MEMS switches are one of the most promising future micromachined products that have attracted numerous research efforts in recent years. The majority of MEMS switches reported to date employ electrostatic actuation, which requires large actuation voltages. Few are lateral relays and those often require nonstandard post process, and none of them is intended for high-frequency applications. We have developed an electrothermally actuated lateral-contact microrelay for RF applications. It is designed and fabricated on both low-resistivity and high-resistivity silicon substrate using surface micromachining techniques. The microrelay utilizing the parallel six-beam actuator requires an actuation voltage of 2.5-3.5 V. Time response is measured to ...