w w w D .a S th c k e o r . e t NTC POWER THERMISTOR, SCK SERIES Meritek Thermal dissipation coefficient( δ ) The thermal dissipation coefficient is the ratio, normally expressed in milliwatts per degree C (mW/oC), at a specified ambient temperature, of a change in power dissipation in a thermistor to the resultant body temperature change. (δ =VXI/∆T) Sur.
VE OF SURGE CURRENT LIMITING THERMISTOR The maximum power of a thermistor will decrease with the change of ambient temperature.(See Fig.G) Material constant(B) The material constant of a NTC thermistor is a measure of its resistance at one temperature compared to its resistance at a different temperature. Its value may be calculated by the formula shown below and is expressed in degrees kelvin (oK ). The reference temperature used in this formula for determining material constant rating of Meritek’s thermistor is 298.15'oK and 323.15 oK B=Ln(R1/R 2)/( 1/T1-1/T2 ) Temperature coefficient of r.
No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
1 | SCK13-124 |
NTC |
NTC Power Thermistor | |
2 | SCK13-153 |
NTC |
NTC Power Thermistor | |
3 | SCK13-163 |
NTC |
NTC Power Thermistor | |
4 | SCK13-1R37 |
NTC |
NTC Power Thermistor | |
5 | SCK13-055 |
NTC |
NTC Power Thermistor | |
6 | SCK13-084 |
NTC |
NTC Power Thermistor | |
7 | SCK13-203 |
NTC |
NTC Power Thermistor | |
8 | SCK13-2R55 |
NTC |
NTC Power Thermistor | |
9 | SCK13-2R56 |
NTC |
NTC Power Thermistor | |
10 | SCK13-xxx |
ETC |
NTC Power Thermistors | |
11 | SCK13 |
Thinking Electronic |
Power Thermistor | |
12 | SCK13013x |
Thinking Electronic |
Power Thermistor |