Our technological genes are deeply rooted in the field of motor drive, and we have been continuously developing advanced sensor solutions for speed and position detection (commutation) applications in various motor drive systems for over a decade. We have the ability to provide customized and exclusive solutions for our customers individually.

Most manufacturers are using robots instead of manual labor to transport wafers, which has become one of the operational priorities in semiconductor manufacturing. As the core component of robots, the encoder's repeatability accuracy is always a primary consideration. The repetition accuracy of the magnetic encoder can reach ultra-high resolution, and its performance can keep the device in a very stable state for a long time.

Whether it is the speed and position feedback of turbine wind turbines or the key control systems of new energy vehicles, advanced encoder systems play a crucial role in the efficient and stable operation of related equipment.

The advanced encoder system, with its ultra-high resolution, excellent repeat positioning accuracy, and outstanding anti-interference ability, provides strong guarantees for the more accurate and stable operation of laser equipment in production and processing.

In the solar energy industry, photovoltaic power generation equipment, heliostat equipment, and dish type Stirling power generation systems all require magnetic encoders to control height and azimuth. Encoders play a precise control role in controlling height and azimuth of photovoltaic equipment.

Absolute value encoder is an excellent solution for speed and position feedback of wind turbine generators.

The application of encoders on machine tools includes a wide variety of power driven machines that can process metal or other material workpieces into the desired shape. Therefore, the requirement for machine tool encoders is to be able to handle extremely high working speeds while providing the best accuracy. The CNC machining field has strict requirements for positioning accuracy, resolution, and operating speed, and advanced encoder systems can meet the strict requirements for control systems in this field.

Advanced encoder systems have many advantages such as low energy consumption, ultra-high resolution, high protection level, anti-interference, high repeat positioning accuracy, and fast operating speed, providing excellent solutions for traditional mechanical industry control systems.

The widespread use of automated machines in the printing industry means that linear and rotary encoders have great potential. Printing and binding technologies, such as transfer printing, overprinting, direct plate making, inkjet printing, binding, and printing Post processing requires high feed rates, precise alignment, and collaboration of multiple machine axes. The magnetic grid encoder can provide reliable motion control feedback for all of these operations. The working environment in the printing industry is relatively clean, but encoders may also be exposed to dust, ink, and other contaminants He is contaminated with pollutants. Due to the use of non-contact magnetic induction technology, the encoder and grating can ensure reliable operation in the printing workshop, and are easy to clean and maintain.

The absolute value encoder system is characterized by its ultra-high resolution, excellent operational stability, and ultra long period encoding length. It has played a crucial role in the large-scale production and application of energy storage devices such as lithium batteries.

Encoders have a wide range of applications in the medical field, from sample processing robots in laboratories, position adjustment of patient examination tables, rotation speed and position control of CT scanner gantry frames, to surgical robots, and so on.

Both the production and application of virtual camera equipment and smart home appliances rely on the repeated and efficient positioning and control of advanced encoder systems. Our excellent encoder system has been widely applied throughout the entire process from research and development to production in 3C.

The encoder supports high-precision and high repeatability camera positioning in virtual reality technology. The presentation quality of VR technology greatly depends on the camera position data, so as to achieve perfect synchronization between virtual elements and real elements during live streaming. This is why in order to achieve the best results, camera supporting devices must rely on encoders with high precision and high repeatability.

The position encoder is one of the key components for robot position, direction, and motion control. Magnetic positive non-contact magnetic encoders provide excellent performance, system safety, and stability for robot applications.

For the autonomous mobile robot (AMR) industry, advanced encoder systems can provide various design models and industry standard output options, and have been known for their easy installation and reliable operation for many years.

In order to keep the camera horizontal on all axes when the photographer moves it, the balance frame is usually driven by a brushless motor. An inertial measurement unit responds to motion and uses a certain algorithm to drive a motor to stabilize the camera. This stabilization system can detect the difference between meaningful motion (such as translating and pulling the lens) and unexpected camera shaking.

For the Automated Guided Vehicle (AGV) industry, encoders can provide excellent position feedback functionality. Due to its non-contact working mode, the encoder operates very reliably, and due to its protection level reaching IP67, it can also be applied in dusty environments.

Irrigation systems, plows, cultivators, seeders, and other planting machinery utilize advanced sensor solutions. To ensure optimal crop development, reliable yield, and excellent quality, while reducing the use of pesticides and fertilizers, the demand for precision control and automation in the field of agricultural machinery will continue to grow in the future.