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PT100/PT1000 resistance temperature sensor

Senyd platinum resistance sensor is a type of temperature sensor that uses the electrical resistance of platinum to measure temperature. Platinum is known for its high resistance to temperature changes and is therefore a popular choice for temperature sensors that require high accuracy and stability.

Platinum resistance sensors work on the principle that the resistance of platinum changes with temperature in a predictable and linear manner. By measuring the resistance of the platinum element, the sensor can accurately determine the temperature of the surrounding environment.

Platinum resistance sensors are commonly used in industrial and scientific applications where precise temperature measurement is critical, such as in laboratories, manufacturing processes, and environmental monitoring. They are known for their high accuracy, stability, and durability, making them a reliable choice for demanding temperature measurement requirements.

Senyd Rotary Encoder

Rotary encoders are required wherever physical quantities such as rotational speed, angle of rotation, velocity or acceleration are to be monitored. In combination with cable pulls, they can also measure linear movements and lengths.

Rotary encoders from Senyd are used in a wide variety of industries—from mechanical and plant engineering to material handling and the renewable energy sector. Whether heavy-duty, offshore or hazardous areas: Senyd offers the right incremental or absolute rotary encoder for all application requirements. 

With Senyd you can reliably record every movement in your application.

Optical vs. Magnetic Scanning

High resolutions can be easily achieved with Senyd optical rotary encoders. A code disk with radial slits is used for this purpose. An LED sends light through the radial slits to a receiver located on the other side of the code disc. The rotation of the disk modulates the light, and the receiver converts it into an electrical signal.

The magnetic rotary encoders from Senyd are particularly robust and therefore ideally suited for use in harsh environments. Due    to energy harvesting, the magnetic absolute rotary encoders do not require an external power supply to save their current position. As a result, they perform reliably even in the event of power failures.