Compact and Broadband Microstrip Antennas

本書では、現代のコンパクトで広帯域なマイクロストリップアンテナ設計に必要な設計技術とテストデータが包括的にまとめてあります。100以上の先進的なマイクロストリップアンテナの設計とその実験結果が紹介され、その中には著名なアンテナ研究者の最新設計も含まれています。各章では、まず基礎的な説明から入り、アンテナタイプをコンパクトマイクロストリップアンテナと、ブロードバンドマイクロストリップアンテナに大別して分かりやすく説明しています。

Preface.

1. Introduction and Overview.

1.1 Introduction.

1.2 Compact Microstrip Antennas.

1.3 Compact Broadband Microstrip Antennas.

1.4 Compact Dual-Frequency Microstrip Antennas.

1.5 Compact Dual-Polarized Microstrip Antennas.

1.6 Compact Circularly Polarized Microstrip Antennas.

1.7 Compact Microstrip Antennas with Enhanced Gain.

1.8 Broadband Microstrip Antennas.

1.9 Broadband Dual-Frequency and Dual-Polarized Microstrip Antennas.

1.10 Broadband and Dual-Band Circularly Polarized Microstrip Antennas.

2. Compact Microstrip Antennas.

2.1 Introduction.

2.2 Use of a Shorted Patch with a Thin Dielectric Substrate.

2.3 Use of a Meandered Patch.

2.4 Use of a Meandered Ground Plane.

2.5 Use of a Planar Inverted-L Patch.

2.6 Use of an Inverted U-Shaped or Folded Patch.

3. Compact Broadband Microstrip Antennas.

3.1 Introduction.

3.2 Use of a Shorted Patch with a Thick Air Substrate.

3.2.1 Probe-Fed Shorted Patch or Planar Inverted-F Antenna (PIFA).

3.2.2 Aperture-Coupled Shorted Patch.

3.2.3 Microstrip-Line-Fed Shorted Patch.

3.2.4 Capacitively Coupled or L-Probe-Fed Shorted Patch.

3.3 Use of Stacked Shorted Patches.

3.4 Use of Chip-Resistor and Chip-Capacitor Loading Technique.

3.4.1 Design with a Rectangular Patch.

3.4.2 Design with a Circular Patch.

3.4.3 Design with a Triangular Patch.

3.4.4 Design with a Meandered PIFA.

3.5 Use of a Slot-Loading Technique.

3.6 Use of a Slotted Ground Plane.

4. Compact Dual-Frequency and Dual-Polarized Microstrip Antennas.

4.1 Introduction.

4.2 Some Recent Advances in Regular-Size Dual-Frequency Designs.

4.2.1 Dual-Frequency Operation with Same Polarization Planes.

4.2.2 Dual-Frequency Operation with Orthogonal Polarization Planes.

4.2.3 Dual-Frequency Feed Network Designs.

4.3 Compact Dual-Frequency Operation with Same Polarization Planes.

4.3.1 Design with a Pair of Narrow Slots.

4.3.2 Design with a Shorted Microstrip Antenna.

4.3.3 Design with a Triangular Microstrip Antenna.

4.4 Compact Dual-Frequency Operation.

4.4.1 Design with a Rectangular Microstrip Antenna.

4.4.2 Design with a Circular Microstrip Antenna.

4.4.3 Design with a Triangular Microstrip Antenna.

4.5 Dual-Band or Triple-Band PIFA.

4.6 Compact Dual-Polarized Designs.

4.6.1 Design with a Slotted Square Patch.

4.6.2 Design with a Slotted Ground Plane.

4.6.3 Design with a Triangular Patch.

5. Compact Circularly Polarized Microstrip Antennas.

5.1 Introduction.

5.2 Designs with a Cross-Slot of Unequal Arm Lengths.

5.3 Designs with a Y-Shaped Slot of Unequal Arm Lengths.

5.4 Designs with Slits.

5.4.1 With a Slit.

5.4.2 With a Pair of Slits.

5.4.3 With Four Inserted Slits.

5.5 Designs with Spur Lines.

5.6 Designs with Truncated Corners.

5.6.1 With a Triangular Patch.

5.6.2 With a Square-Ring Patch.

5.6.3 With a Triangular-Ring Patch.

5.6.4 With a Slotted Square Patch.

5.7 Designs with Peripheral Cuts.

5.8 Designs with a Tuning Stub.

5.8.1 With a Circular Patch.

5.8.2 With a Square-Ring Patch.

5.8.3 With a Triangular Patch.

5.9 Designs with a Bent Tuning Stub.

5.10 Compact CP Designs with an Inset Microstrip-Line Feed.

6. Compact Microstrip Antennas with Enhanced Gain.

6.1 Introduction.

6.2 Compact Microstrip Antennas with High-Permittivity Superstrate.

6.2.1 Gain-Enhanced Compact Broadband Microstrip Antenna.

6.2.2 Gain-Enhanced Compact Circularly Polarized Microstrip Antenna.

6.3 Compact Microstrip Antennas with Active Circuitry.

7. Broadband Microstrip Antennas.

7.1 Introduction.

7.2 Use of Additional Microstrip Resonators.

7.3 Microstrip Antennas with an Air Substrate.

7.3.1 Design with a Modified Probe Feed.

7.3.2 Design with a U-Slotted Patch.

7.3.3 Design with an E-Shaped Patch.

7.3.4 Design with a Three-Dimensional V-Shaped Patch.

7.4 Broadband Slot-Loaded Microstrip Antennas.

7.4.1 Design with a Rectangular Patch.

7.4.2 Design with a Circular Patch.

7.5 Broadband Microstrip Antennas with an Integrated Reactive Loading.

7.5.1 Design with a Rectangular Patch.

7.5.2 Design with a Circular Patch.

7.5.3 Design with a Bow-Tie Patch.

7.5.4 Design with a Triangular Patch.

7.6 Broadband Microstrip Antennas with Reduced Cross-Polarization Radiation.

8. Broadband Dual-Frequency and Dual-Polarized Microstrip Antennas.

8.1 Introduction.

8.2 Broadband Dual-Frequency Microstrip Antennas.

8.2.1 A Two-Element Microstrip Antenna.

8.2.2 A Three-Dimensional V-Shaped Microstrip Antenna.

8.3 Broadband Dual-Polarized Microstrip Antennas.

8.3.1 Use of Two Aperture-Coupled Feeds.

8.3.2 Use of a Gap-Coupled Probe Feed and an H-Slot Coupled Feed.

8.3.3 Use of an L-Strip Coupled Feed and an H-Slot Coupled Feed.

9. Broadband and Dual-Band Circularly Polarized Microstrip Antennas.

9.1 Introduction.

9.2 Broadband Single-Feed Circularly Polarized Microstrip Antennas.

9.3 Broadband Two-Feed Circularly Polarized Microstrip Antennas.

9.3.1 Use of Two Gap-Coupled Probe Feeds with a Wilkinson Power Divider.

9.3.2 Use of Two Capacitively Coupled Feeds with a Wilkinson Power Divider.

9.3.3 Use of Two Capacitively Coupled Feeds with a Branch-Line Coupler.

9.4 Broadband Four-Feed Circularly Polarized Microstrip Antennas.

9.5 Dual-Band Circularly Polarized Microstrip Antennas.

9.5.1 A Probe-Fed Circular Patch with Two Pairs of Arc-Shaped Slots.

9.5.2 A Probe-Fed Square Patch with a Center Slot and Inserted Slits.

9.5.3 A Probe-Fed Stacked Elliptic Patch.

Index.