Discrete Signal Moving Target Indicator (MTI)

This final technical report describes an experimental R and D program to apply charge transfer device (CTD) technology to the design and fabrication of a three-pulse MTI, and demonstrate its capabilities in an actual radar system. The specified 50 dB cancellation ratio was achieved. The CTD is a sam...

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Hauptverfasser:	Ludington, D N, Lobenstein, H
Format:	Report
Sprache:	eng
Schlagworte:	Active & Passive Radar Detection & Equipment AMPLITUDE ANALOG TO DIGITAL CONVERTERS BUCKET BRIGADES CANCELLATION CHARGE COUPLED DEVICES CHARGE TRANSFER DEVICES CHIRP CHIRP FILTERS CONTINUOUS AMPLITUDE RANGE CORRELATORS DELAY LINES DIGITAL TO ANALOG CONVERTERS DISCRETE SIGNALS DYNAMIC RANGE ELECTRIC CHARGE Electrical and Electronic Equipment ELIMINATION FEASIBILITY STUDIES FIELD EFFECT TRANSISTORS INFORMATION THEORY INTEGRATED CIRCUITS METAL OXIDE SEMICONDUCTORS MOVING TARGET INDICATORS MULTIPLEXING PULSE COMPRESSION PULSES QUARTZ REPLACEMENT SAMPLED DATA DELAY LINES SAMPLING SIGNAL PROCESSING TRANSFORMATIONS TRANSFORMS
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creator	Ludington, D N Lobenstein, H
description	This final technical report describes an experimental R and D program to apply charge transfer device (CTD) technology to the design and fabrication of a three-pulse MTI, and demonstrate its capabilities in an actual radar system. The specified 50 dB cancellation ratio was achieved. The CTD is a sampled data integrated circuit in which samples are stored and processed as discrete packets of charge. Utilizing a continuous range of amplitude, CTD's eliminate the cost, volume, and power penalties inherent in the A/D and D/A conversion used in digital systems, while retaining the advantages of stability and small size. The design trade-offs necessitated by using devices available at the beginning of the contract, and subsequent limitations are discussed. The present state-of-the-art CTDs would eliminate the need for the multiplexing used for this contract and reduce the hardware by a factor of four. CTD technology offers stable, low cost alternative to MTI design. In addition, signal processing methods such as pulse compression, correlation, chirp z transforms and allied techniques are under investigation and should be considered by the system designer.
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The specified 50 dB cancellation ratio was achieved. The CTD is a sampled data integrated circuit in which samples are stored and processed as discrete packets of charge. Utilizing a continuous range of amplitude, CTD's eliminate the cost, volume, and power penalties inherent in the A/D and D/A conversion used in digital systems, while retaining the advantages of stability and small size. The design trade-offs necessitated by using devices available at the beginning of the contract, and subsequent limitations are discussed. The present state-of-the-art CTDs would eliminate the need for the multiplexing used for this contract and reduce the hardware by a factor of four. CTD technology offers stable, low cost alternative to MTI design. In addition, signal processing methods such as pulse compression, correlation, chirp z transforms and allied techniques are under investigation and should be considered by the system designer.</description><language>eng</language><subject>Active & Passive Radar Detection & Equipment ; AMPLITUDE ; ANALOG TO DIGITAL CONVERTERS ; BUCKET BRIGADES ; CANCELLATION ; CHARGE COUPLED DEVICES ; CHARGE TRANSFER DEVICES ; CHIRP ; CHIRP FILTERS ; CONTINUOUS AMPLITUDE RANGE ; CORRELATORS ; DELAY LINES ; DIGITAL TO ANALOG CONVERTERS ; DISCRETE SIGNALS ; DYNAMIC RANGE ; ELECTRIC CHARGE ; Electrical and Electronic Equipment ; ELIMINATION ; FEASIBILITY STUDIES ; FIELD EFFECT TRANSISTORS ; INFORMATION THEORY ; INTEGRATED CIRCUITS ; METAL OXIDE SEMICONDUCTORS ; MOVING TARGET INDICATORS ; MULTIPLEXING ; PULSE COMPRESSION ; PULSES ; QUARTZ ; REPLACEMENT ; SAMPLED DATA DELAY LINES ; SAMPLING ; SIGNAL PROCESSING ; TRANSFORMATIONS ; TRANSFORMS</subject><creationdate>1974</creationdate><rights>Approved for public release; distribution is unlimited. 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The specified 50 dB cancellation ratio was achieved. The CTD is a sampled data integrated circuit in which samples are stored and processed as discrete packets of charge. Utilizing a continuous range of amplitude, CTD's eliminate the cost, volume, and power penalties inherent in the A/D and D/A conversion used in digital systems, while retaining the advantages of stability and small size. The design trade-offs necessitated by using devices available at the beginning of the contract, and subsequent limitations are discussed. The present state-of-the-art CTDs would eliminate the need for the multiplexing used for this contract and reduce the hardware by a factor of four. CTD technology offers stable, low cost alternative to MTI design. In addition, signal processing methods such as pulse compression, correlation, chirp z transforms and allied techniques are under investigation and should be considered by the system designer.</description><subject>Active & Passive Radar Detection & Equipment</subject><subject>AMPLITUDE</subject><subject>ANALOG TO DIGITAL CONVERTERS</subject><subject>BUCKET BRIGADES</subject><subject>CANCELLATION</subject><subject>CHARGE COUPLED DEVICES</subject><subject>CHARGE TRANSFER DEVICES</subject><subject>CHIRP</subject><subject>CHIRP FILTERS</subject><subject>CONTINUOUS AMPLITUDE RANGE</subject><subject>CORRELATORS</subject><subject>DELAY LINES</subject><subject>DIGITAL TO ANALOG CONVERTERS</subject><subject>DISCRETE SIGNALS</subject><subject>DYNAMIC RANGE</subject><subject>ELECTRIC CHARGE</subject><subject>Electrical and Electronic Equipment</subject><subject>ELIMINATION</subject><subject>FEASIBILITY STUDIES</subject><subject>FIELD EFFECT TRANSISTORS</subject><subject>INFORMATION THEORY</subject><subject>INTEGRATED CIRCUITS</subject><subject>METAL OXIDE SEMICONDUCTORS</subject><subject>MOVING TARGET INDICATORS</subject><subject>MULTIPLEXING</subject><subject>PULSE COMPRESSION</subject><subject>PULSES</subject><subject>QUARTZ</subject><subject>REPLACEMENT</subject><subject>SAMPLED DATA DELAY LINES</subject><subject>SAMPLING</subject><subject>SIGNAL PROCESSING</subject><subject>TRANSFORMATIONS</subject><subject>TRANSFORMS</subject><fulltext>true</fulltext><rsrctype>report</rsrctype><creationdate>1974</creationdate><recordtype>report</recordtype><sourceid>1RU</sourceid><recordid>eNrjZNB1ySxOLkotSVUIzkzPS8xR8M0vy8xLVwhJLEpPLVHwzEvJTE4syS9S0PAN8dTkYWBNS8wpTuWF0twMMm6uIc4euiklmcnxxSWZeakl8Y4uTgYGBiaWhsYEpAG61iYO</recordid><startdate>197410</startdate><enddate>197410</enddate><creator>Ludington, D N</creator><creator>Lobenstein, H</creator><scope>1RU</scope><scope>BHM</scope></search><sort><creationdate>197410</creationdate><title>Discrete Signal Moving Target Indicator (MTI)</title><author>Ludington, D N ; Lobenstein, H</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-dtic_stinet_ADB0004913</frbrgroupid><rsrctype>reports</rsrctype><prefilter>reports</prefilter><language>eng</language><creationdate>1974</creationdate><topic>Active & Passive Radar Detection & Equipment</topic><topic>AMPLITUDE</topic><topic>ANALOG TO DIGITAL CONVERTERS</topic><topic>BUCKET BRIGADES</topic><topic>CANCELLATION</topic><topic>CHARGE COUPLED DEVICES</topic><topic>CHARGE TRANSFER DEVICES</topic><topic>CHIRP</topic><topic>CHIRP FILTERS</topic><topic>CONTINUOUS AMPLITUDE RANGE</topic><topic>CORRELATORS</topic><topic>DELAY LINES</topic><topic>DIGITAL TO ANALOG CONVERTERS</topic><topic>DISCRETE SIGNALS</topic><topic>DYNAMIC RANGE</topic><topic>ELECTRIC CHARGE</topic><topic>Electrical and Electronic Equipment</topic><topic>ELIMINATION</topic><topic>FEASIBILITY STUDIES</topic><topic>FIELD EFFECT TRANSISTORS</topic><topic>INFORMATION THEORY</topic><topic>INTEGRATED CIRCUITS</topic><topic>METAL OXIDE SEMICONDUCTORS</topic><topic>MOVING TARGET INDICATORS</topic><topic>MULTIPLEXING</topic><topic>PULSE COMPRESSION</topic><topic>PULSES</topic><topic>QUARTZ</topic><topic>REPLACEMENT</topic><topic>SAMPLED DATA DELAY LINES</topic><topic>SAMPLING</topic><topic>SIGNAL PROCESSING</topic><topic>TRANSFORMATIONS</topic><topic>TRANSFORMS</topic><toplevel>online_resources</toplevel><creatorcontrib>Ludington, D N</creatorcontrib><creatorcontrib>Lobenstein, H</creatorcontrib><creatorcontrib>GENERAL ELECTRIC CO UTICA NY AEROSPACE ELECTRONIC SYSTEMS DEPT</creatorcontrib><collection>DTIC Technical Reports</collection><collection>DTIC STINET</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Ludington, D N</au><au>Lobenstein, H</au><aucorp>GENERAL ELECTRIC CO UTICA NY AEROSPACE ELECTRONIC SYSTEMS DEPT</aucorp><format>book</format><genre>unknown</genre><ristype>RPRT</ristype><btitle>Discrete Signal Moving Target Indicator (MTI)</btitle><date>1974-10</date><risdate>1974</risdate><abstract>This final technical report describes an experimental R and D program to apply charge transfer device (CTD) technology to the design and fabrication of a three-pulse MTI, and demonstrate its capabilities in an actual radar system. The specified 50 dB cancellation ratio was achieved. The CTD is a sampled data integrated circuit in which samples are stored and processed as discrete packets of charge. Utilizing a continuous range of amplitude, CTD's eliminate the cost, volume, and power penalties inherent in the A/D and D/A conversion used in digital systems, while retaining the advantages of stability and small size. The design trade-offs necessitated by using devices available at the beginning of the contract, and subsequent limitations are discussed. The present state-of-the-art CTDs would eliminate the need for the multiplexing used for this contract and reduce the hardware by a factor of four. CTD technology offers stable, low cost alternative to MTI design. In addition, signal processing methods such as pulse compression, correlation, chirp z transforms and allied techniques are under investigation and should be considered by the system designer.</abstract><oa>free_for_read</oa></addata></record>
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source	DTIC Technical Reports
subjects	Active & Passive Radar Detection & Equipment AMPLITUDE ANALOG TO DIGITAL CONVERTERS BUCKET BRIGADES CANCELLATION CHARGE COUPLED DEVICES CHARGE TRANSFER DEVICES CHIRP CHIRP FILTERS CONTINUOUS AMPLITUDE RANGE CORRELATORS DELAY LINES DIGITAL TO ANALOG CONVERTERS DISCRETE SIGNALS DYNAMIC RANGE ELECTRIC CHARGE Electrical and Electronic Equipment ELIMINATION FEASIBILITY STUDIES FIELD EFFECT TRANSISTORS INFORMATION THEORY INTEGRATED CIRCUITS METAL OXIDE SEMICONDUCTORS MOVING TARGET INDICATORS MULTIPLEXING PULSE COMPRESSION PULSES QUARTZ REPLACEMENT SAMPLED DATA DELAY LINES SAMPLING SIGNAL PROCESSING TRANSFORMATIONS TRANSFORMS
title	Discrete Signal Moving Target Indicator (MTI)
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