For us, precision isn’t just a feature—it’s the foundation. We specialize exclusively in high-performance rotary sensors because accuracy and reliability are mission-critical in the industries we serve.
Whether it’s aerospace, automotive, medical devices, or advanced manufacturing, even the smallest deviation can lead to costly errors or compromised safety.
That’s why we engineer both standard and custom sensor solutions designed to withstand demanding conditions while delivering consistent, repeatable measurements.
When precision matters, Everight Position delivers.
The MR340-1 DIN Rail Mount Controller is the active optical and electrical interface for the MR340 Series ZapFREE Fiber Optic Incremental Encoder System. The system is an innovative all-optical design immune to any electromagnetic interferences such as magnetic fields, lightning, voltage, and other harsh environment conditions.
As the incremental code passes through an MR34X Sensors internal optical pick-up, the phase output of two
light beams creates the classical A/B quadrature signals accessible via the controllers electrical interface.
The controller keeps track of position and also calculates the RPM and speed of the connected encoder Both position and speed can be read via RS485 Modbus RTU serial interface, USB, SSI or analog output. The analog output can be configured for either ±10V or 4-20mA output.
POSITAL encoders with CANopen and SAE J1939 interfaces support a wide variety of applications, from industrial automation to mobile machinery. For 2D/3D drawings of specific encoders please contact Everight Position.
Netzer VLP encoders are ideal for a wide variety of applications such as medical robots, defense and gimbals in vision systems. Featuring an open frame, 2 plate design, the sensor is lightweight, highly tolerant to temperature, shock, EMI, RFI and magnetic fields. It offers a unique combination of high performance at an economical cost.
Netzer VLP-247 offer a unique blend of high accuracy (6 mdeg) and large through-hole at an affordable price. They are ideal for defense applications and gimbals in vision systems. Featuring an open frame, 2 plate design, the sensor is lightweight, highly tolerant to temperature, shock, EMI, RFI and magnetic fields. It offers a unique combination of high performance at an economical cost.
Navigating encoder options can feel overwhelming, but with some guidance, the task becomes manageable. By beginning with the mechanical aspects and progressively addressing the electronics and communication protocols, we can systematically narrow down the choices to find the perfect solution.
Coveted for high-precision applications, these sensors rely on intricate light patterns to discern rotation, proving invaluable in scenarios where meticulous details matter most. Their application extends to industries where accuracy is non-negotiable.
These sensors leverage magnetic fields for detection and are particularly valued for their low cost, yet robustness in challenging environments. Recent advancements in TMR technology continue to close the performance gap with other technologies.
Utilizing the electrical property of capacitance to detect changes in rotary position, capacitive sensors are known for their lightweight, compact size, high accuracy and low power consumption. High immunity to EMI noise allows for close proximity to drives and brakes.
Inductive sensors operate on the same electromagnetic induction principle as a resolver but use PCB traces rather than coil windings. These sensors are very robust, as the rotor and stator can be potted in an epoxy-resin, offering protection against water, mud, dirt and other contaminants.
In these critical fields, our sensors are integral to mission success. They deliver exact measurements for flight control, satellite positioning, navigation, and weapon systems. Durability and precision define our rotational position sensors and rotary shaft encoders, ensuring reliability under the demanding conditions of defense and aerospace operations.
Our sensors streamline production and improve operational efficiency in manufacturing. They are crucial for precision tasks such as assembly line automation, conveyor speed control, and CNC machine alignment. Supporting Industry 4.0 initiatives, they enable smarter, interconnected manufacturing processes where precision and speed are key.
In robotics, our sensors enhance the precision and efficiency of industrial applications, including material handling and welding. In the burgeoning field of surgical robotics, they provide the control and accuracy necessary for delicate medical procedures, directly impacting patient outcomes. These applications underscore the role of our sensors in advancing both industrial and medical robotic technologies.
60% of our projects involve customizing existing encoders to meet specific client requirements. This extensive experience allows us to offer solutions that are not only technically sound but also cost-effective and timely.
