Electrostatically actuated non-latching and latching RF-MEMS switch
First Claim
1. A radio-frequency MEMS switch, comprising:
- an armature connected to a planar substrate via a main return spring and a plurality of contact head support springs;
a shunt contact head that includes a primary shunt contact and a plurality of spring-loaded sacrificial contacts, wherein said shunt contact head serves as a primary contact to bridge a stationary input electrode and a stationary output electrode; and
an actuator formed on said planar substrate capable of moving said armature and said shunt contact head, wherein said actuator is actuated so that said primary shunt contact comes into direct mechanical contact with said stationary input electrode and said stationary output electrode to close circuit as long as said actuator is powered.
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Accused Products
Abstract
An RF MEMS switch apparatus includes a planar substrate and an electrostatic actuator formed thereon. The electrostatic actuator includes two sets of interdigitated comb which is capable of moving an armature and a shunt contact head. The armature can be connected to the substrate through a main return spring and one or more contact head support springs. The shunt contact head includes a primary shunt contact and one or more spring-loaded sacrificial contacts. The shunt contact head can serve as a primary contact to bridge a stationary input electrode and an output electrode. The switch is off in a relaxed position and when actuated the primary shunt contact comes into direct mechanical contact with the stationary input electrode and the stationary output electrode. The switch remains closed as long as the actuator is powered and the springs return the armature to the relaxed position when the power is removed.
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Citations
15 Claims
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1. A radio-frequency MEMS switch, comprising:
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an armature connected to a planar substrate via a main return spring and a plurality of contact head support springs; a shunt contact head that includes a primary shunt contact and a plurality of spring-loaded sacrificial contacts, wherein said shunt contact head serves as a primary contact to bridge a stationary input electrode and a stationary output electrode; and an actuator formed on said planar substrate capable of moving said armature and said shunt contact head, wherein said actuator is actuated so that said primary shunt contact comes into direct mechanical contact with said stationary input electrode and said stationary output electrode to close circuit as long as said actuator is powered. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A radio-frequency MEMS switch, comprising:
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an armature connected to a substrate via a main return spring and a plurality of contact head support spring, wherein said substrate comprises a silicon-on-insulator wafer; a shunt contact head that includes a primary shunt contact and a plurality of spring-loaded sacrificial contacts, wherein said shunt contact head serves as a primary contact to bridge a stationary input electrode and a stationary output electrode; and an actuator formed on said substrate capable of moving said armature and said shunt contact head, wherein said actuator is actuated so that said primary shunt contact comes into direct mechanical contact with said stationary input electrode and said stationary output electrode to close circuit as long as said actuator is powered.
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12. A radio-frequency MEMS switch, comprising:
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an armature connected to a planar substrate via a main return spring and a plurality of contact head support springs; a shunt contact head that includes a primary shunt contact and a plurality of spring-loaded sacrificial contacts, wherein said shunt contact head serves as a primary contact to bridge a stationary input electrode and a stationary output electrode; an actuator formed on said planar substrate capable of moving said armature and said shunt contact head, wherein said actuator comprises at least one electrostatic actuation mechanism; a moving comb associated with said actuator and mechanically connected to said armature; and a stationary comb associated with said actuator and connected to said substrate, wherein said actuator is actuated so that said primary shunt contact comes into direct mechanical contact with said stationary input electrode and said stationary output electrode to close circuit as long as said actuator is powered. - View Dependent Claims (13, 14, 15)
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Specification