Temperature sensors are widely used in various applications, including industrial, automotive, medical, and consumer electronics. The most popular types of temperature sensors include:
1. Thermocouples
- Description: Made from two different metals joined at one end; the voltage generated at the junction changes with temperature.
- Features:
- Wide temperature range (-200°C to 2000°C, depending on type).
- Rugged and durable.
- Fast response time.
- Common Types:
- Type K (Chromel-Alumel)
- Type J (Iron-Constantan)
- Type T (Copper-Constantan)
- Applications: Industrial processes, furnaces, kilns.
2. Resistance Temperature Detectors (RTDs)
- Description: Measures temperature by correlating the resistance of the sensor element with temperature.
- Features:
- High accuracy and stability.
- Narrower temperature range (-200°C to 850°C).
- Typically made of platinum (e.g., PT100, PT1000).
- Applications: Laboratories, HVAC systems, process control.
3. Thermistors
- Description: Resistance changes significantly with temperature, usually made of ceramic or polymer materials.
- Features:
- High sensitivity over a narrow temperature range.
- Two types: NTC (Negative Temperature Coefficient) and PTC (Positive Temperature Coefficient).
- Lower cost.
- Applications: Home appliances, medical devices, automotive.
4. Semiconductor Temperature Sensors
- Description: Integrated circuits (ICs) that produce a voltage, current, or digital signal proportional to temperature.
- Examples: LM35, TMP36, DS18B20.
- Features:
- Linear output.
- Small size and easy to integrate.
- Moderate accuracy.
- Applications: Consumer electronics, microcontroller-based projects, IoT.
5. Infrared (IR) Sensors
- Description: Measures temperature from emitted infrared radiation without physical contact.
- Features:
- Non-contact measurement.
- Suitable for moving or inaccessible objects.
- Can measure high temperatures.
- Applications: Industrial monitoring, medical thermometers, HVAC.
6. Thermopiles
- Description: Arrays of thermocouples combined to measure heat radiation.
- Features:
- Non-contact sensing.
- Good for surface temperature measurement.
- Applications: Infrared thermometers, thermal imaging cameras.
7. Bimetallic Sensors
- Description: Uses two metals with different coefficients of expansion bonded together; the metal bends with temperature change.
- Features:
- Simple and mechanical.
- No external power needed.
- Applications: Thermostats, household appliances.
8. Liquid-In-Glass Thermometers
- Description: Uses the expansion of liquid (e.g., mercury or alcohol) in a calibrated glass tube.
- Features:
- No power required.
- Simple and inexpensive.
- Applications: Weather monitoring, laboratory use.
Comparison of Temperature Sensors
| Sensor Type | Accuracy | Temperature Range | Response Time | Cost | Applications |
|---|---|---|---|---|---|
| Thermocouples | Moderate | -200°C to 2000°C (depending on type) | Fast | Low to Moderate | Industrial processes, furnaces, kilns |
| RTDs | High | -200°C to 850°C | Moderate | High | Laboratories, HVAC, process control |
| Thermistors | High (over narrow range) | -50°C to 150°C | Fast | Low | Home appliances, medical devices, automotive |
| Semiconductor Sensors | Moderate | -55°C to 150°C | Moderate | Low | Consumer electronics, IoT, microcontrollers |
| Infrared (IR) Sensors | Moderate | -70°C to 1000°C | Fast | Moderate to High | Medical thermometers, industrial monitoring |
| Thermopiles | Moderate | -50°C to 1000°C | Fast | Moderate | Infrared thermometers, thermal cameras |
| Bimetallic Sensors | Low | -30°C to 300°C | Slow | Low | Thermostats, household appliances |
| Liquid-in-Glass Thermometers | Low to Moderate | -100°C to 600°C | Slow | Low | Weather monitoring, laboratory use |
