Microstrip Patch Antennas: A Designer’s Guide, Softcover reprint of hardcover 1st ed. 2003

Author:

Language: English

242.64 €

In Print (Delivery period: 15 days).

Add to cartAdd to cart
Microstrip Patch Antennas: A Designer's Guide
Publication date:
421 p. · 15.5x23.5 cm · Paperback

242.64 €

Subject to availability at the publisher.

Add to cartAdd to cart
Microstrip patch antennas
Publication date:
421 p. · 15.6x23.4 cm · Hardback

This useful tool provides the reader with a current overview of where microstrip patch antenna technology is at, and useful information on how to design this form of radiator for their given application and scenario. Practical design cases are provided for each goal.

Acknowledgements. 1: Introduction; R. Waterhouse. 1.1. History. 1.2. Advantages and Issues. 1.3. Applications. 1.4. Summary of Book. 1.5. Bibliography. 2: Fundamental Properties of Single Layer Microstrip Patch Antennas; R. Waterhouse, D. Novak, D.-K. Park, Y. Qian, T. Itoh. 2.1. Introduction. 2.2. General Theory of Operation and Design Tools. 2.3. The Effect of Conductor Shape. 2.4. Impedance and Radiation Performance of Single Layer Patches. 2.5. Excitation Methods of Microstrip Patches. 2.6. Circular Polarization Generation. 2.7. Summary. 2.8. Bibliography. 3: Enhancing the Bandwidth of Microstrip Patch Antennas; R. Waterhouse, J.T. Aberle, D. M. Kokotoff, A. Mitchell, M. Lech, S.D. Targonski, M. Lye, F. Zavosh, K. Ghorbani, D. Novak, A. Nirmalathas, C. Lim. 3.1. Introduction. 3.2. Intuitive Procedures. 3.3. Horizontally Coupled Parasitic Patches. 3.4. Stacked Patches. 3.5. Large Slot Excited Patches. 3.6. Aperture Stacked Patches. 3.7. Ultra-wideband ASPs. 3.8. Summary. 3.9. Bibliography. 4: Improving the Efficiency of Microstrip Patch Antennas; R. Waterhouse, D. Pavlickovski, D. M. Kokotoff, J.T. Aberle. 4.1. Introduction. 4.2. Surface Waves. 4.3. Patches that do not Excite TM Surface Waves. 4.4. Hi-lo Stacked Patches. 4.5. Photonic Band-gap Structures. 4.6. Summary. 4.7. Bibliography. 5: Small Microstrip Patch Antennas; R. Waterhouse, H.K. Kan, D.M. Kokotoff, S.D. Targonski, J.T. Rowley, D. Pavlickovski. 5.1. Introduction. 5.2. Shorted Microstrip Patches. 5.3. Further Size Reduction Techniques for Shorted Patches. 5.4. Winged Shorted Patch. 5.5. Shorted Spiral Patches. 5.6. Improving the Performances of Shorted Microstrip Patches. 5.7. Performance of Shorted Microstrip Patch Antennas for Mobile Communications Handsets at 1800 MHz. 5.8. Summary. 5.9. Bibliography. 6: Direct Integration of Microstrip Antennas; R. Waterhouse, W.S.T. Rowe, D. Novak, A. Nirmalathas, C. Lim. 6.1. Overview for Requirernents for Integration. 6.2. Slot Coupled Procedures and Solutions. 6.3. Direct Contact Procedures and Solutions. 6.4. Summary. 6.5. Bibliography. 7: Microstrip Patch Arrays; R. Waterhouse, K. Ghorbani, W.S.T. Rowe, S.D. Targonski, L. Mali, H.K. Kan, D. Novak, A. Nirmalathas, C. Lim. 7.1. Introduction. 7.2. Series Fed Arrays. 7.3. Parallel Fed Arrays. 7.4. Combination Fed Arrays. 7.5. Large Scanned Arrays of Microstrip Patches. 7.6. Alternatives to Large Arrays of Microstrip Patches. 7.7. Wraparound Patch Antenna Arrays. 7.8. Summary. 7.9. Bibliography. 8: Summary; R. Waterhouse. 8.1. Overview. 8.2. Future Directions of Microstrip Patch Technology. 8.3. Bibliography. List of Contributors.