Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470

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Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470
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Features
Specifications
Product Type: Radial NTC Thermistor Chip 10KOhm 3470
R25: 10KΩ±1%
B25/50: 3470K±1%
Encapsulation: Epoxy Resin
Lead Wire: Stents
Dissipation Factor: 0.9mW/C
Response Time: 15 Sec
Maximum Rated Power: 25mW
Operating Temperature: -40~+125C
Color: Black
High Light:

negative temperature coefficient thermistor

,

ntc thermistor sensor

Basic Infomation
Brand Name: Aolittel
Model Number: CWFD0103FB-240CP
Payment & Shipping Terms
Packaging Details: Bulk
Delivery Time: 7 Workdays
Payment Terms: T/T, Western Union, MoneyGram,Paypal
Supply Ability: 7,000,000 Pieces Per Month
Product Description

 

Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470

 

 

Features

 

Temperature sensor designs according to device of firealarm
Chip of it is Shibaura NTC thermistor
Epoxy coated so it can resist humidity
Good coherence and stability,high humidity and durability
Enjoys a large sale in China, America and Japan

 

__________________________________________________________________________Epoxy Coated Photocell 11mm Diameter Photoresistor Light Sensor GM11528 With Light Resistance 10-20 KOhm Download________

 

 

Dimension (mm)

 

Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470 1

 

Material

 

NO Material Name Item/PN
1. Element R25=10KΩ±1% B25/50=3470K±1%
2. Coating Resin (Black)
3. Lead Wire Stents

 

 

Electrical Performances

 

NO Item Sign Test Conditions Min. Normal value Max. Unit
1. Resistance at 25℃ R25

Ta=25±0.05℃

PT≦0.1mw

9.9 10.0 10.1
2. B Value B25/50 Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470 2 3435.3 3470 3504.7 k
3. Dissipation factor σ Ta=25±0.5℃ ≧0.9 mW/℃
4. Time constant τ Ta=25±0.5℃ ≦15 sec
5. Maximum rated power P / ≦25 mW
6. Operating temp.range / / -40 / +125

 

 

Reliability Test

 

NO Item Technical requirements Test conditions and method
1. Weldability Solder coating area is over 95% Temperature: 260℃±5℃, Time: ≤Sec
2. Resistance To Soldering Heat R25 △R/R≤±3% Tin stove temperature: ≤260±5℃, Immersion depth is ≥9mm distance far away with body, Time: ≤3Sec
3 Steady State Temperatur R25 △R/R≤±3% Temperature:40±3℃; Humidity:90-98%, Time:300H
4 Temp. cycle test R25 △R/R≤±3% Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470 3–20±3℃×30min 120±3℃×30min×50 cycles
5. High temperature storage R25 △R/R≤±3% Temperature:120±3℃; Time:300H
6 Low temperature storage R25 △R/R≤±3% Temperature:-20℃; Time:300H
7 Drop test No visible damage Free fall into concrete floor from height 1M ,5 cycle.
8 Bending test Bend 90°binding site wire and epoxy resin.Back and forth 3 times
9 Tensile tests Fixed resistors at both ends ,Pull: 10±1N, Time: 10±1 Sec

 

 

Resistance Vs. Temperature Table 

 

R-T CONVERSION TABLE
 
R25=10KΩ±1% B25/50=3470K±1%
T(℃) R↓(%) Rmin (KΩ) Rcen (KΩ) Rmax (KΩ) R↑(%)
-40 -4.094 222.2558 231.7438 241.4607 4.193
-39 -4.037 209.6808 218.502 227.5311 4.132
-38 -3.98 197.8985 206.1023 214.4948 4.072
-37 -3.924 186.8541 194.4861 202.2894 4.012
-36 -3.868 176.4971 183.5991 190.8566 3.953
-35 -3.813 166.7797 173.3905 180.1424 3.894
-34 -3.757 157.6592 163.8144 170.0977 3.836
-33 -3.703 149.095 154.8275 160.6763 3.778
-32 -3.648 141.0496 146.3899 151.8356 3.72
-31 -3.594 133.4886 138.4647 143.5365 3.663
-30 -3.54 126.38 131.018 135.7427 3.606
-29 -3.487 119.7408 124.0667 128.4713 3.55
-28 -3.434 113.4893 117.5251 121.6322 3.495
-27 -3.381 107.601 111.3668 115.1973 3.44
-26 -3.329 102.0526 105.5671 109.1403 3.385
-25 -3.277 96.8223 100.103 103.4368 3.33
-24 -3.226 91.8904 94.9533 98.0643 3.276
-23 -3.174 87.2381 90.0981 93.0017 3.223
-22 -3.123 82.8478 85.5188 88.2292 3.169
-21 -3.073 78.7034 81.1982 83.7287 3.116
-20 -3.022 74.7897 77.1203 79.4831 3.064
-19 -2.972 71.1028 73.2807 75.4877 3.012
-18 -2.922 67.6179 69.6533 71.715 2.96
-17 -2.873 64.3226 66.2251 68.1512 2.908
-16 -2.823 61.2056 62.9839 64.7836 2.857
-15 -2.774 58.2566 59.919 61.6006 2.807
-14 -2.726 55.4655 57.0197 58.5912 2.756
-13 -2.677 52.823 54.2761 55.7447 2.706
-12 -2.629 50.3202 51.6789 53.0515 2.656
-11 -2.581 47.9494 49.2198 50.5027 2.606
-10 -2.533 45.7026 46.8905 48.0896 2.557
-9 -2.486 43.5956 44.7072 45.8288 2.509
-8 -2.44 41.5952 42.6353 43.6844 2.461
-7 -2.393 39.6958 40.669 41.6502 2.413
-6 -2.347 37.8917 38.8023 39.72 2.365
-5 -2.301 36.1776 37.0295 37.8877 2.318
-4 -2.255 34.5487 35.3456 36.1482 2.271
-3 -2.209 33.0004 33.7458 34.4962 2.224
-2 -2.163 31.5283 32.2254 32.927 2.177
-1 -2.118 30.1284 30.7803 31.4361 2.131
0 -2.073 28.7965 29.406 30.019 2.084
1 -2.026 27.4865 28.055 28.6265 2.037
2 -1.98 26.2452 26.7754 27.3082 1.99
     
     
R-T CONVERSION TABLE
 
R25=10KΩ±1% B25/50=3470K±1%
3 -1.934 25.0685 25.5629 26.0596 1.943
4 -1.889 23.9528 24.4139 24.8769 1.897
5 -1.843 22.8945 23.3245 23.7561 1.851
6 -1.798 21.8901 22.291 22.6933 1.805
7 -1.754 20.9368 21.3105 21.6855 1.759
8 -1.709 20.0314 20.3798 20.7292 1.714
9 -1.665 19.1715 19.4962 19.8218 1.67
10 -1.622 18.3541 18.6567 18.96 1.626
11 -1.578 17.5774 17.8593 18.1418 1.582
12 -1.535 16.8387 17.1012 17.3642 1.538
13 -1.492 16.1362 16.3806 16.6254 1.495
14 -1.45 15.4675 15.695 15.9229 1.452
15 -1.407 14.8311 15.0428 15.2548 1.409
16 -1.366 14.2252 14.4221 14.6192 1.367
17 -1.324 13.6478 13.8309 14.0141 1.325
18 -1.282 13.0981 13.2682 13.4385 1.283
19 -1.241 12.574 12.732 12.8901 1.242
20 -1.2 12.0743 12.221 12.3677 1.201
21 -1.16 11.5977 11.7338 11.8699 1.16
22 -1.119 11.1432 11.2694 11.3956 1.12
23 -1.079 10.7094 10.8263 10.9432 1.079
24 -1.04 10.2954 10.4035 10.5117 1.04
25 -1 9.9 10 10.1 1
26 -1.039 9.5149 9.6148 9.7147 1.039
27 -1.078 9.1481 9.2478 9.3475 1.078
28 -1.117 8.7978 8.8972 8.9966 1.117
29 -1.155 8.4631 8.562 8.6609 1.155
30 -1.193 8.1435 8.2418 8.3402 1.194
31 -1.231 7.8375 7.9352 8.0329 1.232
32 -1.269 7.5453 7.6422 7.7392 1.269
33 -1.306 7.2655 7.3616 7.4578 1.307
34 -1.343 6.998 7.0933 7.1886 1.344
35 -1.38 6.742 6.8363 6.9307 1.381
36 -1.416 6.4966 6.5899 6.6833 1.418
37 -1.452 6.262 6.3543 6.4467 1.454
38 -1.488 6.0371 6.1283 6.2197 1.491
39 -1.524 5.8217 5.9118 6.0021 1.527
40 -1.56 5.6151 5.7041 5.7933 1.563
41 -1.595 5.4173 5.5051 5.5931 1.599
42 -1.63 5.2276 5.3142 5.401 1.634
43 -1.665 5.0457 5.1311 5.2168 1.669
44 -1.7 4.8711 4.9553 5.0398 1.705
45 -1.734 4.7037 4.7867 4.87 1.739
46 -1.768 4.543 4.6248 4.7069 1.774
 

 

 

R-T CONVERSION TABLE
 
R25=10KΩ±1% B25/50=3470K±1%
47 -1.802 4.3888 4.4693 4.5501 1.809
48 -1.836 4.2407 4.32 4.3996 1.843
49 -1.869 4.0983 4.1764 4.2548 1.877
50 -1.903 3.9619 4.0387 4.1159 1.911
51 -1.936 3.8279 3.9035 3.9794 1.945
52 -1.97 3.6991 3.7734 3.8481 1.979
53 -2.003 3.5752 3.6483 3.7218 2.013
54 -2.036 3.4561 3.5279 3.6001 2.047
55 -2.07 3.3413 3.4119 3.4829 2.081
56 -2.102 3.2309 3.3003 3.3701 2.115
57 -2.135 3.1245 3.1927 3.2613 2.148
58 -2.168 3.0222 3.0892 3.1566 2.182
59 -2.2 2.9237 2.9895 3.0557 2.215
60 -2.232 2.8289 2.8935 2.9585 2.248
61 -2.265 2.7374 2.8008 2.8647 2.281
62 -2.297 2.6493 2.7116 2.7743 2.314
63 -2.328 2.5645 2.6256 2.6872 2.346
64 -2.36 2.4826 2.5426 2.6031 2.379
65 -2.392 2.4037 2.4626 2.522 2.411
66 -2.423 2.3277 2.3855 2.4438 2.443
67 -2.454 2.2543 2.311 2.3682 2.476
68 -2.485 2.1836 2.2393 2.2955 2.508
69 -2.516 2.1154 2.17 2.2251 2.54
70 -2.547 2.0495 2.1031 2.1572 2.571
71 -2.578 1.9861 2.0387 2.0918 2.603
72 -2.608 1.9249 1.9764 2.0285 2.635
73 -2.639 1.8656 1.9162 1.9673 2.666
74 -2.669 1.8086 1.8582 1.9083 2.697
75 -2.699 1.7536 1.8022 1.8514 2.728
76 -2.729 1.7003 1.748 1.7962 2.759
77 -2.759 1.6489 1.6957 1.743 2.79
78 -2.789 1.5992 1.6451 1.6915 2.821
79 -2.818 1.5514 1.5964 1.6419 2.852
80 -2.848 1.5051 1.5492 1.5939 2.882
81 -2.877 1.4602 1.5035 1.5473 2.913
82 -2.906 1.417 1.4594 1.5024 2.943
83 -2.935 1.3753 1.4169 1.459 2.973
84 -2.964 1.3348 1.3756 1.4169 3.004
85 -2.993 1.2958 1.3358 1.3763 3.033
86 -3.022 1.2575 1.2967 1.3364 3.064
87 -3.051 1.2204 1.2588 1.2977 3.094
88 -3.08 1.1848 1.2224 1.2606 3.124
89 -3.109 1.15 1.1869 1.2243 3.154
90 -3.137 1.1165 1.1527 1.1894 3.184
 

 

 

R-T CONVERSION TABLE
 
R25=10KΩ±1% B25/50=3470K±1%
91 -3.166 1.084 1.1194 1.1554 3.214
92 -3.194 1.0527 1.0874 1.1227 3.244
93 -3.223 1.0224 1.0564 1.091 3.273
94 -3.251 0.993 1.0264 1.0603 3.303
95 -3.279 0.9645 0.9972 1.0304 3.332
96 -3.307 0.937 0.969 1.0016 3.362
97 -3.335 0.9102 0.9416 0.9735 3.391
98 -3.363 0.8844 0.9152 0.9465 3.42
99 -3.391 0.8594 0.8896 0.9203 3.449
100 -3.418 0.8353 0.8649 0.895 3.478
101 -3.446 0.8117 0.8407 0.8702 3.507
102 -3.473 0.7889 0.8173 0.8462 3.536
103 -3.5 0.767 0.7948 0.8231 3.565
104 -3.528 0.7457 0.773 0.8008 3.593
105 -3.555 0.725 0.7517 0.7789 3.622
106 -3.582 0.7049 0.7311 0.7578 3.65
107 -3.609 0.6855 0.7112 0.7374 3.679
108 -3.636 0.6666 0.6918 0.7174 3.707
109 -3.662 0.6484 0.6731 0.6982 3.735
110 -3.689 0.6308 0.655 0.6796 3.763
111 -3.715 0.6138 0.6375 0.6617 3.791
112 -3.742 0.5971 0.6203 0.644 3.819
113 -3.768 0.581 0.6038 0.627 3.847
114 -3.794 0.5654 0.5877 0.6105 3.875
115 -3.82 0.5503 0.5722 0.5945 3.902
116 -3.847 0.5355 0.5569 0.5788 3.93
117 -3.873 0.5212 0.5422 0.5637 3.958
118 -3.899 0.5073 0.5279 0.5489 3.985
119 -3.924 0.494 0.5142 0.5348 4.012
120 -3.95 0.4809 0.5007 0.5209 4.04
121 -3.976 0.4682 0.4876 0.5074 4.067
122 -4.001 0.4559 0.4749 0.4943 4.094
123 -4.027 0.444 0.4626 0.4817 4.121
124 -4.052 0.4325 0.4508 0.4695 4.148
125 -4.077 0.4212 0.4391 0.4574 4.175
 
 
Thermistor – Temperature Detection Fire Alarm Example
 
Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470 4
Thermistors serve a crucial role in temperature detection. For example, thermistor temperature detection can be used in fire alarms to detect fires based on a sudden change in temperature. Unlike photoelectric detectors or ionization alarms, thermistors only require heat to activate.
 
 
Photoelectric and Ionization Fire Alarms

The photoelectric detector requires heavy smoke or a smoldering fire to work properly. Heavy smoke from a fire enters a chamber in the alarm with a LED light. The smoke will then deflect light onto a photoelectric sensor, activating the alarm. The complex circuitry and required chamber increases manufacturing price.
Although the ionization method in a fire alarm is effective in alerting those around it in the case of hot blazing fires, it is also sensitive to dust or steam which causes false alarms. units will either be disabled or removed completely by annoyed owners due to so many false alarms.The disabling and removal of the fire alarms increases the risk of bodily harm. The radioactive nature of ionization alarms requires proper disposal when the alarms are no longer working. Just like photoelectric detectors, the circuitry in an alarm utilizing the ionization method requires complex circuitry, making this alarm costly. The most cost effective fire alarm is one utilizing the thermistor method.
Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470 5
 
 
Thermistor Temperature Detection in Fire Alarms

The thermistor method, unlike the previous examples, uses heat detection to activate. The alarm activates once the thermistor detects a high temperature. Thermistor temperature detection doesn’t require smoke to activate and has fewer false alarms. The thermistor uses the ambient temperature of a building and will only activate when that temperature increases exponentially. The thermistor method is reliable in this fire alarm example as there would be few false alarms and a quicker alert rate, but the thermistor method is also versatile.
 
 
Versatility with Thermistor Temperature Detection

Thermistors as temperature detectors are versatile in the fire alarm example because of the many placement options available. Thermistor fire alarms can be placed in
  • areas with high steam, such as used in dairy factories
  • Incineration and oven rooms where smoke usually gathers
  • rooms with high temperatures like welding workshops
  • industrial workplaces with a lot of dust and smoke
With strategic placing, the thermistor method would not cause unnecessary alarms, while still being reliable in the industrial workplace to ensure all employees reach safety when a threat of fire occurs. Thermistors can activate at specific temperatures. The fine tuning allows for even greater versatility in their placement.
Fire Alarm Temperature Detection Equipment Temperature Sensor Thermistor Chip Radial NTC 10KOhm 3470 6
 
 
Thermistor Temperature Detection for Homes

Data compiled and published by www.usfa.fema.gov show the numbers on residential fires and their causes from 2009 to 2011. The connections behind outlets in the wall cause about nine percent of all residential fires. Although not a high number comparatively, it is another place a thermistor temperature detection type fire alarm would prove beneficial. The thermistor used for temperature detection is so tiny that an alarm could be manufactured small enough to be placed behind electrical outlets. Should a high temperature occur in the outlet creating a fire danger, the alarm would alert those around to shut the power off or could shut off power automatically.
 

Lower Cost of Thermistor Alarms

Production of a fire alarm utilizing the thermistor temperature detection method is more cost effective because of the simple circuitry and easy construction. The alarms require one part for manufacturing, rather than multiple complex parts. The thermistor doesn’t contain hazardous material, allowing for easy disposal when the alarm is no longer working.
Thermistors used in temperature detection are versatile and cost effective pieces of circuitry. In our example of fire alarms, we have seen that they are more cost effective due to simple circuitry, have fewer false alarms due to their effective detection of temperature and are versatile due to their small size. These thermistors are crucial for temperature detection, not just in fire alarms, but in any piece of machinery that requires temperature detection.
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