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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
GT Series
GT104L1K
THERM NTC 100KOHM 4040K BEAD
Littelfuse Inc.
474
In Stock
1 : $5.55000
Bulk
Bulk
Active100k±10%----4040K-300°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT103J1K
THERMISTOR NTC 10KOHM 3977K BEAD
Littelfuse Inc.
240
In Stock
1 : $5.55000
Bulk
Bulk
Active10k±10%----3977K-300°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT202F1K
THERMISTOR NTC 2KOHM 3499K BEAD
Littelfuse Inc.
812
In Stock
1 : $3.56000
Bulk
Bulk
Active2k±10%----3499K-260°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT102B1K
THERMISTOR NTC 1KOHM 3009K BEAD
Littelfuse Inc.
176
In Stock
1 : $3.56000
Bulk
Bulk
Active1k±10%----3009K-260°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT103E1K
THERMISTOR NTC 10KOHM 3435K BEAD
Littelfuse Inc.
0
In Stock
500 : $1.68076
Bulk
Bulk
Active10k±10%----3435K-260°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT105U1K
THERMISTOR NTC 1MOHM 4350K BEAD
Littelfuse Inc.
0
In Stock
500 : $1.68076
Bulk
Bulk
Active1M±10%----4350K-300°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT303J1K
THERMISTOR NTC 30KOHM 3977K BEAD
Littelfuse Inc.
0
In Stock
Obsolete
Bulk
Obsolete30k±10%----3977K-260°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT473N1K
THERMISTOR NTC 47KOHM 4073K BEAD
Littelfuse Inc.
0
In Stock
Obsolete
Bulk
Obsolete47k±10%----4073K-260°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT502F1K
THERMISTOR NTC 5KOHM 3499K BEAD
Littelfuse Inc.
0
In Stock
Obsolete
Bulk
Obsolete5k±10%----3499K-260°C1.00" (25.40mm)Through HoleBead, Glass
GT Series
GT503J1K
THERMISTOR NTC 50KOHM 3977K BEAD
Littelfuse Inc.
0
In Stock
Obsolete
Bulk
Obsolete50k±10%----3977K-260°C1.00" (25.40mm)Through HoleBead, Glass
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Temperature Sensors - 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.