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| 型号: | ADT7490ARQZ |
| 厂商: | ON Semiconductor |
| 文件页数: | 20/75页 |
| 文件大小: | 0K |
| 描述: | IC MON/FAN CTRLR REMOTE 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: | 56 |
| 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: | 管件 |
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�
�ADT7490�
�switched� between� I� and� N1� ?� I,� giving� D� V� BE1� ,� and� then�
�between� I� and� N2� ?� I,� giving� D� V� BE2� .� The� temperature� can�
�then� be� calculated� using� the� two� D� V� BE� measurements.� This�
�method� can� also� cancel� the� effect� of� any� series� resistance� on�
�the� temperature� measurement.�
�The� resulting� D� V� BE� waveforms� are� passed� through� a�
�65� kHz� low-pass� filter� to� remove� noise� and� then� to� a�
�chopper-stabilized� amplifier.� This� amplifies� and� rectifies� the�
�waveform� to� produce� a� dc� voltage� proportional� to� D� V� BE� .�
�The� ADC� digitizes� this� voltage,� and� a� temperature�
�measurement� is� produced.� To� reduce� the� effects� of� noise,�
�digital� filtering� is� performed� by� averaging� the� results� of� 16�
�measurement� cycles.�
�The� results� of� remote� temperature� measurements� are�
�stored� in� 10-bit,� twos� complement� format,� as� listed� in�
�Table� 17.� The� extra� resolution� for� the� temperature�
�measurements� is� held� in� the� Extended� Resolution� Register� 2�
�(0x77).� This� gives� temperature� readings� with� a� resolution� of�
�0.25� ?� C.�
�I�
�N2� ?� I�
�N1� ?� I�
�I� BIAS�
�V� CC�
�D+�
�V� OUT+�
�REMOTE�
�SENSING�
�TRANSISTOR�
�D� ?�
�LOW-PASS� FILTER�
�f� C� =� 65� kHz�
�Figure� 27.� Signal� Conditioning� for� Remote� Diode� Temperature� Sensors�
�To� ADC�
�V� OUT� ?�
�Series� Resistance� Cancellation�
�Parasitic� resistance� to� the� ADT7490� D+� and� D� ?� inputs�
�(seen� in� series� with� the� remote� diode)� is� caused� by� a� variety�
�of� factors,� including� PCB� track� resistance� and� track� length.�
�This� series� resistance� appears� as� a� temperature� offset� in� the�
�remote� sensor� ’s� temperature� measurement.� This� error�
�typically� causes� a� 0.5� ?� C� offset� per� ohm� of� parasitic�
�resistance� in� series� with� the� remote� diode.�
�The� ADT7490� automatically� cancels� out� the� effect� of� this�
�series� resistance� on� the� temperature� reading,� giving� a� more�
�the� remote� sensor� is� automatically� canceled� from� the�
�temperature� result.�
�The� construction� of� a� filter� allows� the� ADT7490� and� the�
�remote� temperature� sensor� to� operate� in� noisy� environments.�
�Figure� 28� shows� a� low-pass� RC� filter� with� the� following�
�values:�
�R� +� 100� W� ,� C� +� 1� nF� (eq.� 3)�
�This� filtering� reduces� both� common-mode� noise� and�
�differential� noise.�
�accurate� result� without� the� need� for� user� characterization� of�
�this� resistance.� The� ADT7490� is� designed� to� automatically�
�cancel,� typically� up� to� 1.5� k� W� of� resistance.� By� using� an�
�advanced� temperature� measurement� method,� this� is�
�transparent� to� the� user.� This� feature� allows� resistances� to� be�
�REMOTE�
�TEMPERATURE�
�SENSOR�
�100� W�
�100� W�
�1� nF�
�D+�
�D� ?�
�added� to� the� sensor� path� to� produce� a� filter,� allowing� the� part�
�to� be� used� in� noisy� environments.�
�Noise� Filtering�
�For� temperature� sensors� operating� in� noisy� environments,�
�previous� practice� was� to� place� a� capacitor� across� the� D+� pin�
�and� the� D� ?� pin� to� help� combat� the� effects� of� noise.� However,�
�large� capacitance� affect� the� accuracy� of� the� temperature�
�measurement,� leading� to� a� recommended� maximum�
�capacitor� value� of� 1,000� pF.� This� capacitor� reduces� the�
�noise,� but� does� not� eliminate� it,� which� makes� using� the�
�sensor� difficult� in� a� very� noisy� environment.�
�The� ADT7490� has� a� major� advantage� over� other� devices�
�for� eliminating� the� effects� of� noise� on� the� external� sensor.�
�Using� the� series� resistance� cancellation� feature,� a� filter� can�
�be� constructed� between� the� external� temperature� sensor� and�
�the� part.� The� effect� of� any� filter� resistance� seen� in� series� with�
�Figure� 28.� Filter� between� Remote� Sensor� and� ADT7490�
�Factors� Affecting� Diode� Accuracy�
�Remote� Sensing� Diode�
�The� ADT7490� is� designed� to� work� with� either� substrate�
�transistors� built� into� processors� or� discrete� transistors.�
�Substrate� transistors� are� generally� PNP� types� with� the�
�collector� connected� to� the� substrate.� Discrete� types� can� be�
�either� PNP� or� NPN� transistors� connected� as� a� diode�
�(base-shorted� to� the� collector).� To� reduce� the� error� due� to�
�variations� in� both� substrate� and� discrete� transistors,� a�
�number� of� factors� should� be� taken� into� consideration:�
�?� The� ideality� factor,� n� f� ,� of� the� transistor� is� a� measure� of�
�the� deviation� of� the� thermal� diode� from� ideal� behavior.�
�The� ADT7490� is� trimmed� for� an� n� f� value� of� 1.008.� Use�
�http://onsemi.com�
�20�
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