�
�is� 40� ?� C.� The� local� temperature’s� T� MAX� is� thus� 60� ?� C.�
�Figure� 25� shows� the� control� loop� for� the� remote� temperature�
�channel.� Its� T� MIN� value� has� been� set� to� 0� ?� C,� while� its�
�T� RANGE� =� 80� ?� C.� Therefore,� the� remote� temperature’s�
�T� MAX� value� is� 80� ?� C.�
�Consider� if� both� temperature� channels� measure� 40� ?� C.�
�Both� control� loops� calculate� a� PWM� duty� cycle� of� 66%.�
�Therefore,� the� fan� is� driven� at� 66%� duty� cycle.� If� both�
�Bits� 2:0�
�000�
�001�
�010�
�011�
�100�
�101�
�110�
�111�
�Spin-Up� Time�
�(Fan� Characteristics� Registers� 1,� 2)�
�200� ms�
�400� ms�
�600� ms�
�800� ms�
�1� sec�
�2� sec� (Default)�
�4� sec�
�8� sec�
�temperature� channels� measure� 20� ?� C,� the� local� channel�
�calculates� 33%� PWM� duty� cycle,� while� the� Remote� 1�
�channel� calculates� 50%� PWM� duty� cycle.� Thus,� the� fans� are�
�driven� at� 50%� PWM� duty� cycle.� Consider� the� local�
�temperature� measuring� 60� ?� C� while� the� Remote� 1�
�temperature� is� measuring� 70� ?� C.� The� PWM� duty� cycle�
�calculated� by� the� local� temperature� control� loop� is� 100%�
�(because� the� temperature� =� T� MAX� ).� The� PWM� duty� cycle�
�calculated� by� the� Remote� 1� temperature� control� loop� at� 70� ?� C�
�is� approximately� 90%.� Therefore,� the� fan� runs� full-speed�
�(100%� duty� cycle).� Remember,� that� the� fan� speed� is� based� on�
�the� fastest� speed� calculated,� and� is� not� necessarily� based� on�
�Once� the� automatic� fan� speed� control� loop� parameters�
�have� been� chosen,� the� ADM1031� device� can� be�
�programmed.� The� ADM1031� is� placed� into� automatic� fan�
�speed� control� mode� by� setting� Bit� 7� of� Configuration�
�Register� 1� (Register� 0� ?� 00).� The� device� powers� up� in�
�automatic� fan� speed� control� mode� by� default.� The� control�
�mode� offers� further� flexibility� in� that� the� user� can� decide�
�which� temperature� channel/channels� control� each� fan.�
�the� highest� temperature� measured.� Depending� on� the� control�
�loop� parameters� programmed,� a� lower� temperature� on� one�
�channel,� can� actually� calculate� a� faster� speed� than� a� higher�
�temperature� on� the� other� channel.�
�100�
�93�
�87�
�Table� 10.� AUTO� MODE� FAN� BEHAVIOR�
�80�
�T� RANGE� =� 40� ?� C�
�Bits� 6,� 5�
�00�
�01�
�10�
�11�
�Control� Operation� (Configuration� Register� 1)�
�Remote� Temperature� 1� Controls� Fan� 1�
�Remote� Temperature� 2� Controls� Fan� 2�
�Remote� Temperature� 1� Controls� Fan� 1� and� 2�
�Remote� Temperature� 2� Controls� Fan� 1� and� 2�
�Maximum� Speed� Calculated� by� Local� and� Remote�
�Temperature� Channels� Controls� Fans� 1� and� 2�
�73�
�66�
�60�
�53�
�47�
�40�
�33�
�0�
�20�
�40�
�60�
�When� Bit� 5� and� Bit� 6� of� Configuration� Register� 1� are� both�
�set� to� 1,� increased� flexibility� is� offered.� The� local� and� remote�
�temperature� channels� can� have� independently� programmed�
�control� loops� with� different� control� parameters.� Whichever�
�http://onsemi.com�
�14�
�T� MIN� T� MAX� =� T� MIN� +� T� RANGE�
�LOCAL� TEMPERATURE� (� ?� C)�
�Figure� 24.� Max� Speed� Calculated� by� Local�
�Temperature� Control� Loop� Drives� Fan�
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