No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
|
|
PerkinElmer Optoelectronics |
IR Blocking Silicon Photodiode Circuit Voltage @ 100fc Peak Spectral Response Sensitivity @ peak Angular Response (50% Point) Sym Isc ID CJ VOC Min. 0.7 Typ. 280 550 0.27 ± 70 www.DataSheet4U.com λPK SR θ1/2 Max. 10 18 - Units µA nA pF mV nm A/W Degrees Table 2: Absolute Maxi |
|
|
|
PerkinElmer Optoelectronics |
High Output/ Short Arc Xenon Flashlamp with Internal Reflector • Greater than 40% more usable light intensity than FX-1150 • Ideal for use with Optical Lenses and Fiber Bundles • Low optical “noise” • Continuous spectrum UV-VIS-IR • Long life • Low heat radiation • Microsecond flash duration • High efficiency ou |
|
|
|
PerkinElmer Optoelectronics |
VTP Process Photodiodes VR = 50 V H = 0, V = 10 mV H = 0, V = 15 V 940 nm @ Peak 400 925 140 ±35 8.7 x 10-14 (Typ.) 1.5 x 10 12 (Typ.) .011 .55 1150 .5 6 10 Typ. 17 .20 350 -2.0 7 Max. µA %/°C mV mV/°C nA GΩ pF A/(W/cm2) A/W nm nm V Degrees W ⁄ Hz cm Hz / W UNITS PerkinElm |
|
|
|
PerkinElmer Optoelectronics |
VTP Process Photodiodes the largest detection area available in a clear, endlooking T-1¾ package. Combined with excellent dark current, it can fulfill the demands of many difficult applications. ABSOLUTE MAXIMUM RATINGS Storage Temperature: Operating Temperature: -40°C to |
|
|
|
PerkinElmer Optoelectronics |
Thermopile Sensor and Benefits • Miniature TO-46 housing (4.7 mm Ø) • Small and perfectly round measurement spot • Large output voltage • Large field of view of 115° • High signal to noise ratio • 5.5 µm IR longpass filter • Stable signal in the case of ambient therma |
|
|
|
PerkinElmer Optoelectronics |
High Output/ Short Arc Xenon Flashlamp with Internal Reflector • Greater than 40% more usable light intensity than FX-1150 • Ideal for use with Optical Lenses and Fiber Bundles • Low optical “noise” • Continuous spectrum UV-VIS-IR • Long life • Low heat radiation • Microsecond flash duration • High efficiency ou |
|
|
|
PerkinElmer Optoelectronics |
High Output/ Short Arc Xenon Flashlamp with Internal Reflector • Greater than 40% more usable light intensity than FX-1150 • Ideal for use with Optical Lenses and Fiber Bundles • Low optical “noise” • Continuous spectrum UV-VIS-IR • Long life • Low heat radiation • Microsecond flash duration • High efficiency ou |
|
|
|
PerkinElmer Optoelectronics |
Thermopile Detector .0 TPS 334 Relative signal output 0.8 0.6 0.4 -3 dB level TC of sensitivity TC of resistance Time constant S torage temperature 0.02 0.02 25 -40 -40 30 3964 60 100 100 %/K %/K ms °C °C kW K ° non permanent non permanent 25°C 25°C /100°C at 50% poi |
|
|
|
PerkinElmer Optoelectronics |
VTP Process Photodiodes VR = 10 V H = 0, V = 10 mV H = 0, V = 3 V 940 nm @ Peak 400 925 140 ±60 1.8 x 10-13 (Typ.) 1.5 x 10 12 (Typ.) .06 .55 1150 100 50 65 Typ. 80 .20 350 -2.0 30 Max. µA %/°C mV mV/°C nA GΩ pF A/(W/cm2) A/W nm nm V Degrees W ⁄ Hz cm Hz / W UNITS PerkinE |
|
|
|
PerkinElmer Optoelectronics |
Thermopile Sensor Module • Smart thermopile sensor with integrated signal processing • Adaptable for specific measurement tasks • Integrated, calibrated ambient temperature sensor • Output signal ambient temperature compensation • Fast reaction time • Various optics and IR f |
|
|
|
PerkinElmer Optoelectronics |
Thermopile Sensor and Benefits • RoHS compliant – Si-chip made by standard CMOS processes • Large output voltage • High signal to noise ratio • 5.5 µm IR longpass filter • Outside window allows thermal shock free mounting of sensor into ear thermometer speculum • Extr |
|
|
|
PerkinElmer Optoelectronics |
High Output Xenon Flashlamp · Up to 20x the output intensity of traditional xenon style lamps · Exceptional arc stability · Long Life · Continuous spectrum UV-VIS-IR · Collimated Output beam · Ideal for use with Optical Lenses and Fiber Bundles · Low optical noise · Microsecond |
|
|
|
PerkinElmer Optoelectronics |
High Output Xenon Flashlamp · Up to 20x the output intensity of traditional xenon style lamps · Exceptional arc stability · Long Life · Continuous spectrum UV-VIS-IR · Collimated Output beam · Ideal for use with Optical Lenses and Fiber Bundles · Low optical noise · Microsecond |
|
|
|
PerkinElmer Optoelectronics |
High Output/ Short Arc Xenon Flashlamp with Internal Reflector • Greater than 40% more usable light intensity than FX-1150 • Ideal for use with Optical Lenses and Fiber Bundles • Low optical “noise” • Continuous spectrum UV-VIS-IR • Long life • Low heat radiation • Microsecond flash duration • High efficiency ou |
|
|
|
PerkinElmer Optoelectronics |
Array Module -20 41 x 32 0.95 0.4 100 units ° V mV /Ö Hz °C condition f/1, f = 3.9mm TBB=80°, Tamb=20° 0.5...20Hz Operating voltageVDD Operating current Right for modification reserved / WS /, 21.5.2001 5 1 V DD/2 200 V mA V W 500K BB 5...14µm 500K BB 5... |
|
|
|
PerkinElmer Optoelectronics |
Dual Channel Thermopile 500K BB w/o filter cmÖ Hz/W 500K BB w/o filter 1.0 TPS 2534 Relative signal output 0.8 0.6 0.4 0.2 -3 dB level TC of sensitivity TC of resistance Time constant Operating temperature S torage temperature -0.01 0.02 35 -40 -40 30 3964 2x 90 100 100 |
|
|
|
PerkinElmer Optoelectronics |
Quad Thermopile |
|
|
|
PerkinElmer Optoelectronics |
VTP Process Photodiodes K 2850 K H = 0, VR = 10 V H = 0, V = 10 mV H = 0, V = 3 V 940 nm @ Peak 725 925 140 ±70 2.5 x 10-14 (Typ.) 1.1 x 10 13 (Typ.) .036 .047 .50 1150 .25 50 35 Typ. 55 .24 300 -2.0 30 Max. µA %/°C mV mV/°C nA GΩ pF A/(W/cm2) A/W nm nm V Degrees W ⁄ Hz cm |
|
|
|
PerkinElmer Optoelectronics |
VTP Process Photodiodes mV H = 0, V = 3 V 940 nm @ Peak 400 925 140 ±70 9.0 x 10 -14 (Typ.) 3.0 x 10 12 (Typ.) .050 .55 1150 .25 50 50 Typ. 70 .20 350 -2.0 30 Max. µA %/°C mV mV/°C nA GΩ pF A/(W/cm2) A/W nm nm V Degrees W ⁄ Hz cm Hz / W UNITS PerkinElmer Optoelectronics, |
|
|
|
PerkinElmer Optoelectronics |
VTP Process Photodiodes Min. H = 100 fc, 2850 K 2850 K H = 100 fc, 2850 K 2850 K H = 0, VR = 10 V H = 0, V = 10 mV H = 0, V = 3 V 940 nm @ Peak 725 925 140 ±50 2.0 x 10 -13 (Typ.) 1.4 x 10 12 (Typ.) .045 .50 1150 .15 50 35 Typ. 55 .24 300 -2.0 30 Max. µA %/°C mV mV/°C nA G |
|