Antennas for all Applications-Solution Manual

2-7-1.  Directivity.
2-7-2.  Approximate directivities.
2-7-2.  continued
*2-7-3.  Approximate directivities.
*2-7-3.  continued
*2-7-4.  Directivity and gain.
2-9-1.  Directivity and apertures.
2-9-1.  continued
2-9-2.  Effective aperture and beam area.
*2-9-3.  Effective aperture and directivity.
2-11-1.  Received power and the Friis formula.
2-11-1.  continued
*2-11-2.  Spacecraft link over 100 Mm.
2-11-3.  Spacecraft link over 3 Mm.
2-11-4.  Mars and Jupiter links.
2-11-4.  continued
2-11-4.  continued
*2-11-5.  Moon link.
2-16-1.  Spaceship near moon.
2-16-1.  continued
2-16-2.  More power with CP.
2-16-3.  PV constant for CP.
2-16-3.  continued
*2-16-4.  EP wave power
2-17-1.  Crossed dipoles for CP and other states.
*2-17-2.  Polarization of two LP waves.
2-17-3.  Superposition of two EP waves.
*2-17-4.  Two LP components.
2-17-5.  Two LP components and Poincaré sphere.
*2-17-6.  Two CP waves.
*2-17-6.  continued
*2-17-7.  CP waves.
2-17-8.  EP wave.
*2-17-9.  CP waves.
2-17-10.  EP waves.
2-17-10.  continued
*2-17-11.  CP waves.
*2-17-11.  continued
2-17-12.  Circular-depolarization ratio.
3-4-1.  Alpine-horn antenna.
*3-4-2.  Alpine-horn antenna.
*3-5-2.  Rectangular horn antenna.
*3-5-3.  Conical horn antenna.
Beamwidth and directivity
*4-3-1.  Solar power
4-5-1.  Approximate directivities.
*4-5-2.  Exact versus approximate directivities.
4-5-3.  Directivity and minor lobes.
4-5-3.  continued
4-5-4.  Directivity by integration.
4-5-5.  Directivity.
5-2-4.  Two-source end-fire array.
5-2-8.  Four sources in square array.
5-5-1.  Field and phase patterns.
5-6-5.  Twelve-source end-fire array.
5-6-7.  Twelve-source end-fire with increased directivity.
5-6-9.  Directivity of ordinary end-fire array.
5-6-9.  continued
5-6-10.  Directivity of broadside array.
5-8-1.  Three unequal sources.
5-8-7.  Stray factor and directive gain.
5-8-7.  continued
*5-9-2.  Three-source array.
5-9-2.  continued
R
5-9-4.  Eight source D-T distribution.
*5-18-1.  Two sources in phase.
5-18-2.  Two sources in opposite phase.
*6-2-1.  Electric dipole.
*6-2-2.  Short dipole fields.
*6-2-2.  continued
*6-2-4.  Short dipole quasi-stationary fields.
*6-2-4.  continued
*6-3-1.  Isotropic antenna.  Radiation resistance.
*6-3-2.  Short dipole power.
*6-3-2.  continued
6-3-4.  Short dipole.
*6-3-5.  Conical pattern.
*6-3-5.  continued
6-3-6.  Conical pattern.
*6-3-7.  Directional pattern in and
*6-3-8.  Directional pattern in and
*6-3-9.  Directional pattern with back lobe.
6-3-10.  Short dipole.
6-3-10.  continued
6-3-11.  Relation of radiation resistance to beam area.
*6-3-12.  Radiation resistance.
*6-5-1.  /2 antenna.
6-6-1.  2 antenna.
6-6-1.  continued
6-7-1.  /2 antennas in echelon.
*6-8-1.  1 and 10 antennas with traveling waves.
6-8-2.  Equivalence of pattern factors.
6-8-2.  continued
7-2-1.  Loop and dipole for circular polarization.
7-2-1.  continued
7-4-1.  The 3(/4 diameter loop.
*7-6-1.  Radiation resistance of loop.
Small-loop resistance.
7-7-1.  The (/10 diameter loop.
7-8-1.  Pattern, radiation resistance and directivity of loops.
7-8-1.  continued
*7-8-2.  Circular loop.
*7-9-1.  The 1( square loop.
*7-9-1.  continued
7-9-2.  Small square loop.
8-3-1.  A 10-turn helix.
8-3-2.  A 30-turn helix.
8-3-2.  continued
8-3-3.  Helices, left and right.
*8-8-1.  An 8-turn helix.
*8-11-1.  Normal-mode helix.
*8-11-1.  continued
8-15-1.  Design of quad-helix earth station antenna.
9-2-1.  Two (/2 slots.
*9-5-1.  Boxed-slot impedance.
*9-5-1.  continued
*9-5-2.  Boxed slot.
9-5-3.  Open-slot impedance.
9-7-1.  50 and 100 ( patches.
9-7-3.  Microstrip line.
9-7-3.  continued
*9-9-1.  Optimum horn gain.
*9-9-1.  continued
9-9-2.  Horn pattern.
9-9-2.  continued
9-9-3.  Rectangular horn antenna.
9-9-4.  Conical horn antenna.
9-9-5.  Pyramidal horn.
9-9-5.  continued
10-2-1.  Flat sheet reflector.
10-2-1.  continued
10-3-1.  Square-corner reflector.
10-3-2.  Square-corner reflector.
continued
*10-3-4.  Square-corner reflector.
*10-3-4.  continued
10-3-5.  Square-corner reflector versus array of its image elements.
*10-3-6.  Square-corner reflector array.
*10-3-6.  continued
*10-3-6.  continued
*10-3-6.  continued
10-3-7.  Corner reflector.  (/4 to the driven element.
10-3-8.  Corner reflector.  (/2 to the driven element.
10-3-8.  continued
10-3-8.  continued
*10-7-2.  Parabolic reflector with missing sector.
*11-2-2.  The 2( cone.
11-5-1.  Log spiral.
11-5-1.  continued
R
11-7-1.  Log periodic.
11-7-2.  Stacked LPs.
11-7-2.  continued
11-7-2.  continued
*12-2-1.  Antenna temperature.
*12-2-2.  Earth-station antenna temperature.
*12-3-4.  Satellite TV downlink.
*12-3-5.  System temperature.
*12-3-5.  continued
12-3-6.  System temperature.
*12-3-7.  Solar interference to earth station.
*12-3-7.  continued
*12-3-9.  Critical frequency. MUF.
*12-3-9.  continued
12-3-10.  mUF for Clarke-orbit satellites.
12-3-10.  continued
*12-3-11.  Minimum detectable temperature.
12-3-12.  Minimum detectable temperature.
*12-3-13.  Interstellar wireless link.
*12-3-14.  Backpacking penguin.
*12-3-17.  Low earth orbit communications satellite.
*12-3-17.  continued
*12-3-18.  Direct broadcast satellite (DBS).
*12-3-18.  continued
*12-3-18.  continued
12-3-19.  Simplified expression for C/N.
12-3-22.  Galileo’s uncooperative antenna.
*12-4-1.  Antenna temperature with absorbing cloud.
*12-4-1.  continued
12-4-3.  Forest absorption.
*12-4-4.  Jupiter signals.
12-5-1.  Radar detection
*12-5-3.  RCS of electron.
*12-5-3.  continued
*12-5-5.  Detecting one electron at 10 km.
12-5-6.  Effect of resonance on radar cross section of short dipoles.
12-5-6.  continued
*12-5-12  Fastball velocity.
*12-5-13.  Radar power for fastball measurement.
*12-5-13.  continued
*12-5-14.  Anticollision radar.
*12-5-18.  Police radar.
*12-5-18.  continued
*12-5-20.  Sea clutter.
*12-5-20.  continued
*13-4-1.  A 5(/2 antenna.
13-6-1.  Parallel side-by-side (/2 antennas.
13-6-1.  continued
*13-6-3.  Three side-by-side antennas.
13-8-1.  Two (/2 antennas in echelon.
14-10-1.  Charge distribution.
14-12-2.  (/10 dipole impedance.
*15-3-1.  Pattern smoothing.
15-6-1.  Number of elements.
*16-2-1.  Two (/2-element broadside array.
*16-2-1.  continued
16-3-1.  Two (/2-element end-fire array.
16-3-1.  continued
*16-3-2.  Impedance and gain of 2-element array.
16-4-3.  Two-element array with unequal currents.
16-4-3.  continued
*16-6-1.  Impedance of D-T array.
16-6-3.  Square array.
16-6-3.  continued
*16-6-4.  Seven short dipoles. 4-dB angle.
*16-6-4.  continued
16-6-5.  Square array.
*16-6-7.  Sixteen-source broadside array.
*16-6-7.  continued
*16-6-7.  continued
*16-8-6.  Four-tower broadcast array.
*16-8-6.  continued
16-10-1.  Eight-source scanning array.
16-10-1.  continued
*16-16-1.  Terminated V.  Traveling wave.
*16-16-2.  E-type rhombic.
16-16-3.  Alignment rhombic.
*16-16-4.  Compromise rhombic.
*16-16-4.  continued
16-16-5.  Compromise rhombic.
*16-16-6.  Compromise rhombic.
17-2-1.  Dielectric lens.
R
17-2-1.  continued
17-3-1.  Artificial dielectric.
17-3-1.  continued
*17-4-1.  Unzoned metal-plate lens.
*17-4-1.  continued
18-9-1.  Unloaded tripole.
18-9-2.  Four-Legged loaded element.
continued
*19-1-3.  Efficiency of rectangular aperture with partial taper.
*19-1-4.  Efficiency of rectangular aperture with full taper.
19-1-5.  Efficiency of aperture with phase ripple.
19-1-5.  continued
19-1-5.  continued
E
19-1-5.  continued
*19-1-6.  Rectangular aperture.  Cosine taper.
*19-1-6.  continued
19-1-7.  Rectangular aperture.  Cosine tapers.
19-1-7.  continued
*19-1-8.  A 20( line source.  Cosine-squared taper.
*19-1-8.  continued
21-4-2.  Horizontal dipole above imperfect ground.
21-9-1.  Square loop.
*21-9-3.  DF and monopulse.
*21-9-3.  continued
*21-10-1.  Overland TV for HP, VP and CP.
*21-12-1.  Signaling to submerged submarines.
*21-13-1.  Surface-wave powers.
21-13-2.  Surface-wave powers.
*21-13-3.  Surface-wave power.
*21-13-3.  continued
21-13-4.  Surface-wave current sheet.
*21-13-6.  Coated-surface wave cutoff.
23-3-1.  Balun 200 (, antenna 70 (.
23-3-1.  continued
23-3-1.  continued
23-3-5  Stub impedance.
23-3-5  continued
24-3-1.  Uncertainty of pattern measurement due to reflected wave.
24-3-2.  Range length requirement due to allowed phase curvature.
continued
24-4-1.  Design of elevated range.
24-4-1.  continued
24-4-2.  Time required for near-field scanning.
24-5-1.  Power requirement for certain dynamic range.
24-5-1.  continued
24-5-2.  Gain measurement using three unknown antennas.
24-5-2.  continued
24-5-3.  Gain measurement using celestial radio source.
24-5-4.  Impedance in laboratory.
24-5-4.  continued