| Type of Document |
Dissertation |
| Author |
Cheung, Chun Tung
|
| Author's Email Address |
lawrence AT wavestreamwireless.com |
| URN |
etd-05192003-161134 |
| Persistent URL |
http://resolver.caltech.edu/CaltechETD:etd-05192003-161134 |
| Title |
Waveguide packaging of quasi-optical grid amplifiers |
| Degree |
PhD |
| Option |
Electrical Engineering |
| Advisory Committee |
| Advisor Name |
Title |
| David B. Rutledge |
Committee Chair |
| Ali Hajimiri |
Committee Member |
| Jim Rosenberg |
Committee Member |
| Kerry Vahala |
Committee Member |
| William B. Bridges |
Committee Member |
|
| Keywords |
- Grid Amplifiers
- Quasi-Optical
|
| Date of Defense |
2003-03-20 |
| Availability |
unrestricted |
Abstract
Quasi-optical amplifiers combining the output powers of hundreds of transistors have demonstrated the capability to deliver more than 10 Watts of power at millimeter wave frequencies. However, these amplifiers are large and expensive to manufacture. In this work, we attempt to find a compact, low-cost approach using metallic waveguide to package a grid amplifier. This thesis details the design and implementation of a grid amplifier packaged in waveguide. Frequency and time-domain simulation methods are used to calculate the field flatness and the small signal gain of the amplifier. Four different active grids packaged in waveguide will be reported. The first grid, operating at Ka-band, is fed with a waveguide and radiates its output into free space. The amplifier chip design was previously measured in free-space. This work demonstrates a small signal gain of 7 dB with output power of 5.5 W at 3-dB compression. The performance is similar to the same grid design measured in free-space. A second Ka-band grid amplifier packaged in waveguide for both input and output gives a small signal gain of 6 dB. The 3-dB compressed output power is 670 mW while the same amplifier measured in free-space gave 1.2 W output power. In order to further verify our active grid and packaging design methods, a V-band single-stage monolithic grid amplifier was designed and fabricated. A transmission grid amplifier and a reflection grid amplifier using this chip were fabricated. Both amplifiers have 2 dB small-signal gain at 58 GHz. In order to increase small-signal gain, a two-stage monolithic grid amplifier was designed and fabricated. A reflection approach was used to package this chip. Measured small-signal gain was 2.7 dB at 82 GHz.
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| Files |
| Filename |
Size |
Approximate Download Time
(Hours:Minutes:Seconds)
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| 28.8 Modem |
56K Modem |
ISDN (64 Kb) |
ISDN (128 Kb) |
Higher-speed Access |
| |
final_master.pdf |
5.04 Mb |
00:23:20 |
00:12:00 |
00:10:30 |
00:05:15 |
00:00:26 |
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