Mode distinction and radiation-efficiency analysis of planar leaky-wave line source

Using the first microstrip-line higher order mode as an example, mode distinction and radiation efficiency of leaky-wave line sources in the radiation region are presented in this paper. The spectral-domain approach is used to calculate complex power flows, leaving the line source in the transverse directions and those guided down the line source. By observing the behavior of these complex power flows in different frequency regions, the leaky-wave line source can be distinguished into the antenna mode and the reactive mode in the radiation region. Experimental results are shown to confirm this mode distinction. Moreover, by comparing the power carried away by the surface and the space waves, radiation efficiency of the first microstrip-line higher order mode of various structural parameters is analyzed. The microstrip line is more efficient as a leaky-wave line source when its substrate is thin, the dielectric constant of the substrate is low, and the antenna main beam is away from the end-fire direction.

[1]  D. P. Nyquist,et al.  Identification of propagation regimes on integrated microstrip transmission lines , 1993 .

[2]  R. Mittra,et al.  Spectral-Domain Approach for Calculating the Dispersion Characteristics of Microstrip Lines (Short Papers) , 1973 .

[3]  A. A. Oliner,et al.  A Novel Phased Array of Printed-Circuit Leaky-Wave Line Sources , 1987, 1987 17th European Microwave Conference.

[4]  E. Yamashita,et al.  Space wave leakage from higher order modes on various planar transmission line structures , 1994, 1994 IEEE MTT-S International Microwave Symposium Digest (Cat. No.94CH3389-4).

[5]  Tzyy-Sheng Horng,et al.  A generalized method for distinguishing between radiation and surface-wave losses in microstrip discontinuities , 1990 .

[6]  Rolf H. Jansen,et al.  Spectral Domain Investigation of Surface Wave Excitation and Radiation by Microstrip Lines and Microstrip Disk Resonators , 1983, 1983 13th European Microwave Conference.

[7]  W. Menzel,et al.  A New Travelling Wave Antenna in Microstrip , 1978, 1978 8th European Microwave Conference.

[8]  D. M. Pozar,et al.  Full-wave spectral-domain computation of material, radiation, and guided wave losses in infinite multilayered printed transmission lines , 1991 .

[9]  Mikio Tsuji,et al.  Guidance and Leakage Properties of Offset Groove Guide , 1987, 1987 IEEE MTT-S International Microwave Symposium Digest.

[10]  J. M. Grimm,et al.  Spectral analysis considerations relevant to radiation and leaky modes of open-boundary microstrip transmission line , 1993 .

[11]  A. A. Oliner,et al.  The Nature of the Leakage from Higher Modes on Microstrip Line , 1986, 1986 IEEE MTT-S International Microwave Symposium Digest.

[12]  Jyh-Wen Sheen,et al.  Analysis and design of feeding structures for microstrip leaky wave antenna , 1995, IMS 1995.

[13]  T. Itoh Numerical techniques for microwave and millimeter-wave passive structures , 1989 .

[14]  Arthur A. Oliner,et al.  Leakage from higher modes on microstrip line with application to antennas , 1987 .