Encoders and measuring systems
Our catalogue features a wide selection of high-quality encoders and measuring elements. We offer both new and used encoders and measuring elements, all at an attractive price and with a long warranty period. We also offer the repair of these devices. If you have not found the device you were looking for, please ask us about it.
Sensors and pressure transducers
Pressure sensors and transmitters are devices that are used to measure pressure in various industrial and laboratory applications. Pressure is the force acting on a unit area and is measured in pascals (Pa) or multiples thereof, such as hectopascals (hPa) or kilopascals (kPa).
Pressure sensors are devices that directly measure pressure and transmit it to a control or monitoring system. Depending on the application, pressure sensors can operate on different principles, such as:
Electrical: in this case, the pressure is converted into an electrical signal, which is then processed by an electronic control system.
Mechanical: in this case, the pressure is converted into a mechanical movement, which is used to measure the pressure.
Acoustic: in this case, the pressure is converted into a sound wave, which is used to measure the pressure.
Pressure transducers are devices that convert pressure into an electrical signal that can be processed by a control or monitoring system. Pressure transducers are often used in applications where a pressure signal needs to be processed, such as process control.
Depending on the type of signal to be processed, pressure transducers can be classified as analog or digital. Analog transducers generate an analog signal that is proportional to the pressure being measured. Digital transducers generate a digital signal that is processed by a computer system.
Pressure sensors and transmitters are widely used in various industries, such as chemical, food, medical, automotive and many others. When selecting a suitable pressure sensor or transmitter, it is important to consider the operating conditions and measurement accuracy requirements.
Encoders
Encoders, i.e. rotation angle encoders, allow you to determine the number of turns and the exact angular position. The parameter characterizing the encoder is the number of pulses per revolution. Based on measurements, we divide them into absolute and incremental encoders.
Linear encoders
Rulers are used to determine the displacement of machine elements, speed and direction of this shift. They are used in the production of precision mechanical components. We distinguish between photoelectric, inductive, magnetic and capacitive lines.
The heads are an element that moves along the measuring scale and has scanning elements.
Sensors
Sensors and sensors are elements that provide information about a given device or object. We distinguish sensors: inductive, capacitive, laser, photoelectric, mechanical and limit sensors. Measurements performed by sensors include temperature, distance, pressure, presence, among others. Measurement can be performed by varying the voltage, resistance or capacitance.
Different sensors
Force sensors and load cells
Optical fibre sensors
Sensors and pressure transducers
Light sensors
Flow sensors
Particle sensors
Pyroelectric infrared flame sensors
Proximity sensors
Sensor accessories
Current sensors
Environmental sensors
Optical interrupters
Liquid level sensors
Temperature sensors
Cables, wires, plugs, connectors
Wires, cables, tapes
Feeder cables
Cables for industrial robots
Communication wires
Connection tapes
Other wires
Plugs, connectors, adapters, sockets
Inclination sensors
Motion and position detectors
Vibration and shock sensors
Magnetic sensors
Ultrasonic sensors
Optical sensors
Others
Measurement devices are the basic equipment in modern industrial automation. Thanks to the measurements, we can easily determine the parameters of a given machine or product, which translates into the efficiency and accuracy of a given device. This category includes measuring systems and devices, e.g. sensors, scales, testers, and strips.
Resolvers
Resolvers are used to measure the angle, during rotation a voltage proportional to the position of the rotor is generated. The resolver is similar to a small electric motor.
Tachogenerators
Tachogenerators measure rotational speed by means of permanent magnet excitation, they do not require additional power supply. Tachogenerators (also called tachometric generators) create an AC voltage signal. This signal is proportional to the rotational speed of the propeller shaft.