NTC 10D-11 Thermistors
Temperature Coefficient | NTC |
Resistance at 25 DegreeC | 10k Ohms |
Part No | 10D-11 |
Resistance at 25 deg C | 10 ohm |
Operating Temperature Range | -30 To +125 Degree C |
= Electric current (amperes)
= Density of charge carriers (count/m³)
= Cross-sectional area of the material (m²)
= Velocity of charge carriers (m/s)
= Charge of an electron ( coulomb) The current is measured using an ammeter. Over large changes in temperature, calibration is necessary. Over small changes in temperature, if the right semiconductor is used, the resistance of the material is linearly proportional to the temperature. There are many different semiconducting thermistors with a range from about 0.01 kelvin to 2, 000 kelvins (−273.14 °C to 1, 700 °C)[citation needed].
Also 2.5D13, 1.3D20, 16D25, 16D11, 50D9
Sheth Electronics
Product Details
Company Details
Product Specification
Temperature Coefficient | NTC |
Resistance at 25 DegreeC | 10k Ohms |
Part No | 10D-11 |
Resistance at 25 deg C | 10 ohm |
Operating Temperature Range | -30 To +125 Degree C |
Package Type | Radial |
Thermistor Mounting | Disc Type |
Surface Finish | Epoxy Coated |
Resistance Tolerance | +/-1% |
Diameter | 11 mm |
Wire Connection | Through Hole |
Minimum Order Quantity | 1000 Piece |
Product Description
Many NTC thermistors are made from a pressed disc or cast chip of a semiconductor such as a sintered metal oxide. They work because raising the temperature of a semiconductor increases the number of electrons able to move about and carry charge - it promotes them into the conduction band. The more charge carriers that are available, the more current a material can conduct. This is described in the formula:
= Electric current (amperes)
= Density of charge carriers (count/m³)
= Cross-sectional area of the material (m²)
= Velocity of charge carriers (m/s)
= Charge of an electron ( coulomb)
The current is measured using an ammeter. Over large changes in temperature, calibration is necessary. Over small changes in temperature, if the right semiconductor is used, the resistance of the material is linearly proportional to the temperature. There are many different semiconducting thermistors with a range from about 0.01 kelvin to 2,000 kelvins (−273.14 °C to 1,700 °C)[citation needed].
Also 2.5D13,1.3D20,16D25,16D11,50D9
About the Company
Quality is our chief concern and hence we procure our range from established and trusted vendors from countries such as Hong Kong, Singapore, Taiwan and China. Further, we deliver our assortment by packaging them in optimum quality packaging material.
Seller Contact Details
No. 53/8, Jai Santhoshi Maa, 2nd Floor, 1st Main Road, Sheshadripuram, Malleswaram East Bengaluru - 560020, Karnataka, India
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