Abstract:
A traveling-wave design technique for microstrip series arrays is discussed. The technique is applicable to both resonant and nonresonant array configurations. Experiment...Show MoreMetadata
Abstract:
A traveling-wave design technique for microstrip series arrays is discussed. The technique is applicable to both resonant and nonresonant array configurations. Experimental results for both configurations are presented.
Published in: IEEE Transactions on Antennas and Propagation ( Volume: 29, Issue: 1, January 1981)
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Radiation Pattern ,
- Sidelobe ,
- Microstrip Antenna ,
- Array Of Resonators ,
- Dielectric Constant ,
- Phase Shift ,
- Phase Difference ,
- Phase Velocity ,
- Ground Plane ,
- Line Length ,
- Circularly Polarized ,
- Substrate Material ,
- Impedance Matching ,
- Insertion Loss ,
- Element Spacing ,
- Radiation Loss ,
- Feed Line ,
- Feed Point ,
- Voltage Standing Wave Ratio ,
- Series Configuration ,
- Theoretical Directions ,
- Input Admittance ,
- Radiation Elements ,
- Resonant Elements ,
- Polarization Of Radiation
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Radiation Pattern ,
- Sidelobe ,
- Microstrip Antenna ,
- Array Of Resonators ,
- Dielectric Constant ,
- Phase Shift ,
- Phase Difference ,
- Phase Velocity ,
- Ground Plane ,
- Line Length ,
- Circularly Polarized ,
- Substrate Material ,
- Impedance Matching ,
- Insertion Loss ,
- Element Spacing ,
- Radiation Loss ,
- Feed Line ,
- Feed Point ,
- Voltage Standing Wave Ratio ,
- Series Configuration ,
- Theoretical Directions ,
- Input Admittance ,
- Radiation Elements ,
- Resonant Elements ,
- Polarization Of Radiation
