1 GHz STW based oscillator with continuous temperature compensation

This paper presents results from a novel 1 GHz temperature compensated oscillator (TCO) featuring a continuous temperature frequency dependence. This work is a further development of the TCO using combined analogue and digital compensation. The major advantage of the TCO, described here, is that the...

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Veröffentlicht in:	IEEE transactions on ultrasonics, ferroelectrics, and frequency control ferroelectrics, and frequency control, 1998-01, Vol.45 (1), p.192-195
1. Verfasser:	Taslakov, M.A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic wave devices, piezoelectric and piezoresistive devices Applied sciences Circuit optimization Electronics Exact sciences and technology Frequency dependence Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Surface acoustic waves Temperature control Temperature dependence Temperature distribution Temperature sensors Tuning Voltage control Voltage-controlled oscillators
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container_end_page	195
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container_title	IEEE transactions on ultrasonics, ferroelectrics, and frequency control
container_volume	45
creator	Taslakov, M.A.
description	This paper presents results from a novel 1 GHz temperature compensated oscillator (TCO) featuring a continuous temperature frequency dependence. This work is a further development of the TCO using combined analogue and digital compensation. The major advantage of the TCO, described here, is that there are no jumps in the temperature frequency dependence which results in a significant improvement of the spectral purity of the output signal. The overall temperature instability is /spl plusmn/1.25 ppm in the temperature range of -30 to +60/spl deg/C.
doi_str_mv	10.1109/58.646924
format	Article
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This work is a further development of the TCO using combined analogue and digital compensation. The major advantage of the TCO, described here, is that there are no jumps in the temperature frequency dependence which results in a significant improvement of the spectral purity of the output signal. The overall temperature instability is /spl plusmn/1.25 ppm in the temperature range of -30 to +60/spl deg/C.</description><identifier>ISSN: 0885-3010</identifier><identifier>EISSN: 1525-8955</identifier><identifier>DOI: 10.1109/58.646924</identifier><identifier>PMID: 18244171</identifier><identifier>CODEN: ITUCER</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Acoustic wave devices, piezoelectric and piezoresistive devices ; Applied sciences ; Circuit optimization ; Electronics ; Exact sciences and technology ; Frequency dependence ; Semiconductor electronics. Microelectronics. Optoelectronics. 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This work is a further development of the TCO using combined analogue and digital compensation. The major advantage of the TCO, described here, is that there are no jumps in the temperature frequency dependence which results in a significant improvement of the spectral purity of the output signal. The overall temperature instability is /spl plusmn/1.25 ppm in the temperature range of -30 to +60/spl deg/C.</description><subject>Acoustic wave devices, piezoelectric and piezoresistive devices</subject><subject>Applied sciences</subject><subject>Circuit optimization</subject><subject>Electronics</subject><subject>Exact sciences and technology</subject><subject>Frequency dependence</subject><subject>Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices</subject><subject>Surface acoustic waves</subject><subject>Temperature control</subject><subject>Temperature dependence</subject><subject>Temperature distribution</subject><subject>Temperature sensors</subject><subject>Tuning</subject><subject>Voltage control</subject><subject>Voltage-controlled oscillators</subject><issn>0885-3010</issn><issn>1525-8955</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1998</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNp90E1LxDAQBuAgiruuHrx6kB5E8VCdyUeTHGXxCwQPrngsaXYWK7vtmrSI_nojW_TmacLkYWZ4GTtEuEAEe6nMRSELy-UWG6PiKjdWqW02BmNULgBhxPZifANAKS3fZSM0XErUOGZTzG7vvrKn2UtWuUjzrI2-Xi5d14bso-5eM982Xd30bR-zjlZrCq7rA6V2ejfRdXXb7LOdhVtGOhjqhD3fXM-md_nD4-399Ooh94Jjl1ec9EJYDcJVWFWFI6dTp5ACwINFEJJ4YRQoQ95W3IJQsnIK55aMAyEm7Gwzdx3a955iV67q6Cld21C6r9RCopEaMMnTfyU3aIRQOsHzDfShjTHQolyHeuXCZ4lQ_mRbKlNusk32eBjaVyua_8khzAROBuCid8tFcI2v46_jiBo0T-xow2oi-v0dlnwD-yWHJQ</recordid><startdate>199801</startdate><enddate>199801</enddate><creator>Taslakov, M.A.</creator><general>IEEE</general><general>Institute of Electrical and Electronics Engineers</general><scope>RIA</scope><scope>RIE</scope><scope>IQODW</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SP</scope><scope>8FD</scope><scope>L7M</scope><scope>7X8</scope></search><sort><creationdate>199801</creationdate><title>1 GHz STW based oscillator with continuous temperature compensation</title><author>Taslakov, M.A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c321t-b2e7f39703ab1bb6aea7e7f64300c091034e2685058ec9b290354ba51d9e8a033</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1998</creationdate><topic>Acoustic wave devices, piezoelectric and piezoresistive devices</topic><topic>Applied sciences</topic><topic>Circuit optimization</topic><topic>Electronics</topic><topic>Exact sciences and technology</topic><topic>Frequency dependence</topic><topic>Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices</topic><topic>Surface acoustic waves</topic><topic>Temperature control</topic><topic>Temperature dependence</topic><topic>Temperature distribution</topic><topic>Temperature sensors</topic><topic>Tuning</topic><topic>Voltage control</topic><topic>Voltage-controlled oscillators</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Taslakov, M.A.</creatorcontrib><collection>IEEE All-Society Periodicals Package (ASPP) 1998-Present</collection><collection>IEEE Electronic Library (IEL)</collection><collection>Pascal-Francis</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Electronics & Communications Abstracts</collection><collection>Technology Research Database</collection><collection>Advanced Technologies Database with Aerospace</collection><collection>MEDLINE - Academic</collection><jtitle>IEEE transactions on ultrasonics, ferroelectrics, and frequency control</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Taslakov, M.A.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>1 GHz STW based oscillator with continuous temperature compensation</atitle><jtitle>IEEE transactions on ultrasonics, ferroelectrics, and frequency control</jtitle><stitle>T-UFFC</stitle><addtitle>IEEE Trans Ultrason Ferroelectr Freq Control</addtitle><date>1998-01</date><risdate>1998</risdate><volume>45</volume><issue>1</issue><spage>192</spage><epage>195</epage><pages>192-195</pages><issn>0885-3010</issn><eissn>1525-8955</eissn><coden>ITUCER</coden><abstract>This paper presents results from a novel 1 GHz temperature compensated oscillator (TCO) featuring a continuous temperature frequency dependence. This work is a further development of the TCO using combined analogue and digital compensation. The major advantage of the TCO, described here, is that there are no jumps in the temperature frequency dependence which results in a significant improvement of the spectral purity of the output signal. The overall temperature instability is /spl plusmn/1.25 ppm in the temperature range of -30 to +60/spl deg/C.</abstract><cop>New York, NY</cop><pub>IEEE</pub><pmid>18244171</pmid><doi>10.1109/58.646924</doi><tpages>4</tpages></addata></record>
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subjects	Acoustic wave devices, piezoelectric and piezoresistive devices Applied sciences Circuit optimization Electronics Exact sciences and technology Frequency dependence Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Surface acoustic waves Temperature control Temperature dependence Temperature distribution Temperature sensors Tuning Voltage control Voltage-controlled oscillators
title	1 GHz STW based oscillator with continuous temperature compensation
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