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Integrated antennas on organic packa...
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Amadjikpe, Arnaud L.
Integrated antennas on organic packages and cavity filters for millimeter-wave and microwave communications systems.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Integrated antennas on organic packages and cavity filters for millimeter-wave and microwave communications systems.
作者:
Amadjikpe, Arnaud L.
面頁冊數:
179 p.
附註:
Source: Dissertation Abstracts International, Volume: 74-04(E), Section: B.
附註:
Adviser: Ioannis John Papapolymerou.
Contained By:
Dissertation Abstracts International74-04B(E).
標題:
Engineering, Electronics and Electrical.
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3533121
ISBN:
9781267768858
Integrated antennas on organic packages and cavity filters for millimeter-wave and microwave communications systems.
Amadjikpe, Arnaud L.
Integrated antennas on organic packages and cavity filters for millimeter-wave and microwave communications systems.
- 179 p.
Source: Dissertation Abstracts International, Volume: 74-04(E), Section: B.
Thesis (Ph.D.)--Georgia Institute of Technology, 2012.
Driven by the ever growing consumer wireless electronics market and the need for higher speed communications, the 60-GHz technology gifted with an unlicensed 9 GHz frequency band in the millimeter-wave (mm-wave) spectrum has emerged as the next-generation Wi-Fi for short-range wireless communications. High-performance, cost-effective, and small form-factor 60-GHz antenna systems for portable devices are key enablers of this technology. This work presents various antenna architectures built on low-cost organic packages. Planar end-fire switched beam antenna modules that can easily conform to various surfaces inside a wireless device platform are developed. The planar antenna package is realized on thin flexible LCP dielectrics. One design is based on a planar Yagi-Uda antenna element and the second on a tapered slot antenna element. A low-loss microstrip-to-slot via transition is designed to provide wide impedance matching for end-fire antenna paradigms. The novel transition utilizes the slow-wave concept to provide unbalanced to balanced mode conversion as well as impedance matching. It is demonstrated that the planar antenna packages may be even integrated with active circuits that are cavity recessed inside the thin dielectric. A compact switched-beam antenna module is developed to fit into a 10 mm x 10 mm x 0.1 mm package, with a bandwidth larger than 55-67 GHz, and a 19 dBi active peak gain (7 dBi passive). The first-ever integrated mm-wave active antenna module on organic package capable of generating both broadside and end-fire radiation is also developed in this work. Both broadside and end-fire radiators are co-designed and integrated into a single multilayer package to achieve optimal directivity, efficiency and frequency bandwidth and yet maintain excellent isolation between the two radiators. Post-wall cavities, image theory and dielectric slab modes concepts are invoked to optimize these functions. Active circuitry is integrated into the same package to add control functions such as beam switching, and also amplify the packaged-antenna gain when operated either as a transmitter or a receiver. The versatile multilayer integration approach that is presented paves the way to smart high-performance mm-wave antenna systems and yet cost-effective owing to the low manufacturing costs of the combined IC/antenna package.
ISBN: 9781267768858Subjects--Topical Terms:
226981
Engineering, Electronics and Electrical.
Integrated antennas on organic packages and cavity filters for millimeter-wave and microwave communications systems.
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Source: Dissertation Abstracts International, Volume: 74-04(E), Section: B.
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Driven by the ever growing consumer wireless electronics market and the need for higher speed communications, the 60-GHz technology gifted with an unlicensed 9 GHz frequency band in the millimeter-wave (mm-wave) spectrum has emerged as the next-generation Wi-Fi for short-range wireless communications. High-performance, cost-effective, and small form-factor 60-GHz antenna systems for portable devices are key enablers of this technology. This work presents various antenna architectures built on low-cost organic packages. Planar end-fire switched beam antenna modules that can easily conform to various surfaces inside a wireless device platform are developed. The planar antenna package is realized on thin flexible LCP dielectrics. One design is based on a planar Yagi-Uda antenna element and the second on a tapered slot antenna element. A low-loss microstrip-to-slot via transition is designed to provide wide impedance matching for end-fire antenna paradigms. The novel transition utilizes the slow-wave concept to provide unbalanced to balanced mode conversion as well as impedance matching. It is demonstrated that the planar antenna packages may be even integrated with active circuits that are cavity recessed inside the thin dielectric. A compact switched-beam antenna module is developed to fit into a 10 mm x 10 mm x 0.1 mm package, with a bandwidth larger than 55-67 GHz, and a 19 dBi active peak gain (7 dBi passive). The first-ever integrated mm-wave active antenna module on organic package capable of generating both broadside and end-fire radiation is also developed in this work. Both broadside and end-fire radiators are co-designed and integrated into a single multilayer package to achieve optimal directivity, efficiency and frequency bandwidth and yet maintain excellent isolation between the two radiators. Post-wall cavities, image theory and dielectric slab modes concepts are invoked to optimize these functions. Active circuitry is integrated into the same package to add control functions such as beam switching, and also amplify the packaged-antenna gain when operated either as a transmitter or a receiver. The versatile multilayer integration approach that is presented paves the way to smart high-performance mm-wave antenna systems and yet cost-effective owing to the low manufacturing costs of the combined IC/antenna package.
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Air traffic control radars usually require cavity filters that can handle high power and low in-band insertion loss while providing enough out-band rejection to prevent interference with neighboring channels. Such radars that operate in the S-band consist of filter banks with switching devices at the filter bank I/O to select individual filters that cover individual channels. Although this approach guarantees performance within each channel, the main drawback is a resulting bulky filter bank. This is the main motivation for replacing such filter banks with a single frequency reconfigurable filter capable of tuning its frequency between channels and, ideally, meeting all required specifications throughout every channel. The first topic in this section is the development of a frequency tunable cavity filter using contact radio frequency micro electromechanical systems (RF-MEMS) switches. Evanescent-mode mode cavity resonators are loaded with RF-MEMS tuning capacitance networks to control the resonant frequency of a second-order bandpass filter. The reported quality factor of this filter is between 315-460 with 1.1-2.1 dB in-band insertion loss in the 2.96-3 GHz frequency range. The second part is the design of a novel cavity filter architecture for enhanced selectivity near the passband. It is a second-order folded cavity resonator bandpass filter with magnetic source-load cross coupling. This filter can have at least two finite transmission zeros near the passband that increase its selectivity while maintaining better than 0.65 dB insertion loss at 2.94 GHz in a 1 dB bandwidth of 1.15%. The source-load cross coupling is achieved with proximity coupled coaxial probe connectors. A theoretical analysis of the concept of magnetic source-load cross coupling is derived based on the admittance transfer function of the filter. Variable capacitance networks utilizing RF-MEMS switches can eventually be integrated with this novel filter architecture to achieve frequency tuning between multiple channels. (Abstract shortened by UMI.)
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