Examples of manufactured dispersive delay lines using acoustic surface waves

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Examples of manufactured dispersive delay lines using acoustic surface waves

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Two kinds of dispersive delay lines operating in radars at the present time are described as examples of manufactured acoustic surface-wave components. These lines were designed some yearsago for a non-linear chirp impulse response and they are used as pulse expander and weighting matched pulse compressor. These dispersive delay lines consist of metallic interdigital transducers deposited on piezoelectric quartz substrates.The first kind of line, which was produced in quantity, (about 180 units) has a compression ratio equal to 23.5. The relative sidelobe level of the compressed pulse is −26 dB. The delay varies by 4 μs in a 7 MHz frequency range, the centre frequency being 30 MHz.A sampled transducer with variable finger pair spacing is used for the second kind of line in order to limit the number of fingers. The delay change is 25 μs for a 1 MHz frequency range centred at 30 MHz. The compression ratio and the relative sidelobe level of the compressed pulse are 19.2 and −24 dB respectively.

Inspec keywords: acoustic surface wave devices; acoustic delay lines

Other keywords: acoustic surface waves; pulse expander; deposited on piezoelectric quartz substrates; metallic interdigital transducers; dispersive delay lines; weighting matched pulse compressor

Subjects: Acoustic wave devices

References

    1. 1)
      • Hartemann, P.: `Filtres dispersifs à ondes élastiques de Rayleigh', April 1973, Thesis C.N.R.S., , Ref. No. A.O. 8293.
    2. 2)
      • C. Atzeni . Sensor number minimization in acoustic surface wave matched filters. IEEE Trans. on Sonics and Ultrasonics , 4 , 193 - 201
    3. 3)
      • Judd, G.W.: `Technique for realizing low time sidelobe levels in small compression ratio chirp waveforms', Proceedings, 1973 IEEE Ultrasonics Symposium, p. 478–481.
    4. 4)
      • P. Hartemann , E. Dieulesaint . Pondération des lobes secondaires d'une impulsion comprimée par une ligne dispersive á ondes élastiques de Rayleigh. L'Onde Electrique
    5. 5)
      • C.E. Cook , M. Bernfeld . (1967) , Radar signals.
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