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| 型号: | MAX6639ATE+T |
| 厂商: | Maxim Integrated |
| 文件页数: | 19/22页 |
| 文件大小: | 0K |
| 描述: | IC TEMP MONITOR 2CH 16-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 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 ~ 150°C,外部传感器 |
| 精确度: | ±2°C 本地(最大),±1°C 远程(最大) |
| 拓扑: | ADC,PWM 发生器,转速计计数器 |
| 输出类型: | I²C?/SMBus? |
| 输出警报: | 是 |
| 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: | 16-WQFN 裸露焊盘 |
| 供应商设备封装: | 16-TQFN-EP(5x5) |
| 包装: | 带卷 (TR) |
��
�
�MAX6639/MAX6639F�
�2-Channel� Temperature� Monitor� with� Dual,�
�Automatic,� PWM� Fan-Speed� Controller�
�μ� V�
�°� C�
�=� 0� .� 453�
�μ� V� Ω�
�Effect of Series Resistance�
�Series� resistance� in� a� sense� diode� contributes� addition-�
�al� errors.� For� nominal� diode� currents� of� 10μA� and�
�100μA,� change� in� the� measured� voltage� is:�
�Δ� V� M� =� R� S� (100μA� -� 10μA)� =� 90μA� x� R� S�
�Since� 1°C� corresponds� to� 198.6μV,� series� resistance�
�contributes� a� temperature� offset� of:�
�90�
�Ω�
�198� .� 6�
�°� C�
�Assume� that� the� diode� being� measured� has� a� series�
�resistance� of� 3� Ω� .� The� series� resistance� contributes� an�
�offset� of:�
�ADC� Noise� Filtering�
�The� integrating� ADC� has� inherently� good� noise� rejec-�
�tion,� especially� of� low-frequency� signals� such� as�
�60Hz/120Hz� power-supply� hum.� Micropower� operation�
�places� constraints� on� high-frequency� noise� rejection.�
�Lay� out� the� PCB� carefully� with� proper� external� noise� fil-�
�tering� for� high-accuracy� remote� measurements� in� elec-�
�trically� noisy� environments.�
�Filter� high-frequency� electromagnetic� interference�
�(EMI)� at� DXP� and� DXN� with� an� external� 2200pF� capaci-�
�tor� connected� between� the� two� inputs.� This� capacitor�
�can� be� increased� to� approximately� 3300pF� (max),�
�including� cable� capacitance.� A� capacitance� higher�
�than� 3300pF� introduces� errors� due� to� the� rise� time� of�
�the� switched-current� source.�
�Twisted� Pairs� and� Shielded� Cables�
�3� Ω� ×� 0� .� 453�
�°� C�
�Ω�
�=� 1� .� 36� °� C�
�For� remote-sensor� distances� longer� than� 8in,� or� in� par-�
�ticularly� noisy� environments,� a� twisted� pair� is� recom-�
�mended.� Its� practical� length� is� 6ft� to� 12ft� (typ)� before�
�The� effects� of� the� ideality� factor� and� series� resistance�
�are� additive.� If� the� diode� has� an� ideality� factor� of� 1.002�
�and� series� resistance� of� 3� Ω� ,� the� total� offset� can� be� cal-�
�culated� by� adding� error� due� to� series� resistance� with�
�error� due� to� ideality� factor:�
�1.36°C� -� 2.13°C� =� -0.77°C�
�for� a� diode� temperature� of� +85°C.�
�In� this� example,� the� effect� of� the� series� resistance� and�
�the� ideality� factor� partially� cancel� each� other.�
�For� best� accuracy,� the� discrete� transistor� should� be� a�
�small-signal� device� with� its� collector� connected� to� GND�
�and� base� connected� to� DXN.� Table� 12� lists� examples� of�
�discrete� transistors� that� are� appropriate� for� use� with� the�
�MAX6639.�
�The� transistor� must� be� a� small-signal� type� with� a� rela-�
�tively� high� forward� voltage;� otherwise,� the� ADC� input�
�voltage� range� can� be� violated.� The� forward� voltage� at�
�the� highest� expected� temperature� must� be� greater� than�
�0.25V� at� 10μA,� and� at� the� lowest� expected� temperature,�
�the� forward� voltage� must� be� less� than� 0.95V� at� 100μA.�
�Large-power� transistors� must� not� be� used.� Also,� ensure�
�that� the� base� resistance� is� less� than� 100� Ω� .� Tight� speci-�
�fications� for� forward� current� gain� (50� <� ?� <� 150,� for�
�example)� indicate� that� the� manufacturer� has� good�
�process� controls� and� that� the� devices� have� consistent�
�V� BE� characteristics.�
�Maxim� Integrated�
�noise� becomes� a� problem,� as� tested� in� a� noisy� elec-�
�tronics� laboratory.� For� longer� distances,� the� best� solu-�
�tion� is� a� shielded� twisted� pair� like� that� used� for� audio�
�microphones.� For� example,� Belden� #8451� works� well�
�for� distances� up� to� 100ft� in� a� noisy� environment.�
�Connect� the� twisted� pair� to� DXP� and� DXN� and� the�
�shield� to� ground,� and� leave� the� shield’s� remote� end�
�unterminated.� Excess� capacitance� at� DXN� or� DXP� limits�
�practical� remote-sensor� distances� (see� the� Typical�
�Operating� Characteristics).�
�For� very� long� cable� runs,� the� cable’s� parasitic� capaci-�
�tance� often� provides� noise� filtering,� so� the� recommend-�
�ed� 2200pF� capacitor� can� often� be� removed� or� reduced�
�in� value.� Cable� resistance� also� affects� remote-sensor�
�accuracy.� A� 1� Ω� series� resistance� introduces� about�
�+1/2°C� error.�
�PCB� Layout� Checklist�
�1)� Place� the� MAX6639� as� close� as� practical� to� the�
�remote� diode.� In� a� noisy� environment,� such� as� a�
�computer� motherboard,� this� distance� can� be� 4in� to�
�8in,� or� more,� as� long� as� the� worst� noise� sources�
�(such� as� CRTs,� clock� generators,� memory� buses,�
�and� ISA/PCI� buses)� are� avoided.�
�2)� Do� not� route� the� DXP/DXN� lines� next� to� the� deflection�
�coils� of� a� CRT.� Also,� do� not� route� the� traces� across� a�
�fast� memory� bus,� which� can� easily� introduce� +30°C�
�error,� even� with� good� filtering.� Otherwise,� most� noise�
�sources� are� fairly� benign.�
�19�
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