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| 型号: | ADM1031ARQ-REEL |
| 厂商: | ON Semiconductor |
| 文件页数: | 22/32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�
�display� the� correct� fan� speed,� and� also� to� program� the� correct�
�count� value� in� RPM� feedback� mode.�
�into� the� ADM1031� through� the� 0.01� m� F� capacitor.� On-chip�
�signal� conditioning� allows� accurate� monitoring� of� fan� speed.�
�Fan� Speed� Measurement� Equations�
�For� a� 4-pole� fan� (2� tach� pulses/rev):�
�Fan� RPM� +� (f� 60)� Count� N�
�For� a� 6-pole� fan� (3� tach� pulses/rev):�
�(eq.� 14)�
�For� typical� notebook� fans� drawing� approximately� 170� mA,�
�a� 2� W� R� SENSE� value� is� suitable.� For� fans� such� as� desktop� or�
�server� fans� that� draw� more� current,� R� SENSE� can� be� reduced.�
�The� smaller� R� SENSE� is,� the� better,� since� more� voltage� is�
�developed� across� the� fan,� and� the� fan� then� spins� faster.�
�Fan� RPM� +� (f�
�60)� (Count�
�N�
�1.5)�
�(eq.� 15)�
�+V�
�For� an� 8-pole� fan� (4� tach� pulses/rev):�
�Fan� RPM� +� (f� 60)� (Count� N�
�2)�
�(eq.� 16)�
�3.3� V�
�5� V� OR� 12� V�
�FAN�
�If� in� doubt� as� to� the� number� of� poles� the� fans� used� have,�
�or� the� number� of� tach� output� pulses/rev,� consult� the� fan�
�manufacturer� ’s� data� sheet,� or� contact� the� fan� vendor� for�
�more� information.�
�Fan� Drive� Using� PWM� Control�
�The� external� circuitry� required� to� drive� a� fan� using� PWM�
�control� is� extremely� simple.� A� single� NMOS� FET� is� the� only�
�PWM_OUT�
�ADM1031�
�TACH/AIN�
�10� k� W�
�TYPICAL�
�TACH�
�0.01� m� F�
�Q1�
�NDT3055L�
�R� SENSE�
�2� W� TYPICAL�
�drive� transistor� required.� The� specifications� of� the� MOSFET�
�depend� on� the� maximum� current� required� by� the� fan� being�
�driven.� Typical� notebook� fans� draw� a� nominal� 170� mA,� and�
�so� SOT� devices� can� be� used� where� board� space� is� a�
�constraint.� If� driving� several� fans� in� parallel� from� a� single�
�PWM� output,� or� driving� larger� server� fans,� the� MOSFET�
�needs� to� handle� the� higher� current� requirements.� The� only�
�other� stipulation� is� that� the� MOSFET� should� have� a� gate�
�voltage� drive,� V� GS� <� 3.3� V,� for� direct� interfacing� to� the�
�PWM_OUT� pin.� The� MOSFET� should� also� have� a� low�
�Figure� 35.� Interfacing� the� ADM1031� to� a� 2-wire� Fan�
�Figure� 36� shows� a� typical� plot� of� the� sensing� waveform� at�
�the� TACH/AIN� pin.� The� most� important� thing� is� that� the�
�negative-going� spikes� are� more� than� 250� mV� in� amplitude.�
�This� is� the� case� for� most� fans� when� R� SENSE� =� 2� W� .� The� value�
�of� R� SENSE� can� be� reduced� as� long� as� the� voltage� spikes� at� the�
�TACH/AIN� pin� are� greater� than� 250� mV.� This� allows� fan�
�speed� to� be� reliably� determined.�
�on-resistance� to� ensure� that� there� is� not� significant� voltage�
�drop� across� the� FET.� This� would� reduce� the� maximum�
�operating� speed� of� the� fan.�
�Tek� PreVu�
�T�
�T�
�D:� 250m�
�@:� –258�
�Figure� 34� shows� how� a� 3-wire� fan� can� be� driven� using�
�PWM� control.�
�TACH/AIN�
�3.3� V�
�10� k� W�
�TYPICAL�
�3.3� V�
�TACH�
�+V�
�5� V� OR� 12� V�
�FAN�
�1�
�ADM1031�
�PWM_OUT�
�10� k� W�
�TYPICAL�
�Q1�
�NDT3055L�
�4�
�CH1� 100mV�
�CH3� 50.0mV�
�CH2� 5.00mV�
�CH4� 50.0mV�
�M� 4.00ms�
�A� CH1�
�–2.00mV�
�Figure� 36.� Fan� Speed� Sensing� Waveform� at�
�Figure� 34.� Interfacing� the� ADM1031� to� a� 3-wire� Fan�
�The� NDT3055L� n-type� MOSFET� was� chosen� since� it� has�
�3.3� V� gate� drive,� low� on-resistance,� and� can� handle� 3.5� A� of�
�current.� Other� MOSFETs� can� be� substituted� based� on� the�
�system’s� fan� drive� requirements.�
�Figure� 35� shows� how� a� 2-wire� fan� can� be� connected� to� the�
�ADM1031.� This� circuit� allows� the� speed� of� the� 2-wire� fan� to�
�be� measured� even� though� the� fan� has� no� dedicated� Tach�
�signal.� A� series� R� SENSE� resistor� in� the� fan� circuit� converts�
�the� fan� commutation� pulses� into� a� voltage.� This� is� accoupled�
�TACH/AIN� Pin�
�Fan� Speed� Measurement�
�The� fan� counter� does� not� count� the� fan� tach� output� pulses�
�directly,� because� the� fan� speed� can� be� less� than� 1000� RPM�
�and� it� would� take� several� seconds� to� accumulate� a�
�reasonably� large� and� accurate� count.� Instead,� the� period� of�
�the� fan� revolution� is� measured� by� gating� an� on-chip�
�11.25� kHz� oscillator� into� the� input� of� an� 8-bit� counter.� The�
�fan� speed� measuring� circuit� is� initialized� on� the� rising� edge�
�http://onsemi.com�
�22�
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