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参数资料
| 型号: | ADT7490ARQZ-R7 |
| 厂商: | ON Semiconductor |
| 文件页数: | 33/75页 |
| 文件大小: | 0K |
| 描述: | IC THERM MON FAN CTLR 24-QSOP |
| 产品变化通告: | MFG CHG Notification ADI to ON Semi QSOP 24ld Pkg (MSL) Change 17/Jun/2010 Product Discontinuation 30/Sept/2011 |
| 标准包装: | 1,000 |
| 系列: | dBCool® |
| 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: | -40°C ~ 125°C |
| 精确度: | ±1.5°C(最小值) |
| 拓扑: | ADC,比较器,风扇速度计数器,多路复用器,寄存器库 |
| 输出类型: | SMBus? |
| 输出警报: | 无 |
| 输出风扇: | 是 |
| 电源电压: | 3 V ~ 3.6 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 24-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 24-QSOP |
| 包装: | 带卷 (TR) |
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�
�ADT7490�
�temperature� region� where� the� PWM� output� linearly� ramps�
�from� PWM� MIN� to� 100%� PWM.�
�PWM� =� 100%�
�PWM� MAX�
�automatically� speed� up� to� maximum� PWM� or� 100%� PWM,�
�whichever� way� the� appropriate� fan� channel� is� configured.�
�Automatic� Fan� Control� Overview�
�The� ADT7490� can� automatically� control� the� speed� of� fans�
�based� on� the� measured� temperature.� This� is� done�
�independently� of� CPU� intervention� once� the� initial�
�parameters� are� set� up.�
�The� ADT7490� has� a� local� temperature� sensor� and� two�
�PWM� MIN�
�PWM� =� 0%�
�T� MIN�
�T� RANGE�
�remote� temperature� channels� that� can� be� connected� to� a� CPU�
�on-chip� thermal� diode� (available� on� Intel� ?� Pentium� ?� class�
�and� other� CPUs).� These� three� temperature� channels� can� be�
�used� as� the� basis� for� automatic� fan� speed� control� to� drive� fans�
�using� pulse-width� modulation� (PWM).�
�Figure� 47.� T� RANGE�
�Programming� the� Automatic� Fan� Speed� Control� Loop�
�To� more� efficiently� understand� the� automatic� fan� speed�
�control� loop,� using� the� ADT7490� evaluation� board� and�
�software� while� reading� this� section� is� recommended.�
�This� section� provides� the� system� designer� with� an�
�understanding� of� the� automatic� fan� control� loop,� and�
�provides� step-by-step� guidance� on� effectively� evaluating�
�and� selecting� critical� system� parameters.� To� optimize� the�
�system� characteristics,� the� designer� needs� to� give� some�
�thought� to� system� configuration,� including� the� number� of�
�fans,� where� they� are� located,� and� what� temperatures� are�
�being� measured� in� the� particular� system.�
�The� mechanical� or� thermal� engineer� who� is� tasked� with�
�the� system� thermal� characterization� should� also� be� involved�
�at� the� beginning� of� the� system� development� process.�
�Manual� Fan� Control� Overview�
�In� unusual� circumstances,� it� can� be� necessary� to� manually�
�control� the� speed� of� the� fans.� Because� the� ADT7490� has� an�
�SMBus� interface,� a� system� can� read� back� all� necessary�
�voltage,� fan� speed,� and� temperature� information,� and� use�
�this� information� to� control� the� speed� of� the� fans� by� writing�
�to� the� current� PWM� duty� cycle� register� (0x30,� 0x31,� and�
�0x32)� of� the� appropriate� fan.� Bits� [7:5]� of� the� PWMx�
�configuration� registers� (0x5C,� 0x5D,� and� 0x5E)� are� used� to�
�set� fans� up� for� manual� control.�
�THERM� Operation� in� Manual� Mode�
�In� manual� mode,� if� the� temperature� increases� above� the�
�programmed� THERM� temperature� limit,� the� fans�
�Automatic� fan� speed� control� reduces� acoustic� noise� by�
�optimizing� fan� speed� according� to� accurately� measured�
�temperature.� Reducing� fan� speed� can� also� decrease� system�
�current� consumption.� The� automatic� fan� speed� control� mode�
�is� very� flexible� due� to� the� number� of� programmable�
�parameters,� including� T� MIN� and� T� RANGE� .� The� T� MIN� and�
�T� RANGE� values� for� a� temperature� channel� and,� therefore,� for�
�a� given� fan� are� critical,� because� they� define� the� thermal�
�characteristics� of� the� system.� The� thermal� validation� of� the�
�system� is� one� of� the� most� important� steps� in� the� design�
�process,� so� these� values� should� be� selected� carefully.�
�Figure� 48� gives� a� top-level� overview� of� the� automatic� fan�
�control� circuitry� on� the� ADT7490.� From� a� systems-level�
�perspective,� up� to� three� system� temperatures� can� be�
�monitored� and� used� to� control� three� PWM� outputs.� The� three�
�PWM� outputs� can� be� used� to� control� up� to� four� fans.� The�
�ADT7490� allows� the� speed� of� four� fans� to� be� monitored.�
�Each� temperature� channel� has� a� thermal� calibration� block,�
�allowing� the� designer� to� individually� configure� the� thermal�
�characteristics� of� each� temperature� channel.� For� example,�
�users� can� decide� to� run� the� CPU� fan� when� CPU� temperature�
�increases� above� 60� ?� C� and� a� chassis� fan� when� the� local�
�temperature� increases� above� 45� ?� C.�
�At� this� stage,� the� designer� has� not� assigned� these� thermal�
�calibration� settings� to� a� particular� fan� drive� (PWM)� channel.�
�The� right� side� of� Figure� 48� shows� controls� that� are�
�fan-specific.� The� designer� has� individual� control� over�
�parameters� such� as� minimum� PWM� duty� cycle,� fan� speed�
�failure� thresholds,� and� even� ramp� control� of� the� PWM�
�outputs.� Automatic� fan� control� ultimately� allows� graceful�
�fan� speed� changes� that� are� less� perceptible� to� the� system� user.�
�http://onsemi.com�
�33�
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