NTC Thermistors

Results: 6
Manufacturer
EI Sensor TechnologiesLittelfuse Inc.
Series
ETPUSP
B0/50
3892K-
B25/85
3977K-
Operating Temperature
-55°C ~ 150°C-40°C ~ 105°C-40°C ~ 110°C150°C
Length - Lead Wire
0.08" (1.98mm)6.00" (152.40mm)6.00" (152.4mm)34.50" (876.30mm)36.00" (914.40mm)49.61" (1260.00mm)
Mounting Type
Clip OnFree Hanging
Package / Case
Cylindrical Probe, CopperPipe Sensor AssemblyProbeRing Lug
Stocking Options
Environmental Options
Media
Marketplace Product
6Results

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of 6
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Mfr Part #
Quantity Available
Price
Series
Package
Product Status
Resistance in Ohms @ 25°C
Resistance Tolerance
B Value Tolerance
B0/50
B25/50
B25/75
B25/85
B25/100
Operating Temperature
Length - Lead Wire
Mounting Type
Package / Case
USP10976REVA
USP10976
THERM NTC 10KOHM 3892K RING LUG
Littelfuse Inc.
3,440
In Stock
1 : $6.16000
Bulk
Bulk
Active
10k
±1%
-
3892K
-
-
-
-
-55°C ~ 150°C
6.00" (152.4mm)
Free Hanging
Ring Lug
ETP10087
ETP10087
Thermistor Probe,#4 Ring Lug,10K
EI Sensor Technologies
468
In Stock
1 : $6.15000
Bulk
Bulk
Active
10k
±1%
-
3892K
-
-
3977K
-
-55°C ~ 150°C
6.00" (152.40mm)
Free Hanging
Ring Lug
ETP10039
ETP10039
THERMISTOR PROBE, COPPER, 10K OH
EI Sensor Technologies
452
In Stock
1 : $6.79000
Bulk
Bulk
Active
10k
±1%
-
-
-
-
3977K
-
150°C
36.00" (914.40mm)
Free Hanging
Cylindrical Probe, Copper
ETP10002
ETP10002
Thermistor Probe, Stainless, 10K
EI Sensor Technologies
266
In Stock
1 : $7.51000
Bulk
Bulk
Active
10k
±1%
-
3892K
-
-
-
-
-40°C ~ 105°C
49.61" (1260.00mm)
Free Hanging
Probe
ETP10156
ETP10156
THERMISTOR PROBE 10K 1%, PLASTIC
EI Sensor Technologies
714
In Stock
1 : $13.82000
Bulk
Bulk
Active
10k
±1%
-
-
-
-
3977K
-
-40°C ~ 110°C
0.08" (1.98mm)
Clip On
Pipe Sensor Assembly
ETP10072
ETP10072
Thermistor Probe,1/4-18 NPT,10K
EI Sensor Technologies
72
In Stock
1 : $13.07000
Bulk
Bulk
Active
10k
±1%
-
3892K
-
-
3977K
-
-40°C ~ 105°C
34.50" (876.30mm)
Free Hanging
Probe
Showing
of 6

NTC Thermistors


NTC Thermistors, or Negative Temperature Coefficient Thermistors, are devices that change resistance in response to changes in temperature. With negative coefficient parts, their resistance decreases as their temperature increases. They are typically defined with variables such as the parts base resistance value at a set temperature, usually 25°C, and B values, the performance curve of temperature vs. resistance calibrated between two fixed points.