Field strength above 1 GHz: Measurement procedures for standard antennas

To calibrate antennas for state-of-the-art field-strength measurements above 1 GHz, standard antennas are needed that have gain values known to within ±0.1 dB. Since this requirements exceeds the verified accuracy of calculated gain values, these standards must be established by making absolute gain measurements. The discussion primarily concerns absolute gain measurements for horn antennas by the two-antenna method. However, much of the discussion is pertinent to high-accuracy field-strength measurements in general. The two-antenna method is considered to be essentially an insertions-loss measurement (with many additional problems and sources of error), and this concept is used to derive a working formula that is suitable for high-accuracy gain measurements. The two most intractable problems-- insufficient antenna separation and multipath interference--are discussed in detail. Some important experimental details are included that have previously been overlooked or inadequately discussed, and it is concluded that previous error estimates of less than ±0.1 dB for horn-gain measurements have been somewhat optimistic. To facilitate the design and evaluation of high-accuracy gain measurements, some simple terms, concepts, and formulas are provided that are useful in analyzing multipath interference.

[1]  J. Keller Diffraction by an Aperture , 1957 .

[2]  A.P. King,et al.  Microwave Antenna Measurements , 1947, Proceedings of the IRE.

[3]  William T Slayton DESIGN AND CALIBRATION OF MICROWAVE ANTENNA GAIN STANDARDS , 1954 .

[4]  E. Jull,et al.  An accurate absolute gain calibration of an antenna for radio astronomy , 1964 .

[5]  D. S. Jones,et al.  The theory of electromagnetism , 1964 .

[6]  C. L. Andrews Erratum: Diffraction Pattern in a Circular Aperture Measured in the Microwave Region , 1950 .

[7]  W. L. Barrow,et al.  Theory of the Electromagnetic Horn , 1939, Proceedings of the IRE.

[8]  F. Schwering On the range of validity of fresnel-kirchhoff's approximation formula , 1962 .

[9]  E. Braun,et al.  Some data for the design of electromagnetic horns , 1956, IRE Transactions on Antennas and Propagation.

[10]  R. W. Beatty,et al.  Insertion loss concepts , 1964 .

[11]  W. C. Jakes,et al.  Gain of Electromagnetic Horns , 1951, Proceedings of the IRE.

[12]  C. Tai,et al.  On the definition of the effective aperture of antennas , 1961 .

[13]  H. Brueckmann Antenna pattern measurement by satellite , 1963 .

[14]  E. H. Braun,et al.  Gain of Electromagnetic Horns , 1953, Proceedings of the IRE.

[15]  D. M. Kerns,et al.  Theory of diffraction in microwave interferometry , 1960 .

[16]  D. Cheng,et al.  Microwave magnetic-field measurements by a modulated scattering technique , 1962 .

[17]  Tai Tsun Wu,et al.  The scattering and diffraction of waves , 1959 .

[18]  R. Harrington Theory of loaded scatterers , 1964 .

[19]  Teruzane Soejima Fresnel gain of aperture aerials , 1963 .

[20]  R. W. Beatty,et al.  Basic Theory of Waveguide Junctions and Introductory Microwave Network Analysis , 1967 .

[21]  A. Kay,et al.  Near-field gain of aperture antennas , 1960 .

[22]  J. Richmond,et al.  A reaction theorem and its application to antenna impedance calculations , 1961 .

[23]  A light-modulated scattering technique for diffraction field measurements , 1964 .

[24]  C. W. Steele,et al.  A Nonresonant Perturbation Theory , 1966 .

[25]  R. W. Wilson,et al.  A precise measurement of the gain of a large horn-reflector antenna , 1965 .

[26]  A. F. Stevenson General Theory of Electromagnetic Horns , 1951 .

[27]  R. J. Garbacz Determination of antenna parameters by scattering cross-section measurements , 1964 .

[28]  M. Hamid Near field transmission between horn antennas , 1966 .

[29]  Henry Jasik,et al.  Antenna engineering handbook , 1961 .

[30]  J. Brown,et al.  A theoretical analysis of some errors in aerial measurements , 1958 .

[31]  W. A. Cumming Radiation Measurements at Radio Frequencies: A Survey of Current Techniques , 1959, Proceedings of the IRE.

[32]  J. Brown,et al.  A generalized form of the aerial reciprocity theorem , 1958 .

[33]  T. S. Chu An approximate generalization of the Friis transmission formula , 1965 .

[34]  D. Midgley A theory of receiving aerials applied to the reradiation of an electromagnetic horn , 1961 .

[35]  E. Jull,et al.  An investigation of near-field radiatin patterns measured with large antennas , 1962 .

[36]  W. L. Barrow,et al.  The Sectoral Electromagnetic Horn , 1939, Proceedings of the IRE.

[37]  T. S. Chu,et al.  Gain of electromagnetic horns , 1965 .