Slot Waveguide Antenna Design Average ratng: 4,1/5 3909 votes
This is the first comprehensive treatment of slotted waveguide array antennas from an engineering perspective. It provides readers with a thorough foundation in applicable theories as well as hands-on instruction for practical analysis and design of important types of waveguide slot arrays.'Slotted Waveguide Array Antennas' goes beyond some of the commonly discussed topics and ventures into areas that include: higher order mode coupling and edge effects; performance optimization in terms of bandwidth and pattern performance; special slot excitation methods; applications such as monopulse and phase steering; and manufacturing tolerances.With specific examples of waveguide array designs accompanied by detailed illustrations and antenna characteristics and many applications, this is a must-have reference for engineers involved in the design and development of slotted waveguide arrays. Additional value is provided by a thorough overview of the related literature in the field and the introductory chapters include the history of these antennas.
Waveguide Antenna Design
How a Waveguide Antenna Works. Slotted antenna arrays used with waveguides are a popular antenna in navigation, radar and other high-frequency systems. A waveguide is a very low loss transmission line. It allows to propagate signals to a number of smaller antennas (slots). Each of these slots allows a little of the energy to radiate. In this video I build a 2.4GHz waveguide out of aluminium tubing. The methods of construction are much the same as the smaller 5.8GHz slot but I also go over. Substrate Integrated Waveguide Horn Slot Antenna Array Saritha Muguti University of Mississippi Follow this and additional works at: Part of the Engineering Commons Recommended Citation Muguti, Saritha, 'Substrate Integrated Waveguide Horn Slot Antenna Array' (2011). Electronic Theses and Dissertations.
Slot Waveguide Antenna Design Tutorial
This is the first comprehensive treatment of slotted waveguide array antennas from an engineering perspective. It provides readers with a thorough foundation in applicable theories as well as hands-on instruction for practical analysis and design of important types of waveguide slot arrays.'Slotted Waveguide Array Antennas' goes beyond some of the commonly discussed topics and ventures into areas that include: higher order mode coupling and edge effects; performance optimization in terms of bandwidth and pattern performance; special slot excitation methods; applications such as monopulse and phase steering; and manufacturing tolerances.With specific examples of waveguide array designs accompanied by detailed illustrations and antenna characteristics and many applications, this is a must-have reference for engineers involved in the design and development of slotted waveguide arrays. Additional value is provided by a thorough overview of the related literature in the field and the introductory chapters include the history of these antennas.
The design of a multi-slots waveguide antenna requires determining the slots’ geometric dimensions and their location in a waveguide dependent on the excitation amplitude distribution of equivalent feeding slots. Such antennas can be analyzed by various methods.