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1DC302J

THERMISTOR NTC 3KOHM 3934K DISC

器件类别:传感器   

厂商名称:Ametherm

厂商官网:http://www.ametherm.com/

器件标准:

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器件参数
参数名称
属性值
25°C 时欧姆阻值
3k
电阻容差
±10%
B 值容差
±3%
B0/50
3892K
B25/50
3934K
B25/75
3960K
B25/85
3988K
B25/100
3999K
工作温度
-55°C ~ 150°C
功率 - 最大值
500mW
长度 - 引线
0.98"(25.00mm)
安装类型
通孔
封装/外壳
圆片式,2.5mm 直径 x 2.0mm 宽
文档预览
NTC Thermistors - Disc and Chip Style
Temperature Measurement and Control Thermistors
DISC and CHIP Style
DISC & CHIP NTC
STYLE NTC THERMISTOR
Features
Wide Ohmic Value Range
Accurate & Stable
Fast Thermal
Response Time
Tight Tolerances
High Sensitivity
NTC Thermistors
Negative Temperature Coefficient (NTC) thermistors
are thermally sensitive
semiconductor resistors which exhibit a decrease in resistance as absolute temperature
increases. Change in the resistance of NTC thermistor can be brought about either by a
change in the ambient temperature or internally by self-heating resulting from
current
flowing through the device.
Most of the practical applications of NTC thermistors are
based on these material characteristics.
NTC Disc and Chip Style Devices
Ametherm manufactures Disc and Chip style thermistors in
resistance values ranging
from 1.0 ohm to 500,000 ohms.
These devices are suitable for a range of resistance
values and temperature coefficients from relatively low resistance and temperature
coefficients to very high values. Precision resistance tolerances are available to 1%.
Standard resistance tolerances are from 5% to 20%.
All tolerances are
specified at
25°C
or may be specified at any temperature within the operating temperature range of
the thermistor.
Thermistor Terminology for Temperature Measurement & Control
Devices
The dissipation constant (D.C.)
is the ratio, normally expressed in milliwatts per
degree C (mw/°C), at a specified ambient temperature, of a change in power
dissipated in a thermistor to the resultant change in body temperature.
The thermal time constant (T.C.)
is the time required for a thermistor to change
63.2% of the total difference between its initial and final body temperature when
subjected to a step function change in temperature under zero-power conditions and
is normally expressed in seconds (S).
Alpha ( ) or Temperature Coefficient or Resistance
is the temperature coefficient
of resistance is the ratio at a specified temperature, T, of the rate of change of zero-
power resistance with temperature to the zero-power resistance of the thermistor.
The temperature coefficient is commonly expressed in percent per degree C (%/°C).
NTC DISC & CHIP
Selection
Considerations
Select Req'd. Resistance Value & Temperature Coefficient
Determine Accuracy Req'd.
Review Power Dissipation
Determine Operating Temperature Range
Review Thermal Time Constant
Thermistor Applications
Time and temperature
are two of the most frequently measured variables. There are
numerous ways of the measuring temperature electronically, most commonly by
thermocouples and negative temperature coefficient (NTC) thermistors.
For
general purpose temperature measurement, NTC temperature sensors can operate
over a wide temperature range (-55 to +300°C). They are stable throughout a long
lifetime, and are small and comparatively inexpensive. Typically, they have negative
temperature coefficients between
-3.3 and -4.9%/°C at 25°C.
This is more than ten (10)
times the sensitivity of a platinum resistance thermometer of the same nominal
resistance. Ametherm's Disc & Chip style thermistors are used in many applications that
require a high degree of accuracy and reliability.
Some of the most popular applications of NTC thermistors include:
Temperature Compensation
Temperature Measurement & Control
Fan Motor Control
Fluid Level & Temperature Sensors
NTC DISC & CHIP - Selection Process
Select R Value
Determine R @ T
Calculate DEV for R @ T
Evaluate Power Rating (D.C.)
Review T.C. Requirements
Selection considerations for NTC Disc and Chip Devices
Power dissipation is a common problem in the use of thermistors as they can only
dissipate a certain amount of power.
If the
power dissipated exceeds the dissipation constant
(D.C.) rating of the
sensor it is likely that it will exhibit self heating.
1DA101K-EC 100
1DA131J
1DA131K
1DA500J
1DA500K
1DB102J
1DB102K
130
130
50
50
1,000
1,000
A
A
A
A
A
B
B
B
B
C
C
C
C
C
E
E
E
A
A
A
0.1 0.06 3
0.1 0.06 3
0.1 0.06 3
0.1 0.03 3
0.1 0.03 3
0.1 0.06 3
0.1 0.06 3
0.1 0.06 3
0.1 0.03 3
0.1 0.03 3
0.1 0.08 4
0.1 0.08 4
0.1 0.08 4
0.1 0.08 4
0.1 0.95 3
0.1 0.95 3
0.1 0.95 3
0.2 0.05 7
0.2 0.05 7
0.2 0.05 7
10 28
10 28
10 28
6
6
28
28
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.1
0.1
0.1
10 28
10 28
10 28
6
6
28
28
1DB102K-EC 1,000
1DB501K
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500
10,000
1DC103J-EC 10,000
1DC302J
1DC502J
3,000
5,000
12 28
12 28
12 28
12 28
9
9
9
28
28
28
1DC502J-EC 5,000
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1DE104K
100,000
100,000
1DE104K-EC 10,000
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20
20
50,000
20 24
20 24
20 24
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