Home > Catalogue > Resistors > NTC Thermistors> YAGEO

NTC Thermistors

Results: 5

Comprehensive

Price Priority

Stock Priority

Image

Part Number

Manufacturer

Description

Availability

Unit Price

Quantity

Operation

N10SP050M

YAGEO

Negative Temperature Coefficient Thermistor

Quantity: 1206

Ship Date: 3-12 working days

10+ $0.2515

100+ $0.2322

500+ $0.2167

1000+ $0.2128

2500+ $0.2128

5000+ $0.2128

Ext. Price: $12.57

MOQ: 50

Mult: 10

Buy Now Add to cart

N10SP2R5M

YAGEO

Thermistors, NTC, TUV, UL, 10MM, 5A;

Quantity: 4177

Ship Date: 3-12 working days

10+ $0.2036

100+ $0.1879

500+ $0.1754

1000+ $0.1723

2500+ $0.1723

5000+ $0.1723

Ext. Price: $12.21

MOQ: 60

Mult: 10

Buy Now Add to cart

NTL12-001M

YAGEO

Datasheet

Inrush Current Limiter Thermistors

Quantity: 0

Ship Date: 10-15 working days

1+ $0.869

Ext. Price: $50.40

MOQ: 58

Mult: 1

SPQ: 75

Inquiry

N20SP010M

YAGEO

Negative Temperature Coefficient Thermistor

Quantity: 0

Ship Date: 10-15 working days

1+ $0.869

Ext. Price: $50.40

MOQ: 58

Mult: 1

SPQ: 75

Inquiry

N08SP033M-F

YAGEO

33Ω ±20%~±25% Through hole mounting

Quantity: 0

Ship Date: 10-15 working days

1+ $0.113

Ext. Price: $50.05

MOQ: 443

Mult: 1

SPQ: 500

Inquiry

NTC Thermistors

NTC Thermistors Definition:
NTC stands for "Negative Temperature Coefficient," and an NTC thermistor is a type of resistor whose resistance decreases with an increase in temperature. This property is due to the semiconductor material used in their construction, which exhibits a negative temperature coefficient.

Function:
The primary function of an NTC thermistor is to sense and measure temperature changes. It operates by allowing a current to flow through it and measuring the voltage drop across it. As the temperature increases, the resistance decreases, leading to a change in the voltage drop. This change can be calibrated to provide a temperature reading.

Applications:
1. Temperature : Used in various applications to monitor and control temperature, such as in HVAC systems, industrial processes, and automotive engines.
2. Overheat Protection: In devices like batteries and power supplies to prevent damage from excessive heat.
3. Compensation in Sensors: To correct for temperature-induced errors in sensors like pressure and humidity sensors.
4. Inrush Current Limiting: In power circuits to limit the initial surge of current when a device is powered on.
5. Temperature Compensation in Electronic Circuits: To maintain stability and accuracy in electronic devices over a range of temperatures.

Selection Criteria:
1. Temperature Range: Choose a thermistor that can operate within the temperature range of the application.
2. Accuracy: Consider the required accuracy of the temperature measurement.
3. Sensitivity: The rate at which the resistance changes with temperature should be suitable for the application's sensitivity needs.
4. Stability: Look for thermistors with long-term stability to ensure consistent performance over time.
5. Response Time: Depending on the application, a faster or slower response time may be necessary.
6. Size and Shape: The physical dimensions should fit within the design constraints of the device.
7. Cost: Consider the budget and the cost-effectiveness of the thermistor for the intended application.
8. Reliability: Ensure the thermistor is from a reputable manufacturer and has a proven track record of reliability.

NTC thermistors are a versatile and cost-effective solution for temperature sensing and control in a wide range of applications, making them an essential component in many modern devices and systems.
Please refer to the product rule book for details.