Chapter 12 / 12.15
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12.15 REVISION QUESTIONS
- What is meant by an isotropic radiator? Why is it useful as a reference, even though it does not physically exist?
- Define and distinguish between: gain, directivity, radiation resistance, and antenna efficiency.
- What is meant by effective aperture? How is it related to antenna gain?
- State the reciprocity theorem and explain its significance in antenna analysis.
- Explain the difference between reactive near field, radiating near field, and far field regions. Why are most antenna parameters defined in the far field?
- Describe how a half-wave dipole is formed from an open-circuited transmission line. Why does it radiate?
- Why is the physical length of a resonant half-wave dipole slightly less than λ/2?
- Explain the image principle as applied to a quarter-wave monopole over a ground plane.
- Define radiation resistance and loss resistance. Derive the expression for antenna efficiency in terms of RR and RL.
- Why does antenna length influence radiation efficiency?
- Why must the feeder impedance match the antenna input impedance? What are the consequences of mismatch?
- Define antenna bandwidth. How is it typically specified in practice?
- Explain the relationship between antenna Q and fractional bandwidth.
- How does increasing conductor diameter affect antenna bandwidth? Why?
- Explain the principle of operation of a multiband trap dipole. How does the effective electrical length change with frequency?
- What distinguishes a resonant antenna from a travelling-wave antenna?
- Why are travelling-wave antennas generally broadband?
- Compare the operational characteristics of: a long-wire antenna, a rhombic antenna, and a terminated sloping-V antenna
- Describe the radiation pattern of a small loop antenna. Why does it exhibit ambiguity in direction finding?
- How does a sense antenna resolve directional ambiguity in loop-based direction-finding systems?
- How does a reflector increase the directivity of an antenna?
- Explain the principle of beam steering in a phased-array antenna.
- What is meant by amplitude tapering? How does it affect sidelobe levels and gain?
- Describe the trade-offs between: beamwidth, directivity, sidelobe level, efficiency.
- What is spatial selectivity? How does it improve system performance?
- Explain how multibeam antennas enable spatial frequency reuse.
- Distinguish between spatial selectivity (beamforming) and spatial multiplexing (MIMO).
- What is beam shaping? Describe two methods by which it can be achieved.
- Why is sidelobe suppression important in communication systems?
- Explain why antenna height affects radiation pattern and take-off angle for ground-based systems.
- Discuss the trade-offs involved in shortening an antenna using loading coils.
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