June 09, 2022

Nidec Corporation (TSE: 6594; OTC US: NJDCY) (the “Company” or “Nidec”) announced today that it and Nidec Sankyo Corporation have jointly developed an AC servo motor (resolution: 17bit) equipped with Zignear®, the position detection technology that can be applied to industrial robots and replace encoders.

Zignear®-equipped AC servo motor

This motor:

  • Uses a similar number of components to a magnetic encoder, with similar location detection and tracking capabilities of an optical encoder;
  • Boasts the maximum accuracy in mechanical angles for location detection errors (less than ±0.02°)*;
  • Can operate similarly to a conventional 17bit‐AC servo motor (demonstrated in a system test with a Zignear-equipped motor to drive an automated guided vehicle (AGV));
  • Is of an identical shape to a conventional magnetic encoder, making replacements between the two easy;
  • Uses a general-purpose microcomputer to accommodate a wide variety of output formats, including the ABZ phase output that is outputted by an optical encoder, and formats common in magnetic encoders, such as serial
  • Is intended for industrial robots and AGVs among others.

An encoder, which is a sensor used to detect the rotation of a brushless DC motor mainly, is essential in adjusting a motor to an intended location, and keeping its rotation consistent. Conventionally, a brushless DC motor has required an encoder, as it has been difficult to detect its accurate location due to the “inconsistency” in the magnetic sensor, or the installation of a hall sensor and sensitivity in particular. Now, however, after developing an algorithm that corrects such inconsistency, Nidec has successfully improved the location detection accuracy with the use of general-purpose microcomputers.

Despite its high accuracy and capability to operate in a strong magnetic field, an optical encoder tends to become larger in proportion to its accuracy, requiring precise positioning. This is why an optical encoder tends to be costly due to its code wheel and other components, and installation cost, and to deteriorate in an environment full of dust, oil, etc. Meanwhile, a magnetic encoder operates even in a dusty environment, and is cost-competitive as it works with a relatively inexpensive IC chip, but the encoder’s accuracy is lower than that of an optical counterpart. Nidec’s Zignear®, which requires as small a number of components (only a hall sensor and a general-purpose microcomputer) as does a magnetic encoder, uses software to maintain location detection and tracking capabilities that are equal to those of an optical encoder.

Going forward, in the fields of industrial robot and mobility system that are becoming increasingly innovative and diverse, Zignear®-equipped AC servo motors will contribute to meeting the needs for high-level accuracy, diverse forms of communication, and replacing conventional products.

Website on Zignear®, the location detection technology:

https://www.nidec.com/cn/technology/capability/zignear/

Zignear® is Nidec Corporation’s registered trademark in Japan and China.
*The position accuracy at room temperature under specific conditions

Cautionary Statement Concerning Forward-Looking Information

This press release contains forward-looking statements regarding the intent, belief, strategy, plans or expectations of the Nidec Group or other parties. Such forward-looking statements are not guarantees of future performance or events and involve risks and uncertainties. Actual results may differ materially from those described in such forward-looking statements as a result of various factors, including, but not limited to, the risks to successfully integrating the acquired business with the Nidec Group, the anticipated benefits of the Transaction not being realized, changes in general economic conditions, shifts in technology or user preferences for particular technologies and changes in business and regulatory environments. The Nidec Group does not undertake any obligation to update the forward-looking statements contained herein or the reasons why actual results could differ from those projected in the forward-looking statements except as may be required by law.