Smart antenna system using microelectromechanically tunable dipole antennas and photonic bandgap materials

Assignee

• Hughes Aircraft Company · US

Inventors

• Juan F. Lam · Craydon Court, US
• Gregory L. Tangonan · Oxnard, US
• Richard L. Abrams · Santa Monica, US

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH01H59/0009
• WIPO fieldTelecommunications
• WIPO sectorElectrical engineering

Abstract

An antenna system includes a set of symmetrically located center-fed and segmented dipole antennas embedded on top of a frequency selective photonic bandgap crystal. A two-dimensional array of microelectromechanical (MEM) transmission line switches is incorporated into the dipole antennas to connect the segments thereof. An MEM switch is located at the intersection between any two adjacent segments of the antenna arm. The segments can be connected (disconnected) by operating the switch in the closed (open) position. Appropriate manipulation or programming of the MEM switches will change the radiation pattern, scanning properties and resonance frequency of the antenna array. In addition, an MEM switch is inserted into the crystal to occupy a lattice site in the 3-dimensional crystal lattice. The crystal will have a broadband stopgap if the MEM switch operates in the closed position (perfect symmetry of the crystal), and will produce a narrowband absorption line inside the stopgap if the MEM switch is in the open position, thereby permitting change in real time of the frequency response of the crystal.