Advertisement

Fundamentals of signal processing devices

  • E. A. Ash
Chapter
Part of the Topics in Applied Physics book series (TAP, volume 24)

Keywords

Surface Wave Surface Acoustic Wave Delay Line Insertion Loss Bulk Wave 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. 4.1
    W. R. Smith, H. M. Gerard,J. H. Collins, T. M. Reeder, H. J. Shaw: IEEE Trans. MTT-17, 856–864 (1969)Google Scholar
  2. 4.2
    W. R. Smith, H. M. Gerard, J. H. Collins, T. M. Reeder, H. J. Shaw: IEEE Trans. MTT-17, 865–873 (1969)Google Scholar
  3. 4.3
    C. S. Hartmann, W. Stanley Jones, H. Vollers: IEEE Trans. SU-19, 378–381 (1972)Google Scholar
  4. 4.4
    F. G. Marshall, C. O. Newton, E. G. S. Paige: IEEE Trans. MTT-21, 216–224 (1973)Google Scholar
  5. 4.5
    C. S. Hartmann, D. T. Bell, R. C. Rosenfeld: IEEE Trans. MTT-21, 162–175 (1973)Google Scholar
  6. 4.6
    K. Shibayama, K. Yamanouchi, H. Sato, T. Meguro: Proc. IEEE 64, 595–597 (1976)Google Scholar
  7. 4.7
    P. H. Carr, T. E. Fenstermacher, J. H. Silva, W.J. Kearns, M. R. Stiglitz: “SAW Delay-Line with all Spurious 70dB Down”, Proc. IEEE Ultrasonics Symp. (1976), pp. 459–461Google Scholar
  8. 4.8
    E. A. Ash: “Surface Wave Grating Reflectors and Resonators”. IEE Symp. Microwave Theory and Techniques (Newport Beach, May 11–14, 1970)Google Scholar
  9. 4.9
    F. Y. Cho, B. J. Hunsinger, L. L. Lee: “Programmable Planar Folded Path SAW Delay Line”. Proc. IEEE Ultrasonics Symp. (1974) pp. 193–195Google Scholar
  10. 4.10
    T. E. Parker, M. B. Schulz: “Temperature Stable Surface Acoustic Wave Delay Lines with SiO2 Film Overlays”. Proc. IEEE, Ultrasonics Conf. (Nov. 1974) pp. 295–298Google Scholar
  11. 4.11
    R.L.Zimmerman, G.R.Nudd, B.P.Schweitzer: Proc. of IEE Conf. on the Component Performance and Systems Applications of Surface Acoustic Wave Devices. Aviemore, Sept. 1973 (IEE Conf. Publ. No. 109) pp. 243–254Google Scholar
  12. 4.12
    J.D. Ross, S.J. Kapuscienski, K. B. Daniels: “Variable Delay Line using Ultrasonic Surface Waves”. IRE Nat. Conf. Rec. pt. 2, 118–120 (1958)Google Scholar
  13. 4.13
    C.M.Fortunko, S.L.Quilici, H.J.Shaw: “SAW Delay Lines of Large Time-Bandwidth Products”. Proc. IEEE Ultrasonics Conf. (Nov. 1974) pp. 181–184Google Scholar
  14. 4.14
    J. Chambers, E. Papadofrangakis, I. M. Mason: “Beam Guided, Temperature Stabilized Disc Long Delay Lines”. Proc. IEEE Ultrasonics Conf. (1974) pp. 760–762Google Scholar
  15. 4.15
    L. A. Coldren, H. J. Shaw: Proc. IEEE 64, 598–609 (1976)Google Scholar
  16. 4.16
    L.A.Coldren: Wave Electron. 1, 177–189 (1975)Google Scholar
  17. 4.17
    A.J.Slobodnik Jr., W.J.Kearns, J.H.Silva, T.E.Fenstermacher: “A Comparison of SAW Wrap-around Delay Line Geometries”. Proc. IEEE Ultrasonics Conf. (Nov. 1974) pp. 185–188Google Scholar
  18. 4.18
    I.M.Mason, E.Papadofrangakis, J.Chambers: Electron Lett. 10, 63–65 (1974)Google Scholar
  19. 4.19
    I.M. Mason, E.Papadofrangakis, J.Chambers, R.Ulrich: “A Chain Matrix Approach to the Design of Anisotropic Rayleigh Wave Delay Lines”. Proc. IEEE Ultrasonics Symp. (Sept. 1975) pp. 523–525Google Scholar
  20. 4.20
    L. R. Adkins, A. R. Hughes: J. Appl. Phys. 42, 1819–1822 (1971)Google Scholar
  21. 4.21
    P.Hartemann, M.Morizot: “Variation of Surface Acoustic Wave Velocity produced by Ion Implantation”. Proc. IEEE Ultrasonics Conf. (Nov. 1974) pp. 307–310Google Scholar
  22. 4.22
    R.V.Schmidt: Appl. Phys. Lett. 27, 1 (1975)Google Scholar
  23. 4.23
    R.Schmidt, L.A.Coldren: Appl. Phys. Lett. 22, 482–483 (1973)Google Scholar
  24. 4.24
    T.I.Browning, F.G.Marshall: “Compact 130 gs SAW Delay Line using Improved MSC Reflecting Track Changers”. Proc. IEEE Ultrasonics Symp. (1974) pp. 189–192Google Scholar
  25. 4.25
    R.L.Rosenberg, R.V.Schmidt, L.A.Coldren: Appl. Phys. Lett. 25, 324–326 (1974)Google Scholar
  26. 4.26
    G.D.Boyd, L.A.Coldren, R.N.Thurston: Appl. Phys. Lett. 26, 31–34 (1975)Google Scholar
  27. 4.27
    A.A.Oliner, K.H.Yen: “A New Class of Components which do not Require Piezoelectric Substrates”. Proc. Ultrasonics Symp. (1974) pp. 108–113Google Scholar
  28. 4.28
    T. Reeder: Private communication (1970)Google Scholar
  29. 4.29
    E.J.Staples: “UHF Surface Acoustic Wave Resonators”. Proc. of Symp. on Frequency Control (Fort Monmouth, 1974)Google Scholar
  30. 4.30
    E.J.Staples, J.S.Schoenwald, R.C.Rosenfeld,C.S.Hartman: “UHF Acoustic Wave Resonators”. Proc. IEEE Ultrasonics Symp. (Nov. 1974) pp. 245–252Google Scholar
  31. 4.31
    DeLamar, T.Bell, R.C.M.Li: Proc. IEEE 64, 711–721 (1976)Google Scholar
  32. 4.32
    S.C.C.Tseng, G.W.Lynch: SAW Planar Network, loc. cit. pp. 282–285Google Scholar
  33. 4.33
    G.D.Boyd, H.Kogelnik: B.S.T.J. 41, 1347 (1962)Google Scholar
  34. 4.34
    R.E.Collin: Foundations or Microwave Engineering (McGraw-Hill, New York 1966) Chap. 8Google Scholar
  35. 4.35
    P. Hartemann, M. Morizot: “Variation of Surface Acoustic Wave Velocity Produced by Ion Implantation”. Proc. IEEE Ultrasonics Symp. (1974) pp. 307–310Google Scholar
  36. 4.36
    R.Schmidt: Appl. Phys. Lett. 27, 8–10 (1975)Google Scholar
  37. 4.37
    F.A.Jenkins, H.E.White: Fundamentals of 0ptics (McGraw-Hill, New York 1957)Google Scholar
  38. 4.38
    W.R.Smith, H.M.Gerard, J.H.Collins, T.M. Reeder: IEEE Trans. MTT-17, 856–864 (1969)Google Scholar
  39. 4.39
    I.M.Mason, J.Chambers, P.Lagasse: Electron Lett. V. 11, 288–290 (1975)Google Scholar
  40. 4.40
    K.M.Lakin, T.R.Joseph: “Surface Wave Resonators”. Proc. IEEE Ultrasonics Symp. (Sept. 1975) pp. 269–278Google Scholar
  41. 4.41
    W.P.Mason: Electromechanical Transducers and Wave Filters, 2nd ed. (Van Nostrand, New York 1948)Google Scholar
  42. 4.42
    W.R.Shreve: 'surface Wave Resonators and Their Use in Narrowband Filters”. Proc. IEEE Ultrasonics Symp. (1976) pp. 706–713Google Scholar
  43. 4.43
    J.D.Maines, E.G.S.Paige, A.F. Saunders, A.S.Young: Electron Lett. 5, 678 (1969)Google Scholar
  44. 4.44
    W.S.Jones, C.S.Hartmann, T.D.Sturdivant: IEEE Trans. SU-19, 368–377 (1972)Google Scholar
  45. 4.45
    J.Crabb, M.F.Lewis, J.D.Mames: Electron. Lett. 9, 195 (1973)Google Scholar
  46. 4.46
    T.R.Joseph: “Phase Locked SAW Delay Line and Resonator Oscillators”. Proc. IEEE, Ultrasonics Symp. (1976) pp. 234–239Google Scholar
  47. 4.47
    M.Lewis: “The Design, Performance and Limitations of SAW Oscillators”, Aviemore 1973 (IEE Conf. on SAW Devices Conf. Publ. 109) pp. 63–72Google Scholar
  48. 4.48
    M.Lewis: “The Surface Acoustic Wave Oscillator-A Natural and Timely Development of the Quartz Crystal Oscillator”. Proc. 28th Annual Frequency Control Symp., Atlantic City (May 1974) pp. 304–314Google Scholar
  49. 4.49
    I.Bale, M.F.Lewis: “Improvements to the SAW oscillator”. Proc. IEEE Ultrasonics Symp. (1974) pp. 272–275Google Scholar
  50. 4.50
    P.Hartemann, O.Menager: Electron Lett. 8, 214 (1972)Google Scholar
  51. 4.51
    P.Hartemann: “Surface Acoustic Wave Phase and Frequency Discriminator”, Aviemore 1973 (IEE Conf. on SAW Devices Conf. Publ. 109) pp. 152–166Google Scholar
  52. 4.52
    R.C.Williamson: “Problems Encountered in High Frequency Surface Wave Devices”. Proc. IEEE Ultrasonics Symp. (1974) pp. 321–328Google Scholar
  53. 4.53
    I. Browning, J.Crabb, M.F.Lewis: “A SAW Frequency Synthesizer”. Proc. IEEE Ultrasonics Symp. (Sept. 1975) pp. 245–247Google Scholar
  54. 4.54
    H.Gilden, J.M.Reeder, A.J.DeMaria: “The Mode-locked SAW Oscillator”. Proc. IEEE Ultrasonics Symp. (Sept. 1975) pp. 251–254Google Scholar
  55. 4.55
    J.D.Maines, J.N.Johnston: Ultrasonics 11, 211–217 (1973)Google Scholar
  56. 4.56
    P.Hartemann, E.Dieulesaint: Electron Lett. 5, 299–320 (1969)Google Scholar
  57. 4.57
    H.M.Gerard, W.R.Smith, W.R.Jones, J.B.Harrington: IEEE Trans. SU-20, 94–104 (1973)Google Scholar
  58. 4.58
    J.D.Maines, G.L.Moule, N.R.Ogg: Electron Lett. 8, 431–433 (1972)Google Scholar
  59. 4.59
    H.Skeie: “Mechanical and Electrical Reflections in Interdigital Transducers”. Proc. IEEE Ultrasonics Symp. (1972) pp. 408–412Google Scholar
  60. 4.60
    E.G.S. Paige: “Dispersive Filters: Their Design and Application to Pulse Compression and Temporal Transformations”. Component Performance and Systems Applications of Surface Acoustic Wave Devices (IEE Conf. Pub]. No. 109 Sept. 1973) pp. 167–180Google Scholar
  61. 4.61
    R.C.Williamson, H.I.Smith: Electron. Lett. 8, 401–402 (1972)Google Scholar
  62. 4.62
    R.C.Williamson: Proc. IEE 64, 702–710 (1976)Google Scholar
  63. 4.63
    H.I.Smith: Proc. IEE 62, 1361–1387 (1974)Google Scholar
  64. 4.64
    L.P.Solie: “A SAW Filter Using a Reflective Dot Array (RDA)”. Proc. IEEE Ultrasonics Symp. (1976) pp. 309–312Google Scholar
  65. 4.65
    J.Melngailis, R.C.Williamson, J.Holtham, R.C.M.Li: Wave Electron. 2, 177–198 (1976)Google Scholar
  66. 4.66
    T.A.Martin: IEEE Trans. SU-20, 104–112 (1973)Google Scholar
  67. 4.67
    H.Skeie: J. Appl. Phys. 48, 1098–1109 (1970)Google Scholar
  68. 4.68
    R.C.Williamson, H.I.Smith: IEEE Trans. SU-20, 113–123 (1973)Google Scholar
  69. 4.69
    M.G.Holland, L.T.Claiborn: Proc. IEEE 62, 582–610 (1974)Google Scholar
  70. 4.70
    J.H.Collins, P.M.Grant, B.J.Darby: Wave Electron. 1, 311–342 (1976)Google Scholar
  71. 4.71
    H.M.Gerard, O.W.Otto, R.D.Weglein: “Development of a Broadband Reflective Array 10000:1 Pulse Compression Filter”. Proc. IEEE Ultrasonics Symp. (1974) pp. 197–201Google Scholar
  72. 4.72
    S.deKlerk: Phys. Acoust. 11, 213–243 (1975)Google Scholar
  73. 4.73
    T.W.Bristol, W.R.Jones, P.B.Snow, W.R.Smith: “Applications of Double Electrodes in Acoustic Surface Wave Device Design”. Proc. IEEE Ultrasonics Symp. (1972) pp. 343–345Google Scholar
  74. 4.74
    B.J.Darby: IEEE Trans. SU-20, 382–384 (1973)Google Scholar
  75. 4.75
    D.T.Bell, J.D.Holmes, R.V.Ridings: Trans. IEEE MTT-21, 263–271 (1973)Google Scholar
  76. 4.76
    C. F.Vasile, R.LaRosa: Electron. Lett. 8, 479–480 (1972)Google Scholar
  77. 4.77
    E.J.Staples, L.T.Claiborn: IEEE Trans. MTT-21, 195–205 (1973)Google Scholar
  78. 4.78
    P.J.Hagon: “ProgrammableAnalogue Matched Filters”. Symp. on “Component Performance and Systems Applications of Surface Acoustic Wave Devices” (IEE Conf. Publ. No. 109) pp. 92–101Google Scholar
  79. 4.79
    C.L.Grasse, D.A.Gandolfo: “Acoustic Surface Wave Dispersive Delay Lines as High Resolution Frequency Discriminators”. Proc. IEEE Ultrasonics Symp. (1972) pp. 233–236Google Scholar
  80. 4.80
    G.R.Nudd, O.W.Otto: “Chirp Single Processing Using Acoustic Surface Wave Filters”. Proc. IEEE Ultrasonics Symp. (1975) pp. 350–354Google Scholar
  81. 4.81
    M.A.Jack, P.M.Grant, J.H.Collins: “Real Time Network Analyzer Employing Acoustic Wave Chirp Filters”. Proc. IEEE Ultrasonics Symp. (1975) pp. 359–362Google Scholar
  82. 4.82
    M.A.Jack, G.F.Manes, P.M.Grant, C.Atzen, L.Masott, J.H.Collins: “Real Time Network Analysers Based on SAW Chirp Transform Processors”. Proc. IEEE Ultrasonics Symp. (1976) pp. 376–381Google Scholar
  83. 4.83
    J.D.Maines, G.L.Moule, C.O.Newton, E.G.S.Paige: “A Novel Saw Variable Frequency Filter”. Proc. IEEE Ultrasonics Symp. (1975) pp. 355–358Google Scholar
  84. 4.84
    R.M.Hays, W.M.Shreve, R.T.Bell, L.T.Claiborne: “Surface Wave Transform Adaptable Processing System”. Proc. IEEE Ultrasonics Symp. (1975) pp. 363–370Google Scholar
  85. 4.85
    R.M.Hays, C.S.Hartmann: “Surface Acoustic Wave Devices for Communications”. Proc. IEEE (May 1976) pp. 652–671Google Scholar
  86. 4.86
    W.S.Mortley: “Improvements in or Relating to Variable Electrical Delay Arrangements” (British Patent 994842)Google Scholar
  87. 4.87
    A.F.Podell, R.F.Lec, A.S.Bahr: IEEE-GMTT Int. Microwave Symp. May, 1972 (IEE Conf. Publ. No. 72) pp. 92–94Google Scholar
  88. 4.88
    V.S.Dolat, R.C.Williamson: “A Continuously Variable Delay-Line System”. Proc. IEEE Ultrasonics Symp. (1976) pp. 419–423Google Scholar
  89. 4.89
    V.Shtykov, I.Mason, M.Motz: IEEE Trans. SU-22, 131–136 (1975)Google Scholar
  90. 4.90
    H.Louisell: Coupled Modes and Parametric Electronics (John Wiley, New York 1960)Google Scholar
  91. 4.91
    A.A.Chaban: Sov. Phys. Sld. St. 9, 2622–2623 (1968)Google Scholar
  92. 4.92
    L.Svaasand: Appl. Phys. Lett. 15, 300–302 (1969)Google Scholar
  93. 4.93
    N.Ansteg, W.E.Lerwill: Proc. Roy. Soc. 290, 430–477 (1963)Google Scholar
  94. 4.94
    W.C.Wang: A convolution integration, presented at the Joint Services Technical Advisory Committee (Polytechnic Institute of Brooklyn, 1966)Google Scholar
  95. 4.95
    C.F.Quate, R.B.Thompson: Appl. Phys. Lett. 16, 494 (1970)Google Scholar
  96. 4.96
    M.V.Lukkala, G.S.Kino: Appl. Phys. Lett. 18, 393–394 (1971)Google Scholar
  97. 4.97
    G.S.Kino, S.Ludvik, H.Shan, W.R.Shreve, S.M.White, D.K.Winslow: IEEE Trans. MTT-21, 244–255 (1973)Google Scholar
  98. 4.98
    M.Motz, J.Chambers, I.M. Mason: “Suppression of Spurious Signals in a Degenerate SAW Convolver”. Proc. IEEE Ultrasonics Symp. (1973) pp. 152–154Google Scholar
  99. 4.99
    D.Morgan: IEEE Trans. SU-22, 274–277 (1975)Google Scholar
  100. 4.100
    D.P.Morgan, J.M.Hannah, J.H.Collins: Proc. IEEE 64, 751–753 (1976)Google Scholar
  101. 4.101
    P.E.Lagasse, I.M.Mason, E.A.Ash: IEEE Trans. MT-21, 225–236 (1973)Google Scholar
  102. 4.102
    P.Nanayakkara, E.A.Ash: Wave Electron. l, 247–263 (1976)Google Scholar
  103. 4.103
    A.A.Oliner: Proc. IEEE 64, 615–635 (1976)Google Scholar
  104. 4.104
    R.A.Zakarevicius, E.A.Ash, I.M. Mason: Electron. Lett. 9, 363–364 (1973)Google Scholar
  105. 4.105
    P.Deframould, C.Maerfeld: Proc. IEEE 64, 748–751 (1976)Google Scholar
  106. 4.106
    O.Baiocchi, I.M.Mason: IEEE Trans. SU-22, 347–354 (1975)Google Scholar
  107. 4.107
    W.R.Shreve, G.S.Kino, M.Lukkala: Electron. Lett. 7, 764–766 (1971)Google Scholar
  108. 4.108
    M.Lukkala, J.Surakka: J. Appl. Phys. 43, 2510–2518 (1972)Google Scholar
  109. 4.109
    G.S.Kino: Proc. IEEE 64, 724–748 (1976)Google Scholar
  110. 4.110
    T.M.Reeder, M.Gilden: Appl. Phys. Lett. 22, 254–256 (1973)Google Scholar
  111. 4.111
    T.M.Reeder: Electron. Lett. 9, 254–256 (1973)Google Scholar
  112. 4.112
    T.M.Reeder: Proc. of IEE Symp. on the Component Performance and Systems Applications of Surface Acoustic Wave Devices, Aviemore, Sept. 1973 (IEE Conf. Pub]. No. 109) pp. 73–84Google Scholar
  113. 4.113
    O.Menager, B.Desormiere: Appl. Phys. Lett. 27, 1–2 (1975)Google Scholar
  114. 4.114
    T.M.Reeder, T.W.Grdkouski: “Real Time Fourier Transform Experiments Using a 32-Tap Diode Convolver Module”. Proc. IEEE Ultrasonics Symp. (1975) pp. 336–339Google Scholar
  115. 4.115
    J.M.Smith, E.Stern, A.Bers, J.Cafarella: “Surface Acousto Electric Convolvers”. Proc. IEEE Ultrasonics Symp. (1973) pp. 142–144Google Scholar
  116. 4.116
    A.G.Bert, B.Epsztei, G.Kantorowicz: IEEE Trans. MTT-21, 255–263 (1973)Google Scholar
  117. 4.117
    J.H.Cafarella, W.M.Brown, E.Stern, J.A.Alusow: Proc. IEEE 64, 756–759 (1974)Google Scholar
  118. 4.118
    G.Kantorowicz: French Patent No. 7345234 (December 1973)Google Scholar
  119. 4.119
    A.Bers, J.H.Cafarella: Appl. Phys. Lett. 25, 133–135 (1974)Google Scholar
  120. 4.120
    H.Hayakawa, G.S.Kino: Appl. Phys. Lett. 25, 178–180 (1974)Google Scholar
  121. 4.121
    K.A.Ingebritsen, R.A.Cohen, R.W.Mountain: Appl. Phys. Lett. 26, 596–598 (1975)Google Scholar
  122. 4.122
    C.Maerfeld, P.Defranould, P.Tournois: Appl. Phys. Lett. 27, 577–578 (1975)Google Scholar
  123. 4.123
    K.A.Ingebritsen: Proc. IEEE 64, 764–769 (1976)Google Scholar
  124. 4.124
    Ph.Defranould, H.Gautier, C.Maerfeld, P.Tournois: “P-N Diode Memory Correlator”. Proc. IEEE Ultrasonic Symp. (1976) pp. 336–347Google Scholar
  125. 4.125
    K.A.Ingebritsen, E.Stern: Appl. Phys. Lett. 27, 170–172 (1975)Google Scholar
  126. 4.126
    K.A.Ingebritsen: Electron. Lett. 11, 585–586 (1975)Google Scholar
  127. 4.127
    K.A.Ingebritsen, E.Stern: “Holographic Storage of Acoustic Surface Waves with Schottky Diode Arrays”. Proc. IEEE Ultrasonics Symp. (1975) pp. 212–216Google Scholar
  128. 4.128
    P.V.H.Sabine: Electron. Lett. 9, 136–138 (1973)Google Scholar
  129. 4.129
    F.G.Marshall, E.G.S.Paige: Electron. Lett. 7, 460–462 (1971)Google Scholar
  130. 4.130
    I.M.Mason, J.Chambers, P.E. Lagasse: “Spatial Harmonic Analysis of the Multistrip Coupler”. Proc. IEEE Ultrasonics Symp. (1973) pp. 159–162Google Scholar
  131. 4.131
    K.A.Ingebritsen: “A Normal Mode Representation of Surface Wave Multistrip Coupler”. Proc. IEEE Ultrasonics Symp. (1973) pp. 163–167Google Scholar
  132. 4.132
    F.G.Marshall, C.O.Newton, E.G.S.Paige: IEEE Trans. MTT-21, 206–211 (1973)Google Scholar
  133. 4.133
    C.Maerfeld, P.Tournois: Electron. Lett. 9, 115–116 (1973)Google Scholar
  134. 4.134
    C.Maerfeld: Wave Electron. 2, 82–109 (1976)Google Scholar
  135. 4.135
    G.W.Farnell, C.Maerfeld: “Modes in Multistrip Couplers”, Proc. IEEE Ultrasonics Symp. (1976) pp. 480–485Google Scholar
  136. 4.136
    C.S.Hartmann, D.T.Bell, R.C.Rosenfeld: IEEE Trans. MTT-21, 162–175 (1973)Google Scholar
  137. 4.137
    F.G.Marshall, E.G.S.Paige, A.S.Young: Electron. Lett. 7, 638–640 (1970)Google Scholar
  138. 4.138
    F.G.Marshall: Electron. Lett. 8, 311–312 (1972)Google Scholar
  139. 4.139
    F.G.Marshall, C.O.Newton, E.G.S.Paige: IEEE Trans. MTT-21, 216–225 (1973)Google Scholar
  140. 4.140
    C.Maerfeld, G.W.Farnell: Electron. Lett. 9, 432–434 (1973)Google Scholar
  141. 4.141
    H.Van deVaart, L.P.Solie: Proc. IEEE 64, 688–691 (1976)Google Scholar
  142. 4.142
    M.Feldman, J.Henaff, M.Carel: Electron. Lett. 12, 118–119 (1976)Google Scholar
  143. 4.143
    M.Feldmann, J.Henaff: “The Reflective ASW Multistrip Array-A Frequency Sensitive Device for Filter and Channel Bank”. Proc. European Microwave Conf. (1976) pp. 239–241Google Scholar
  144. 4.144
    M.Feldmann, J.Henaff: “An ASW-filter Using Two Fan-Shaped Multistrip Reflective Arrays”. Proc. IEEE Ultrasonics Symp. (1976) pp. 397–400Google Scholar

Copyright information

© Springer-Verlag 1978

Authors and Affiliations

  • E. A. Ash

There are no affiliations available

Personalised recommendations