TO-46 Package IR Infrared Thermopile Temperature Sensor 100K 3950 ISB-TS45H For Contactless Temperature Measurement
Performances
ISB-TS45H | |||||
Parameter | Min. | Typ. | Max. | Unit | Conditons |
Chip size | 1.1×1.1 | mm2 | |||
Sensitve area | 0.35×0.35 | mm2 | |||
Detection angle | 90 | ° | |||
Thermopile resistance | 80 | 98 | 115 | KΩ | Temp=25℃ |
Noise voltage | 38 | nV/Hz1/2 | Temp=25℃ | ||
NEP | 0.23 | nW/Hz1/2 | Blackbody=500K,1Hz@25℃ | ||
Voltage Response | 20.11 | Vmm2/w | Blackbody=500K,1Hz@25℃ | ||
Responsivity | 134 | 164 | 194 | V/w | Blackbody=500K,1Hz@25℃ |
Temp.coefcient of resistance | 0.06 | %/℃ | Temp=25℃~75℃ | ||
Time constant | ≤ 13 | ms | |||
Specifc detectvity | 1.51 E08 | cmHz1/2/w | Blackbody=500K,1Hz@25℃ | ||
NTC Resistance | 100±3% | KΩ | 25℃ | ||
NTC β | 3950±1% | K | 25/50℃ |
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Dimension
unit:mm
Environmental requirements
Operating Temperature:-30℃~ +85℃
Storage Temperature :-30℃~ +100℃
Test conditions: 25℃ ambient temperature, the measured object temperature and the typical output voltage of the reactor corresponding relationship.
* Note: This parameter is tested under TO46 package plus LWP5.0 filter condition.
Temp | V out | Temp | V out | Temp | V out | Temp | V out | Temp | V out |
(℃ ) | (mv) | (℃ ) | (mv) | (℃ ) | (mv) | (℃ ) | (mv) | (℃ ) | (mv) |
-20 | -3.046 | 10 | -1.196 | 40 | 1.334 | 70 | 4.477 | 100 | 8.508 |
-19 | -2.983 | 11 | -1.131 | 41 | 1.426 | 71 | 4.606 | 101 | 8.667 |
-18 | -2.929 | 12 | -1.051 | 42 | 1.526 | 72 | 4.73 | 102 | 8.839 |
-17 | -2.879 | 13 | -0.973 | 43 | 1.624 | 73 | 4.845 | 103 | 9.001 |
-16 | -2.829 | 14 | -0.888 | 44 | 1.725 | 74 | 4.962 | 104 | 9.172 |
-15 | -2.777 | 15 | -0.806 | 45 | 1.81 | 75 | 5.081 | 105 | 9.335 |
-14 | -2.724 | 16 | -0.723 | 46 | 1.892 | 76 | 5.205 | 106 | 9.499 |
-13 | -2.673 | 17 | -0.646 | 47 | 1.995 | 77 | 5.321 | 107 | 9.664 |
-12 | -2.619 | 18 | -0.572 | 48 | 2.094 | 78 | 5.455 | 108 | 9.83 |
-11 | -2.569 | 19 | -0.494 | 49 | 2.199 | 79 | 5.587 | 109 | 9.991 |
-10 | -2.514 | 20 | -0.417 | 50 | 2.306 | 80 | 5.724 | 110 | 10.15 |
-9 | -2.461 | 21 | -0.33 | 51 | 2.42 | 81 | 5.848 | 111 | 10.32 |
-8 | -2.399 | 22 | -0.248 | 52 | 2.53 | 82 | 5.981 | 112 | 10.48 |
-7 | -2.338 | 23 | -0.164 | 53 | 2.635 | 83 | 6.116 | 113 | 10.64 |
-6 | -2.275 | 24 | -0.083 | 54 | 2.753 | 84 | 6.251 | 114 | 10.81 |
-5 | -2.214 | 25 | 0 | 55 | 2.865 | 85 | 6.376 | 115 | 10.98 |
-4 | -2.144 | 26 | 0.086 | 56 | 2.969 | 86 | 6.514 | 116 | 11.15 |
-3 | -2.084 | 27 | 0.174 | 57 | 3.08 | 87 | 6.641 | 117 | 11.33 |
-2 | -2.022 | 28 | 0.258 | 58 | 3.185 | 88 | 6.767 | 118 | 11.5 |
-1 | -1.964 | 29 | 0.346 | 59 | 3.299 | 89 | 6.907 | 119 | 11.66 |
0 | -1.899 | 30 | 0.446 | 60 | 3.401 | 90 | 7.043 | 120 | 11.84 |
1 | -1.829 | 31 | 0.544 | 61 | 3.508 | 91 | 7.19 | ||
2 | -1.754 | 32 | 0.623 | 62 | 3.608 | 92 | 7.33 | ||
3 | -1.689 | 33 | 0.709 | 63 | 3.715 | 93 | 7.468 | ||
4 | -1.629 | 34 | 0.798 | 64 | 3.808 | 94 | 7.604 | ||
5 | -1.155 | 35 | 0.892 | 65 | 3.91 | 95 | 7.751 | ||
6 | -1.479 | 36 | 0.974 | 66 | 4.019 | 96 | 7.9 | ||
7 | -1.416 | 37 | 1.062 | 67 | 4.123 | 97 | 8.051 | ||
8 | -1.349 | 38 | 1.149 | 68 | 4.239 | 98 | 8.191 | ||
9 | -1.275 | 39 | 1.246 | 69 | 4.354 | 99 | 8.344 |
Spectral curve
Transmission rate % Wavelength(nm)
Application
Climate control
Medical : Ear thermometer,Forehead thermometer
Non-contact temperature measurement
Industrial continuous temperature control,Industrial pyrometers
Description
Aolittel ’s thermopile sensors Temperature sensor can measure temperature by detecting the infrared energy of an object outside a certain distance. The temperature is higher, infrared energy produced would be more.
Thermopile sensing elements consist of small thermocouples on silicon chips that absorb energy and produce output signals.
These benefits include better performance and reliability as well as ease-of-use and overall simplicity when incorporating movement into a design. IR thermopiles also allow ambient temperature readings to be factored-in, thus providing greater accuracy and temperature control.
Thermopiles are mainly used for contactless temperature measurement in many applications. Their function is to transfer the heat radiation emitted from the objects into a voltage output.The product consists of infrared filters, thermistors and other components, after TO-46 Metal encapsulated, with high reliability and high sensitivity.
Features
Thermopile IR-Sensor
For Contactless Temperature Measurement
Single Element
High Signal
Accurate Reference Sensor
TO-46 Package
High Sensitivity
NTC Thermistor Compensation
Fast Response Time
5μm Longpass Flat Filter
Precautions
1. Design restrictions
The sensor is designed for indoor use.
When used in outdoor applications, be sure to use a suitable supplemental optical filter and moisture-proof structure.
To prevent secondary failures due to operational failures or malfunctions, fail-safe features can be added in advance.
2.Use restrictions
To prevent sensor failure, operational malfunction or any other malfunction, do not use this sensor under or under similar conditions.
A. Severe changes in ambient temperature.
B. Strong vibration or vibration.
C. When passing through a place with a barrier material (glass, fog, etc.), infrared rays cannot pass through the detection area.
D. In liquids, corrosive gases and seawater.
E. Continuous use in a high-humidity atmosphere.
F. Static electric field or strong electromagnetic radiation.
G. Corrosive gas or sea breeze.
H. Dirty and dusty environment that may contaminate the optical window.
3.Welding restrictions
A. Soldering with soldering iron. The soldering temperature is at 260°C for 10 seconds. Avoid overheating the sensor pins for a long time.
B. All flux must be washed off after soldering and rinsed with a brush. Using an ultrasonic cleaner may cause performance problems.
4.Product use restrictions
Use and sell under any applicable law or regulation.
Incorrect handling or storage due to incorrect use of the sensor is not the responsibility of the manufacturer.