1、ProductSpecificationTPS434G93122r00Product Picture:Product Name:Device Type:Part Number:TPS434-G9Thermopile Sensor 96383122Rev. No.DatePagesRevision RecordDrawnChecked0013DEC200110Initial ReleaseMSDrawnMischa SchulzeDate13DEC2001CheckedDateApprovedDateReleasedDateCustomer:Reference No.:First Used:Re
2、leasedDateTABLE OF CONTENTS1 SCOPE 32 GENERAL CHARACTERISTICS 32.1 ABSOLUTE MAXIMUM RATINGS 32.2 ELECTRICAL PARAMETER 32.2.1 Thermopile 32.2.2 Temperature Reference 42.3 HANDLING REQUIREMENTS 43 TYPE CHARACTERISTICS 43.1 DESIGN CHARACTERISTICS 43.2 ELECTRICAL CHARACTERISTICS 53.2.1 Thermopile 53.2.2
3、 Thermistor 53.3 OPTICAL CHARACTERISTICS 63.3.1 Parameter 63.3.2 Sample Curve 63.4 FILTER CHARACTERISTICS 73.4.1 Parameters 73.4.2 Sample Curve 73.5 MECHANICAL DRAWING 84 QUALITY 94.1 QUALITY SYSTEM 94.2 LOT ACCEPTANCE TEST 94.2.1 Test Conditions 94.2.2 Test Parameter 94.2.3 Test Level at the End Te
4、st 94.2.4 Test Level at the Quality Test 104.3 REFERENCED DOCUMENTS 104.4 LIABILITY POLICY 101 SCOPEThe HEIMANN thermopile sensor consists of a series of thermoelements, forming a sensitive area covered by an IR-absorbing material. The sensor is hermetically sealed into a metal housing. The size of
5、the housing is similar to a TO-package with a window opening. The window is equipped with an IR-transmissible filter. An additional temperature reference sensor can be installed in the sensor housing. The thermopile sensor exhibits an almost white noise, comparable to an ohmic resistance. The thermo
6、pile output signal is direct proportional to incident radiation power largely independent from the wavelength. The frequency behaviour corresponds to a low pass characteristic.2 GENERAL CHARACTERISTICS2.1 ABSOLUTE MAXIMUM RATINGSParameterSymbLimitsUnitsConditionsMinTypMaxAmbient Temperature Range-40
7、100COperation / Storage2.2 ELECTRICAL PARAMETER2.2.1 ThermopileParameterSymbLimitsUnitsConditionsMinTypMaxSensistive Area0.5*0.5mm2AbsorberResistanceRTP153555kResponsivitySV55V/W-,500K,1Hz 1)Time Constant 2)20msNoise VoltageVRMS21nV/HzR.M.S.,25CNoise Equivalent PowerNEP0.38nW/Hz-,500K,1Hz 1)Detectiv
8、ityD*1.3*108cmHz/W-,500K,1Hz 1)TC of Resistance00.020.05%/KTemperature CoefficientTC of Responsivity-0.010.020.05%/KNote 1: The values are defined without filter.Note 2: The time constant can be measured as response to an object temperature jump (low to high or high to low) based on the following eq
9、uations : Low to High : High to Low : 2.2.2 Temperature ReferenceTypThermistor 30kParameterSymbolLimitsUnitsConditionsMinTypMaxResistanceRTH28.53030.9kAt 25CBETA-Value394439643984KDefined at 25C/100C2.3 HANDLING REQUIREMENTSStresses above the absolute maximum ratings may cause damages to the device.
10、The sensor can be damaged by electrostatic discharges. Please take appropriate precautions for the handling. The thermopile sensors can be damaged by electrostatic discharges. Please take appropriate precautions for the handling.Do not expose the sensor to aggressive detergents such as freon, trichl
11、orethylen, etc. Windows may be cleaned with alcohol and cotton swab. Hand soldering and wave soldering may be applied by a maximum temperature of 300C for a dwell time less than 10s. Avoid heat exposure to the top and the window of the detector. Reflow soldering is not recommended.3 TYPE CHARACTERIS
12、TICS3.1 DESIGN CHARACTERISTICSParameterDescriptionMaterialCaseTO5CapRound opening 2.5mmAlloy NickelHeaderTO39Steel with gold plating over Ni coatingLeads(3 isolated +1 ground) pinsAlloy with gold plating over Ni coatingFilterG9 coatingSilicon base with diff. coatingsTemperature ReferenceThermistor 3
13、0kCeramic with gold terminationsCase FillingThe sensor is hermetically sealed to withstand a gross leaktest according to MIL Std.883 method 1014c1.Dry nitrogenDevice MarkingOn Top SideManufacturer symbol + last 4 digits of the product number +3 digits date code yww3.2 ELECTRICAL CHARACTERISTICS3.2.1
14、 ThermopileParameterSymbLimitsUnitsConditionsMinTypMaxResistanceRTP153555k25CSensitivitySV102030V/WG9 filter,500K,1Hz, 25CTime Constant2070ms25CNoise VoltageVRMS30nVRMS/Hz3.2.2 ThermistorTRmin1Rmin2RnomRmax2Rmax1C-40844572889932907200924468951684-35618414651564663000674436694326-30457513481993489600
15、497207511895-25341771360026365100370174381127-20257478271207274590277973286211-15195682206099208350210601216851-10149931157900159390160880165661-51157881219341229101238861275730900869486195490961199898457059874335747307512577367105570858653588905912760894154424346578467104684248243203539337259373203
16、738138501252850030000300003000030900302299724210242492428825016351867719663197161976920360401525316059161191617916662451252913191132541331713714501034010888109501101211341558575903090909150942360714575247581763878666559836300635464086598705032529953495399555975425244784524457047068036063798384038823
17、99785307132353273331134109026242764279928342918952253237324052437250910019402044207321022164Rmin1 : Minimum Thermistor Resistance resulting from the Total ToleranceRmin2 : Minimum Thermistor Resistance resulting from the BETA-ToleranceRnom : Typical Thermistor ResistanceRmax1: Maximum Thermistor Res
18、istance resulting from the Total ToleranceRmax2: Maximum Thermistor Resistance resulting from the BETA-Tolerance3.3 OPTICAL CHARACTERISTICS3.3.1 ParameterTPS4x4ParameterLimitsUnitsConditionsMinTypMaxField of View6070degreeAt 50% target signalOptical Axis010degree3.3.2 Sample Curve3.4 FILTER CHARACTE
19、RISTICS3.4.1 ParametersFilter G9ParameterLimitsUnitsConditionsMinTypMaxAverage Transmittance75%Wavelength Range from 9m to 13m Average Transmittance1%Wavelength Range from Visual to Passband Average Transmittance1%Wavelength Range from Passband to 20mHalf Power Bandwidth8.2 to 13.58 to 147.8 to 14.5
20、mAt 25C3.4.2 Sample Curve3.5 MECHANICAL DRAWING4 QUALITY4.1 QUALITY SYSTEMHEIMANN is an ISO 9001 certified manufacturer. All materials are checked according to specifications and final goods meet the specified tests.4.2 LOT ACCEPTANCE TEST4.2.1 Test ConditionsObject emission 98%Typical object temper
21、ature226.8C / 500KTypical ambient temperature25C 4.2.2 Test ParameterParameterSymbolLimitsUnitsConditionsMinTypMaxResistance TPSRTP153555kRT (room temperature)ResponsivitySV102030V/WG9 filter,500K,1Hz,RTResistance THRTH203040kRTParasitic resistance RTP-TH0.5GTested between thermopile and thermistor4
22、.2.3 Test Level at the End TestLot conformance to specification of products delivered in volume production is checked by means of following tests (manufacturing) : TestConditionsLevelThermopile resistance Acc. to the test parameters, tolerance check 100%Thermopile ResponsivityAcc. to the test parame
23、ters, tolerance check 100%Thermistor resistance Acc. to the test parameters, functional check 100%Parasitic resistanceAcc. to the test parameters, functional check100%4.2.4 Test Level at the Quality TestLot conformance to specification of products delivered in volume production is checked by means o
24、f following tests (quality) : TestConditionsLevelThermopile resistance Acc. to the test parameters, tolerance check AQL0.1Thermistor resistance Acc. to the test parameters, functional check AQL0.1Thermopile responsivity Acc. to the test parameters, tolerance check AQL0.1Parasitic resistanceAcc. to t
25、he test parameters, functional checkAQL0.44.3 REFERENCED DOCUMENTSThe referenced documents form a part of this drawing. The revision level of these referenced documents unless defined shall be that which is in effect on the date of the purchase order.4.4 LIABILITY POLICYChanges or modifications at t
26、he product which havnt influence to the performance and/or quality of the device havnt to be announced to said customer in advance or approved by said customer. Customers are advised to consult with PerkinElmer Optoelectronics sales representatives before ordering. Customers considering the use of P
27、erkinElmer Optoelectronics thermopile devices in special applications where failure or abnormal operation may directly affect human lives or cause physical injury or property damage, or where extremely high levels of reliability are demanded, are requested to consult with PerkinElmer Optoelectronics
28、 sales representatives before such use. The company will not be responsible for damage arising from such use without prior approval.As any semiconductor device, thermopile sensors or modules have inherently a certain rate of failure. It is therefore necessary to protect against injury, damage or loss from such failures by incorporating safety de
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