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| 型号: | TMPSNSRD-RTD2 |
| 厂商: | Microchip Technology |
| 文件页数: | 12/30页 |
| 文件大小: | 0K |
| 描述: | BOARD RTD REFERENCE DESIGN |
| 产品培训模块: | MCP3901 Analog Front End |
| 标准包装: | 1 |
| 传感器类型: | 温度 |
| 接口: | USB |
| 嵌入式: | 否 |
| 已供物品: | 板 |
| 已用 IC / 零件: | MCP3551,MCP9804 |
| 产品目录页面: | 672 (CN2011-ZH PDF) |
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�Thermistor� and� RTD� Solutions�
�Thermistor� Solutions�
�Typically,� thermistors� require� an� external� resistor� for� biasing.�
�In� addition,� the� inherent� non-linearity� of� a� thermistor� is�
�improved� by� biasing� the� thermistor� in� a� resistive� ladder�
�circuit� to� linearize� the� temperature-to-voltage� conversion.�
�Typically,� the� thermistor� voltage� is� directly� connected� to� an�
�ADC� to� digitize� the� voltage� measurement.� The� measured�
�voltage� is� converted� to� temperature� using� a� lookup� table.�
�However,� at� hot� and� cold� temperature� extremes� the� non-�
�linearity� of� this� approach� is� much� greater� with� reduced�
�change� in� voltage,� which� results� in� lower� accuracy.� This�
�requires� higher� resolution� and� a� more� costly� ADC.�
�The� solution� is� to� use� Microchip’s� Linear� Active� Thermistors,�
�the� MCP9700� and� MCP9701� .� These� are� low-cost� voltage�
�output� temperature� sensors� that� replace� almost� any�
�Thermistor� application� solutions.� Unlike� resistive� type�
�sensors� such� as� Thermistors,� the� signal� conditioning�
�and� noise� immunity� circuit� development� overhead� can� be�
�avoided� by� using� the� low-cost� Linear� Active� Thermistors.�
�RTD� Solution�
�Resistive� Temperature� Detectors� (RTDs)� are� highly� accurate�
�and� repeatable� temperature� sensing� elements.� When�
�using� these� sensors� a� robust� instrumentation� circuit� is�
�required� and� it� is� typically� used� in� high� performance� thermal�
�management� applications� such� as� medical� instrumentation.�
�This� solution� uses� a� high� performance� Delta-Sigma� Analog-�
�to-Digital� converter,� and� two� resistors� to� measure� RTD�
�resistance� ratiometrically.� A� ±0.1°C� accuracy� and� ±0.01°C�
�measurement� resolution� can� be� achieved� across� the� RTD�
�temperature� range� of� -200°C� to� +800°C� with� a� single� point�
�calibration.�
�This� solution� uses� a� common� reference� voltage� to� bias�
�the� RTD� and� the� ADC� which� provides� a� ratio-metric� relation�
�between� the� ADC� resolution� and� the� RTD� temperature�
�resolution.� Only� one� biasing� resistor,� RA,� is� needed� to� set� the�
�measurement� resolution� ratio� (shown� in� equation� below).�
�RTD� Resistance�
�These� sensors� output� voltage� is� proportional� to� ambient�
�temperature� with� temperature� coef?cient� of� 10� mV/°C� and�
�19.5� mV/°C.� Unlike� thermistors,� these� devices� do� not� require�
�RRTD� =� RA�
�(� 2� n� –� Code� –� 1� Code� )�
�additional� computation� for� temperature� measurement.�
�The� factory� set� coef?cients� provide� linear� interface� to�
�measure� ambient� temperatures� (refer� to� AN1001� for� sensor�
�optimization).�
�MCP9700� and� MCP9701� Key� Features�
�■� ?� SC70,� TO92� packages�
�■� ?� Operating� temperature� range:� -40°C� to� +150°C�
�■� ?� Temperature� Coef?cient:� 10� mV/°C� (� MCP9700� )�
�■� ?� Temperature� Coef?cient:� 19.5� mV/°C� (� MCP9701� )�
�■� ?� Low� power:� 6� μA� (typ.)�
�Applications�
�■� Refrigeration� equipment�
�■� Power� supply� over� temperature� protection�
�■� General� purpose� temperature� monitoring�
�Where:�
�Code� =� ADC� output� code�
�RA� =� Biasing� resistor�
�n� =� ADC� number� of� bits�
�(22� bits� with� sign,� MCP3551)�
�For� instance,� a� 2V� ADC� reference� voltage� (V� REF� )� results� in�
�a� 1?μV/LSb� (Least� Signi?cant� Bit)� resolution.� Setting� RA?=�
�RB?=?6.8� kΩ� provides� 111.6� μV/°C� temperature� coef?cient�
�(PT100� RTD� with� 0.385Ω/°C� temperature� coef?cient).� This�
�provides� 0.008°C/LSb� temperature� measurement� resolution�
�for� the� entire� range� of� 20Ω� to� 320Ω� or� -200°C� to� +800°C.� A�
�single� point� calibration� with� a� 0.1%� 100Ω� resistor� provides�
�±0.1°C� accuracy� as� shown� in� the� ?gure� below.�
�This� approach� provides� a� plug-and-play� solution� with�
�minimum� adjustment.� However,� the� system� accuracy�
�depends� on� several� factors� such� as� the� RTD� type,� biasing�
�circuit� tolerance� and� stability,� error� due� to� power� dissipation�
�or� self-heat,� and� RTD� non-linear� characteristics.�
�RTD� Instrumentation� Circuit� Block� Diagram� and� Output� Performance� (see� Application� Note� AN1154)�
�V� DD�
�LDO�
�V� LDO�
�0.1�
�C*�
�C*�
�1� μF�
�V� DD�
�V� REF�
�+�
�V� REF�
�R� B� 5%�
�R� A� 1%�
�0.05�
�0�
�-0.05�
�PIC� ?�
�MCU�
�3�
�SPI�
�MCP3551�
�–�
�RTD�
�-0.1�
�-200�
�0�
�200�
�400�
�600�
�800�
�Temperature� (°C)�
�*See� LDO� Data� Sheet� at:� www.microchip.com/LDO�
�12�
�Signal� Chain� Design� Guide�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| TMPSNSRD-TCPL1 | 功能描述:温度传感器开发工具 Thermocouple Ref Design Board RoHS:否 制造商:Texas Instruments 产品类型:Temperature Sensors and Control ICs 工具用于评估:MSP430G2553 接口类型:USB 工作电源电压: 工作电源电流: |
| TMPSNS-RTD1 | 功能描述:开发板和工具包 - PIC / DSPIC RTD Temp Sensor Demo Brd RoHS:否 制造商:Microchip Technology 产品:Starter Kits 工具用于评估:chipKIT 核心:Uno32 接口类型: 工作电源电压: |
| TMPT2369ALT | 制造商:ALL 功能描述:ALLEGRO NXC7D |
| TMPT2SU1 | 制造商:Red Lion Controls 功能描述:THERMOCOUPLE TEMP PROBE, TYPE T, 400?F 制造商:Red Lion Controls 功能描述:TYPE T 400DEG F |
| TMPT3906LT | 制造商:ALL 功能描述:ALLEGRO S9K3A |
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