Surface acoustic wave devices with low loss and high frequency operation

This thesis describes an industrial research project carried out in collaboration with STC Components, Harlow, Essex. Technical and market trends in the use of surface acoustic wave (SAW) devices are reviewed. As a result, three areas not previously addressed by STC were identified: lower insertion...

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Main Author: Oliver, Trevor N.
Published: Aston University 1989
Subjects:
534
Online Access:http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.330303
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spelling ndltd-bl.uk-oai-ethos.bl.uk-3303032017-04-20T03:28:36ZSurface acoustic wave devices with low loss and high frequency operationOliver, Trevor N.1989This thesis describes an industrial research project carried out in collaboration with STC Components, Harlow, Essex. Technical and market trends in the use of surface acoustic wave (SAW) devices are reviewed. As a result, three areas not previously addressed by STC were identified: lower insertion loss designs, higher operating frequencies and improved temperature dependent stability. A review of the temperature performance of alternative lower insertion loss designs,shows that greater use could be made of the on-site quartz growing plant. Data is presented for quartz cuts in the ST-AT range. This data is used to modify the temperature performance of a SAW filter. Several recently identified quartz orientations have been tested. These are SST, LST and X33. Problems associated with each cut are described and devices demonstrated. LST quartz, although sensitive to accuracy of cut, is shown to have an improved temperature coefficient over the normal ST orientation. Results show that its use is restricted due to insertion loss variations with temperature. Effects associated with split-finger transducers on LST-quartz are described. Two low-loss options are studied, coupled resonator filters for very narrow bandwidth applications and single phase unidirectional transducers (SPUDT) for fractional bandwidths up to about 1%. Both designs can be implemented with one quarter wavelength transducer geometries at operating frequencies up to 1GHz. The SPUDT design utilised an existing impulse response model to provide analysis of ladder or rung transducers. A coupled resonator filter at 400MHz is demonstrated with a matched insertion loss of less than 3.5dB and bandwidth of 0.05%. A SPUDT device is designed as a re-timing filter for timing extraction in a long haul PCM transmission system. Filters operating at 565MHz are demonstrated with insertion losses of less than 6dB. This basic SPUDT design is extended to a maximally distributed version and demonstrated at 450MHz with 9.8dB insertion loss.534Electrical EngineeringAston Universityhttp://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.330303http://publications.aston.ac.uk/8083/Electronic Thesis or Dissertation
collection NDLTD
sources NDLTD
topic 534
Electrical Engineering
spellingShingle 534
Electrical Engineering
Oliver, Trevor N.
Surface acoustic wave devices with low loss and high frequency operation
description This thesis describes an industrial research project carried out in collaboration with STC Components, Harlow, Essex. Technical and market trends in the use of surface acoustic wave (SAW) devices are reviewed. As a result, three areas not previously addressed by STC were identified: lower insertion loss designs, higher operating frequencies and improved temperature dependent stability. A review of the temperature performance of alternative lower insertion loss designs,shows that greater use could be made of the on-site quartz growing plant. Data is presented for quartz cuts in the ST-AT range. This data is used to modify the temperature performance of a SAW filter. Several recently identified quartz orientations have been tested. These are SST, LST and X33. Problems associated with each cut are described and devices demonstrated. LST quartz, although sensitive to accuracy of cut, is shown to have an improved temperature coefficient over the normal ST orientation. Results show that its use is restricted due to insertion loss variations with temperature. Effects associated with split-finger transducers on LST-quartz are described. Two low-loss options are studied, coupled resonator filters for very narrow bandwidth applications and single phase unidirectional transducers (SPUDT) for fractional bandwidths up to about 1%. Both designs can be implemented with one quarter wavelength transducer geometries at operating frequencies up to 1GHz. The SPUDT design utilised an existing impulse response model to provide analysis of ladder or rung transducers. A coupled resonator filter at 400MHz is demonstrated with a matched insertion loss of less than 3.5dB and bandwidth of 0.05%. A SPUDT device is designed as a re-timing filter for timing extraction in a long haul PCM transmission system. Filters operating at 565MHz are demonstrated with insertion losses of less than 6dB. This basic SPUDT design is extended to a maximally distributed version and demonstrated at 450MHz with 9.8dB insertion loss.
author Oliver, Trevor N.
author_facet Oliver, Trevor N.
author_sort Oliver, Trevor N.
title Surface acoustic wave devices with low loss and high frequency operation
title_short Surface acoustic wave devices with low loss and high frequency operation
title_full Surface acoustic wave devices with low loss and high frequency operation
title_fullStr Surface acoustic wave devices with low loss and high frequency operation
title_full_unstemmed Surface acoustic wave devices with low loss and high frequency operation
title_sort surface acoustic wave devices with low loss and high frequency operation
publisher Aston University
publishDate 1989
url http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.330303
work_keys_str_mv AT olivertrevorn surfaceacousticwavedeviceswithlowlossandhighfrequencyoperation
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