参数资料
| 型号: | ADM1026EBZEVB |
| 厂商: | ON Semiconductor |
| 文件页数: | 20/55页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL FOR ADM1026 |
| 标准包装: | 1 |
| 类型: | 温度传感器 |
| 适用于相关产品: | ADM1026 |
| 所含物品: | 评估板 |
| 其它名称: | EVAL-ADM1026EB EVAL-ADM1026EB-ND |
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��
�
�ADM1026�
�The� results� of� external� temperature� measurements� are�
�stored� in� 8-bit,� twos� complement� format,� as� illustrated� in�
�Table� 8.�
�thermocouple� voltages� are� about� 3� m� V/� ?� C� of� temperature�
�difference.� Unless� there� are� two� thermocouples� with� a�
�big� temperature� differential� between� them,� thermocouple�
�Table� 8.� TEMPERATURE� DATA� FORMAT�
�Temperature� Digital� Output�
�?� 128� ?� C� 1000� 0000�
�?� 125� ?� C� 1000� 0011�
�Hex�
�80�
�83�
�?�
�?�
�voltages� should� be� much� less� than� 200� mV.�
�Place� a� 0.1� m� F� bypass� capacitor� close� to� the� ADM1026.�
�If� the� distance� to� the� remote� sensor� is� more� than� eight�
�inches,� the� use� of� twisted-pair� cable� is� recommended.�
�This� works� from� about� 6� to� 12� feet.�
�?� 100� ?� C�
�?� 75� ?� C�
�1001� 1100�
�1011� 0101�
�9C�
�B5�
�?�
�For� very� long� distances� (up� to� 100� feet),� use� shielded�
�twisted� pair� such� as� Belden� #8451� microphone� cable.�
�?� 50� ?� C�
�?� 25� ?� C�
�?� 10� ?� C�
�0� ?� C�
�10� ?� C�
�25� ?� C�
�50� ?� C�
�75� ?� C�
�100� ?� C�
�125� ?� C�
�127� ?� C�
�1100� 1110�
�1110� 0111�
�1111� 0110�
�0000� 0000�
�0000� 1010�
�0001� 1001�
�0011� 0010�
�0100� 1011�
�0110� 0100�
�0111� 1101�
�0111� 1111�
�CE�
�E7�
�F6�
�00�
�0A�
�19�
�32�
�4B�
�64�
�7D�
�7F�
�Connect� the� twisted� pair� to� D+� and� D� ?� and� the� shield� to�
�GND� close� to� the� ADM1026.� Leave� the� remote� end� of�
�the� shield� unconnected� to� avoid� ground� loops.�
�Because� the� measurement� technique� uses� switched�
�current� sources,� excessive� cable� and/or� filter� capacitance�
�can� affect� the� measurement.� When� using� long� cables,� the�
�filter� capacitor� may� be� reduced� or� removed.� Cable� resistance�
�can� also� introduce� errors.� A� 1� W� series� resistance� introduces�
�about� 0.5� ?� C� error.�
�Limit� Values�
�Limit� values� for� analog� measurements� are� stored� in� the�
�appropriate� limit� registers.� In� the� case� of� voltage�
�Layout� Considerations�
�Digital� boards� can� be� electrically� noisy� environments.�
�Take� these� precautions� to� protect� the� analog� inputs� from�
�noise,� particularly� when� measuring� the� very� small� voltages�
�from� a� remote� diode� sensor.�
�?� Place� the� ADM1026� as� close� as� possible� to� the� remote�
�sensing� diode.� Provided� that� the� worst� noise� sources�
�such� as� clock� generators,� data/address� buses,� and� CRTs�
�are� avoided,� this� distance� can� be� 4� to� 8� inches.�
�?� Route� the� D+� and� D� ?� tracks� close� together,� in� parallel,�
�with� grounded� guard� tracks� on� each� side.� Provide� a�
�ground� plane� under� the� tracks� if� possible.�
�?� Use� wide� tracks� to� minimize� inductance� and� reduce� noise�
�pickup.� A� 10� mil� track� minimum� width� and� spacing� is�
�recommended.�
�measurements,� high� and� low� limits� can� be� stored� so� that� an�
�interrupt� request� is� generated� if� the� measured� value� goes�
�above� or� below� acceptable� values.� In� the� case� of�
�temperature,� a� hot� temperature� or� high� limit� can� be�
�programmed,� and� a� hot� temperature� hysteresis� or� low� limit�
�can� be� programmed,� which� is� usually� some� degrees� lower.�
�This� can� be� useful� because� it� allows� the� system� to� be� shut�
�down� when� the� hot� limit� is� exceeded,� and� restarted�
�automatically� when� it� has� cooled� down� to� a� safe�
�temperature.�
�Analog� Monitoring� Cycle� Time�
�The� analog� monitoring� cycle� begins� when� a� 1� is� written� to�
�the� start� bit� (Bit� 0),� and� a� 0� to� the� INT_Clear� bit� (Bit� 2)� of� the�
�configuration� register.� INT_Enable� (Bit� 1)� should� be� set� to�
�1� to� enable� the� INT� output.� The� ADC� measures� each� analog�
�input� in� turn,� starting� with� Remote� Temperature� Channel� 1�
�GND�
�D+�
�D–�
�10MIL�
�10MIL�
�10MIL�
�10MIL�
�10MIL�
�and� ending� with� local� temperature.� As� each� measurement� is�
�completed,� the� result� is� automatically� stored� in� the�
�appropriate� value� register.� This� round-robin� monitoring�
�cycle� continues� until� it� is� disabled� by� writing� a� 0� to� Bit� 0� of�
�the� configuration� register.� Because� the� ADC� is� typically� left�
�to� free-run� in� this� way,� the� most� recently� measured� value� of�
�10MIL�
�GND� 10MIL�
�Figure� 34.� Arrangement� of� Signal� Tracks�
�?� Try� to� minimize� the� number� of� copper/solder� joints,�
�which� can� cause� thermocouple� effects.� Where� copper/�
�solder� joints� are� used,� make� sure� that� they� are� in� both�
�the� D+� and� D� ?� paths� and� are� at� the� same� temperature.�
�?� Thermocouple� effects� should� not� be� a� major� problem�
�because� 1� ?� C� corresponds� to� about� 240� m� V,� and�
�any� input� can� be� read� out� at� any� time.�
�For� applications� where� the� monitoring� cycle� time� is�
�important,� it� can� easily� be� calculated.�
�The� total� number� of� channels� measured� is:�
�?� Five� Dedicated� Supply� Voltage� Inputs�
�?� Ten� General-purpose� Analog� Inputs�
�?� 3.3� V� MAIN�
�?� 3.3� V� STBY�
�?� Local� Temperature�
�?� Two� Remote� Temperature�
�http://onsemi.com�
�20�
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