A pulse compression predistortion function for efficient sidelobe reduction in a high-power radar
The successful application of pulse compression techniques depends largely on reduction of the range sidelobes associated with the compressed pulse waveform. It is shown that the calculation of sidelobe levels in previously published data is not exact when low sidelobes are called for, since the eff...
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| Published in | Proceedings of the IEEE Vol. 52; no. 4; pp. 377 - 389 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
IEEE
01.01.1964
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9219 |
| DOI | 10.1109/PROC.1964.2927 |
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| Abstract | The successful application of pulse compression techniques depends largely on reduction of the range sidelobes associated with the compressed pulse waveform. It is shown that the calculation of sidelobe levels in previously published data is not exact when low sidelobes are called for, since the effects of spectrum amplitude ripple in contributing to the range sidelobes have either been ignored or not stated. This paper presents more recent information on this subject, introducing a model of the Fresnel spectrum that permits a more accurate calculation of the compressed pulse sidelobe structure. Additional spectrum-associated paired-echo range sidelobes are predicted as a result of the model, and are observed in practice, having peak values up to 15 db larger than those derived on the basis of the idealized spectrum assumed in earlier studies. It is shown experimentally that elimination of the spectrum amplitude ripple results in removal of these paired-echo sidelobes, thus allowing more efficient use of the signal energy when low side-lobe levels are required. A predistorted linear FM pulse compression signal is presented as a realizable means for exerting control over the spectrum function. This new pulse compression technique does not require pulse envelope or rise-time shaping at the transmitter, and thus has application to high-power systems. Experimental waveforms illustrate the reduction of the spectrum-associated paired-echo sidelobes with the modified linear FM signal, and also show that the remaining range sidelobes do not appreciably increase as a function of Doppler shift. |
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| AbstractList | The successful application of pulse compression techniques depends largely on reduction of the range sidelobes associated with the compressed pulse waveform. It is shown that the calculation of sidelobe levels in previously published data is not exact when low sidelobes are called for, since the effects of spectrum amplitude ripple in contributing to the range sidelobes have either been ignored or not stated. This paper presents more recent information on this subject, introducing a model of the Fresnel spectrum that permits a more accurate calculation of the compressed pulse sidelobe structure. Additional spectrum-associated paired-echo range sidelobes are predicted as a result of the model, and are observed in practice, having peak values up to 15 db larger than those derived on the basis of the idealized spectrum assumed in earlier studies. It is shown experimentally that elimination of the spectrum amplitude ripple results in removal of these paired-echo sidelobes, thus allowing more efficient use of the signal energy when low side-lobe levels are required. A predistorted linear FM pulse compression signal is presented as a realizable means for exerting control over the spectrum function. This new pulse compression technique does not require pulse envelope or rise-time shaping at the transmitter, and thus has application to high-power systems. Experimental waveforms illustrate the reduction of the spectrum-associated paired-echo sidelobes with the modified linear FM signal, and also show that the remaining range sidelobes do not appreciably increase as a function of Doppler shift. |
| Author | Cook, C.E. Paolillo, J. |
| Author_xml | – sequence: 1 givenname: C.E. surname: Cook fullname: Cook, C.E. organization: Sperry Gyroscope Co., Great Neck, Long Island, N.Y – sequence: 2 givenname: J. surname: Paolillo fullname: Paolillo, J. |
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| Cites_doi | 10.1109/TIT.1960.1057571 10.1109/TIT.1964.1053644 10.1002/j.1538-7305.1960.tb03942.x 10.1109/PROC.1963.2007 10.1109/IRET-MIL.1961.5008328 10.1109/IRET-MIL.1962.5008423 10.1109/PROC.1963.1756 10.1109/IRET-MIL.1962.5008430 10.1109/JRPROC.1946.225956 10.1109/JRPROC.1960.287599 10.1109/TPGAP.1955.5720407 10.1063/1.1707666 |
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| References | kronert (ref21a) 1957; 7 goldman (ref15) 1948 cook (ref17) 1963; 6 cook (ref7) 1961; 49 ref20 palmieri (ref19) 0 ref11 key (ref12) 1959 ref10 ref1 ref16 ref18b ref8 fitch (ref14) 0 ref9 ref4a ref3 o'meara (ref13) 1959 ref6 (ref21b) 0 ref5 fowle (ref18a) 1961 north (ref2) 1943 chin (ref4b) 1959; 12 |
| References_xml | – ident: ref1 doi: 10.1109/TIT.1960.1057571 – ident: ref18b doi: 10.1109/TIT.1964.1053644 – year: 0 ident: ref19 publication-title: private communication on the results of radar waveform design study – ident: ref5 doi: 10.1002/j.1538-7305.1960.tb03942.x – start-page: 284 year: 0 ident: ref14 article-title: A comparison of several dispersive ultrasonic delay lines using longitudinal and shear waves in strips and cylinders publication-title: 1960 IRE International Convention Record – year: 1961 ident: ref18a publication-title: A General Method for Controlling the Time and Frequency Envelopes of FM Signals – ident: ref20 doi: 10.1109/PROC.1963.2007 – volume: 7 start-page: 148 year: 1957 ident: ref21a article-title: Impulsverdichtung publication-title: Nachrichten-technik – year: 1943 ident: ref2 publication-title: Analysis of the Factors which Determine Signa /Noise Discrimination in Radar – year: 1948 ident: ref15 publication-title: Frequency Analysis Modulation and Noise – ident: ref6 doi: 10.1109/IRET-MIL.1961.5008328 – ident: ref8 doi: 10.1109/IRET-MIL.1962.5008423 – ident: ref9 doi: 10.1109/PROC.1963.1756 – year: 1959 ident: ref12 publication-title: A Method of Pulse Compression Employing Non-Linear Frequency Modulation – year: 0 ident: ref21b – volume: 12 start-page: 11 year: 1959 ident: ref4b article-title: The Mathematics of Pulse Compression publication-title: Sperry Engrg Rev – volume: 49 start-page: 831 year: 1961 ident: ref7 article-title: General matched filter analysis of linear FM pulse compression publication-title: Proc IRE (Correspondence) – ident: ref16 doi: 10.1109/IRET-MIL.1962.5008430 – ident: ref10 doi: 10.1109/JRPROC.1946.225956 – year: 1959 ident: ref13 publication-title: The Synthesis of 'Band Pass' All-Pass Time Delay Networks with Graphical Approximation Techniques – volume: 6 start-page: 63 year: 1963 ident: ref17 article-title: Transmitter phase modulation errors and pulse compression waveform distortion publication-title: Microwave J – ident: ref4a doi: 10.1109/JRPROC.1960.287599 – ident: ref11 doi: 10.1109/TPGAP.1955.5720407 – ident: ref3 doi: 10.1063/1.1707666 |
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| Snippet | The successful application of pulse compression techniques depends largely on reduction of the range sidelobes associated with the compressed pulse waveform.... |
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| StartPage | 377 |
| SubjectTerms | Cadmium Equations Gunn devices Matched filters Predistortion Pulse compression methods Radar signal processing Solid state circuits Transmitters Zinc |
| Title | A pulse compression predistortion function for efficient sidelobe reduction in a high-power radar |
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