Sensor technology is widely used across various fields today. There is a diverse range of sensors with different features tailored to specific needs. As technology advances, the variety of sensors has also expanded significantly. Among the most prominent brands in the field of sensors is Panasonic. Therefore, Panasonic sensors are among the most commonly used options.

In English, the word “sense” translates to “perceive” or “feel” in Turkish. The term “sensor” means a device that detects or measures something. This term is derived from the concepts of perceiving and feeling. Among the most advanced sensor brands, Panasonic stands out for its exceptional features.

How Sensors Work

A sensor is a device that converts physical input or information into an output movement. It plays a role in converting signals from the energy field to the electrical field.

Sensors are devices that detect and transmit information about the conditions in an environment or the status of another device. They sense and detect changes in events or quantities and provide output accordingly.

Sensors are used to detect optical signals and electrical measurements and respond to them. A sensor’s readings are influenced by environmental factors such as humidity, temperature, light, movement, pressure, or various other environmental conditions. The output information is typically a signal that can be displayed on a screen, read, or electronically transmitted over a network for further processing.

Panasonic sensors offer a wide range of IO-Link products.

Types of Sensors

Today, there is a vast array of sensors available, each with its own specific functions. These sensor types include:

• Ultrasonic Sensors: These non-contact devices are used to measure the presence, distance, and speed of an object. The speed of the object is measured based on the nature of the sound wave. Ultrasonic sensors are commonly used in car washes and automotive assembly.
• Touch Sensors: These sensors are activated by touch. Touch sensors are frequently used in water facilities, home appliances, and electronic devices.
• Temperature Sensors: Temperature is one of the most measured environmental factors for various reasons. There are many types of temperature sensors with different features, including Resistance Temperature Detectors (RTDs), Thermocouples, Thermistors, and semiconductor temperature sensors. Temperature sensors are used in applications such as HVAC systems, computers, automobiles, and industrial processes.
• Infrared (IR) Sensors: Also known as infrared sensors, these light-based sensors are used in proximity and object detection applications. They are commonly used in robots, mobile phones, assembly lines, and automotive applications for proximity sensing.
• Proximity Sensors: These non-contact sensors detect the presence of an object approaching them. Proximity sensors use various techniques such as Hall effect, ultrasonic, capacitive, and optical (infrared or laser). They are used in applications such as parking sensors in cars, automation in windows and doors, measuring approach distances in aviation, providing alerts in emergency situations, and monitoring machine vibrations in industrial settings.