These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
eYc’s core professional calibration laboratory, include temperature and humidity, dew point, air velocity, flow rate, pressure. All of our calibration laboratory certified by TAF.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Proximity Sensors use high-frequency oscillation. They resist heat, chemicals, and water better than Rectangular Sensors. They are available in both shielded and unshielded models.
These Ultrasonic waves used to enable stable detection of transparent objects, such as transparent films, glass bottles, plastic bottles, and plate glass, using Through-beam or Reflective Sensors
Absolute Encoders output the rotational angle using an absolute code. The rotational position can be detected by reading the code. This eliminates the need to return to the origin at startup.
Pressure Sensors detect the pressure of liquids and gases, and Flow Sensors detect the flow rate of liquids. It detect, measure, analyze, it also contribute to predicting and preventing future events.
The R103 sensors are the first devices of their kind to offer an end-to-end solution in a small single standard design – from thru-beam sensor through to a distance measurement device.
The narrow miniature thru-beam sensors are a small and cost-effective solution, fitting in virtually any door frame. The ML29 & ML30 series offer fast, reliable detection at a distance of up to 8.5 m.
The ML100 series is characterized by its miniature housing with integral, all-metal threaded bushings. The switching states are easily visible from all directions thanks to the highly visible LEDs.
The ML100 series is characterized by its miniature housing with integral, all-metal threaded bushings. The switching states are easily visible from all directions thanks to the highly visible LEDs.
Series 39 sensors are characterized by their high performance level, compact housing design, and variety of available versions. The sensors are supplied with 10 V to 30 V DC, or 24 V to 240 V AC/DC
Series 31 is a range of cost-effective and, most importantly, reliable photoelectric sensors for standard applications. These sensors are currently the most compact “wide range power supply sensors”
Series 29 is a range of low-cost and, most importantly, reliable photoelectric sensors for monitoring industrial doors, elevators, and automatic gates. It can be operated with any supply voltage
It is essential that fire is not allowed to spread in buildings should it break out. Fire protection regulations therefore prescribe fire barriers. These include fire doors, industrial fire doors
The GLV/GLK18 series sensors help improve the efficiency of machines and systems. The design of the M18 plastic housing, the connection technology, and sensor properties are highly standardized.
The BB10 plug-in sensors for doors & turnstiles offer top performance at an extremely attractive price. The switching mechanism is integrated in the compact, self-contained & temperaturestable housing
In through-beam photoelectric sensing, also known as opposed mode, the transmitter & emitter are in separate housings. It is the most efficient sensing mode which results in the longest sensing ranges
The Bamo’s product KPI pressure switch enables to trigger an alarm signal & allows regulation between two thresholds. It has a change-over contact which switches according the settings.
Danfoss is an engineering company that provides many kinds of engineering products, such as; pressure sensors, switches, transmitter, valves, pumps, radiator, differential pressure, and many more.
The pressure transmitter MBS 1900 is designed for use in air and water applications like Booster Pumps and Air Compressors. Pressure ranges in relative (gauge) or absolute from 0 – 25 bar.
OEM pressure transmitter programme is designed for use in hydraulic applications. The programme consists of two series: MBS 1200 (without integrated pulse-snubber), MBS 1250 (with integrated pulse-snubber)
The DST P92S OEM pressure transmitter is designed for use in Mobile and Industrial hydraulic applications. The transmitter is suitable for use in a functional safety environment.
Danfoss Sensor Technology (DST) P40I pressure transmitter has been designed for use in corrosive industrial environments such as desalination systems, sea water cooling, waste water, etc.
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