**Common Types of Industrial Sensors in Automation**

1. **Temperature Sensors**

Temperature is one of the most common things measured in factories. A temperature sensor collects temperature data from its surroundings. It then changes this data into values we can study. Common choices are digital temperature sensors and sensors that measure temperature and humidity.

– **Digital Temperature Sensors**

These sensors have a ten-digit dual-channel A/D converter. They also come with standard RS-232 or RS-485 ports for communication. Advanced filtering methods help cut down outside interference.

Their quick response time and high accuracy make them dependable. This reliability makes them good for many different uses.

– **Temperature and Humidity Sensors**

These sensors check the temperature and humidity. They use tools to collect signals from the environment. Then, they change these signals into current or voltage outputs.

These results show the levels of temperature and humidity. The sensors have direct outputs such as RS-232 or RS-485. This makes them work well with control systems.

**Applications:**

Temperature sensors are used in many industries. These include healthcare, manufacturing, and food processing. They are also found in hydropower and petrochemicals. You can see them in metallurgy, textiles, printing, and pharmaceuticals as well.

2. **Pressure Sensors**

Pressure sensors measure pressure levels by turning signals into electrical outputs. They use precise processing techniques.

These sensors have a part that senses pressure and a unit for processing signals. They are important for safety and smooth operation. These sensors monitor pipelines. They alert the main system about leaks or problems that need to be fixed.

**Applications:**

Many industries use pressure sensors. These include water management, railways, and smart buildings. You can also find them in aerospace and defense.

You can find them in oil products, shipbuilding, and oil wells. Pressure sensors are used in power plants and in machine tools. They are also used in medical devices to measure pressure.

3. **Level Sensors**

Level sensors detect and measure the level of liquids or solids. They work in both open and closed systems. Once the level is found, the sensor changes the data into electrical signals.

These signals can be used for analysis or action. These devices are important for checking liquid levels in industries. They help keep processes efficient and safe.

It is important for industries to know about these types of sensors. It helps them improve automation and keep operations running well. This is essential for using new technologies in smart manufacturing.

Liquid level measurement has two main types: continuous measurement and point-level measurement. Continuous liquid level sensors measure liquid levels accurately.

They provide reliable results. Point-level sensors check if the liquid level is above or below a set point. They show when levels are high or low.

Liquid level sensors are used in many places. They are mostly found in factories and car industries. You can also see them in home appliances.

For example, ice makers in refrigerators and washing machines use them to control water levels and prevent overflow. In water heaters, they help refill water automatically when the tank is too low. Toilets use these sensors to keep track of water levels and detect leaks.

4.**Infrared Sensors**

An infrared sensor uses infrared light to process data. Infrared light is also called infrared rays. Infrared has properties like reflection, refraction, scattering, interference, and absorption. Any object that is warmer than absolute zero gives off infrared radiation.

Infrared sensors work without touching the object they measure. This prevents friction and provides benefits like high sensitivity and quick response. These sensors can control drive mechanisms. They are often used for non-physical contact temperature measurement, gas composition analysis, and non-destructive testing.

Infrared sensors have many uses. They are important in medicine, the military, space technology, and environmental engineering. These sensors work well with industrial IoT systems. They can also be used in other areas.

5.**Proximity Sensors**

Proximity sensors can find nearby objects without touching them. They use special technology to sense how close something is and send a signal.

They do not touch the object, so they do not cause wear or damage. This means there are no sparks or noise. The lack of contact helps them last longer. It also reduces problems from water, oil, or dirt on the sensor.

Some proximity sensors use spring-loaded pistons, probes, and buttons. These devices touch objects to find where they are and to sense movement. Proximity sensors work well in areas with water or oil.

Proximity sensors have many uses. They can tell when objects are close by. They are used in industries like aviation, aerospace, and manufacturing. You can also find them in hotels, restaurants, garages, automatic doors, and hot air blowers.

For security, they help stop theft. They protect places like accounting offices, museums, vaults, and data archives. They are also used in measurement technology to check length and position. They also help in control systems. They measure movement, speed, and acceleration.

6.**Smoke Sensors**

Smoke sensors find smoke from fires and quickly send alarms. A microcontroller (MCU) controls them. It checks for smoke from fires before sounding alerts.

These sensors are very important in places where there are flammable or explosive risks. With IoT integration, they can report small gas leaks or fires to the right teams. This helps stop serious accidents.