Yaskawa

Motoman Teach Pendants And More

Yaskawa Motoman, an American subsidiary of Yaskawa Electric Corporation, was founded in 1989 and since then have been able to get over 380,000 industrial robots, 10 million servos, and 18 million drives into automation systems around the world. Robots are the wave of the future and Yaskawa Motoman is at the top of this market. Using an automated robotic system in your work space will allow you to free up many other costs and resources that may not have been available before.  The key to efficiency is simplicity and using  Motoman Teach Pendants to give instructions to your robot makes that possible.

Teach Pendants are non-tethered devices that allow your robot to be controlled remotely. These devices are crucial for industrial robotics as they are not only used for assigning operations but they are able to edit commands, emergency stop commands, and even view past operations. Motoman Teach Pendants are split between the older models(ERC, XRC, MRC) and the newer models(DX and NX Series’).

The older models such as the MRC, which came out in 1994, were able to increase the workload of an industrial robot by up to 300%. This was also the first time ever that a single teach pendant was able to control two robots at the same time. Four years later when the XRC model was released, it was a huge improvement as Motoman was able to add control of more axes and even up its synchronous control of two robots to four industrial robots.

Later in 2004, the NX series of controllers was released. These devices featured Windows CE with a high-power processor, back-lit color touchscreen, built-in ethernet, and a huge amount of memory. A single teach pendant can control up to 36 axes and 4 separate robots. It’s Advanced Robot Motion control allows for the most accurate results. For information about the DX series, please visit one of our previous blog posts featuring the DX200 controller and Yaskawa’s new ArcWorld project.

Brian Hughes

Brian Hughes is a passionate electrical and content developer for MRO Electric. His main interests are in analog circuit design and solid state physics. Brian's professional background includes working on power system designs for commercial and industrial projects.

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