Binghamton University researchers design a more durable MEMS switch

Jan. 4, 2019

The new type of microelectromechanical system—more commonly known as a MEMS switch—can extend the life of cellphones and make power lines more reliable.

BINGHAMTON, NY—Researchers from Binghamton University’s Mechanical Engineering Department have developed a way to make cellphones and power lines more durable. Assistant Professor Sherry Towfighian and graduate student Mark Pallay created a new type of microelectromechanical system—more commonly known as a MEMS switch—that uses electrostatic levitation to provide a more robust system.

“All cellphones use MEMS switches for wireless communication, but traditionally there are just two electrodes,” said Towfighian. “Those switches open and close numerous times during just one hour, but their current lifespan is limited by the two-electrode system.”

She wanted to create a system that avoids the damage altogether. Instead of following the two-electrode model, she designed a MEMS switch with three electrodes on the bottom and one electrode parallel to the others. The two bottom electrodes on the right and left side are charged while the middle and top electrodes are grounded.

“This type of MEMS switch is normally closed, but the side electrodes provide a strong upward force that can overcome the forces between the two middle electrodes and open the switch,” explained Towfighian. This force, called electrostatic levitation, is currently not available with the two-electrode system. The ability to generate this force prevents permanent damage of the device after continuous use and enables a reliable bi-directional switch.

“For cellphones, this design means longer life and fewer component replacements,” said Towfighian. “For power lines, this type of MEMS switch would be useful when voltage goes beyond a limit and we want to open the switch. The design allows us to have more reliable switches to monitor unusual spikes in voltage, like those caused by an earthquake, that can cause danger to public safety.”

The study titled “A reliable MEMS switch using electrostatic levitation” was published on Nov. 20, 2018, in Applied Physics Letters. It was funded by the National Science Foundation’s Division of Electrical, Communications and Cyber Systems (ECCS) grant #1608692.

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