okplazas.com Pepperl+Fuchs encoder original authentic brand trusted by industrial control friends

Our common encoders can basically be divided into two categories: absolute type and incremental type. P+F Pepperl+Fuchs encoders are generally a dedicated series of products. There are special encoders for elevators, special encoders for machine tools, special encoders for servo motors, etc. Pepperl+Fuchs encoders are all intelligent, and there are various parallel interfaces to communicate with other equipment.

Pepperl+Fuchs encoder

Pepperl+Fuchs encoders are widely used in non-contact rotation position detection, automotive steering wheel position detection, and even smart robots. The P+F Pepperl+Fuchs incremental encoder is usually used. The output pulse signal of the rotary Pepperl+Fuchs encoder can be directly input to the PLC, and the high-speed counter of the PLC is used to count the pulse signal to obtain the measurement result. P+F Pepperl+Fuchs encoders are not only used in electromechanical equipment, but also in the technology industry. It has a wide range of applications in non-contact rotation position detection, robotics, and automobile steering wheel position detection. Usually an incremental encoder is used. The output pulse signal of the rotary encoder can be directly input to the PLC, and the pulse signal of the PLC is counted by the high-speed counter of the PLC to obtain the measurement result. The P+F Pepperl+Fuchs encoder does not need to be memorized, does not need to find a reference position, and does not need to keep counting. Moreover, this product has strong anti-interference ability, high speed, fast response speed, dust-proof, oil-proof, high anti-vibration level, convenient debugging, simple installation, line drive output type, strong anti-interference ability, suitable for long-line output. In the field of industrial automation, it can be used to measure angle, position, speed and angular velocity. By using racks, measuring wheels and constant force opening meters, we can measure linear motion positions.