INTRODUCTION

SYMBOLS AND ABBREVIATIONS

CHAPTER 1 RADIO CHARACTERISTICS OF ANTENNAS

1.1 The role of antennas in radio systems

1.2 The structure of electromagnetic fields excited by the antenna

1.3 Internal parameters of transmitting antennas
1.4 The external parameters of transmitting antennas

1.5 Radio characteristics of receiving antennas

CHAPTER 2 METHODS OF MEASUREMENT OF RADIO CHARACTERISTICS OF ANTENNAS (BRIEF OVERVIEW)

2.1 Measurements in the far zone

2.2 The compact antenna test range method (CATR, the collimator method)

2.3 The near-field measurement method

2.4 The combined method

CHAPTER 3. PLANAR NEAR-FIELD ANTENNA MEASUREMENTS: CALCULATION EXPRESSIONS

3.2. Derivation of calculating formulas based on the Kirchhoff approximation

3.3 Analysis of calculating expressions based on the solution of a homogeneous wave equation

3.4 Discrete analogs of integral transforms

3.5 Probe correction

3.6 Gain measurement

3.7 Methods for numerical calculation of integral sums

3.8 Measurement errors when scanning on a planar surface

4.1 Generalities

4.2 Facility block scheme

4.3 Mechanical part of the facility

4.4. Linear encoders
4.5 Rotary supports

4.7. Ampliphasemeters

4.8. DUT aligning

4.9. Facility software

CHAPTER 5. SPHERICAL NEAR-FIELD ANTENNA MEASUREMENTS

5.1 Problem statement, basic coordinate systems

5.2 Selecting the size of the scan area and the radius of the measurement sphere

5.3 The algorithm to calculate RP based on the measurement results.

5.4 Probe correction

5.5 Algorithms for calculating antenna directivity and gain based on measurement results.

5.6 Algorithm for calculating antenna aperture field based on spherical amplitude-phase measurements

5.8 Kinematic schemes of the spherical near-field facilities.

Chapter 6. ANTENNA TESTING

6.1. Tests purpose and objective

6.2. Laboratory tests

6.3. Mechanical tests

6.4. Climatic tests

6.5. Flight tests

Oleg Yurievich Platonov obtained his Ph.D. from the Saint Petersburg State University of Aerospace Instrumentation. His research interests are in the area of design of control systems and antenna measurements at near-field facilities.

Victor Vasilievich Shubnikov obtained his Ph.D. from the Saint Petersburg Electrotechnical University 'LETI'. His research interests are in the area of near-field antenna measurements and parallel computing.

Mark Ilyich Rivkin, Ph.D., is a specialist in the areas of radar, radio navigation, antenna systems and antenna measurements. He is the author of 3 monographs and 10 patents for inventions in the fields of antenna-feeder systems and measurements of antenna parameters.

Artem Yurevich Shatrakov, Dr of Economics, PhD of Technical Sciences, Professor, General Director of Promtechaero. Author of more than 200 scientific articles on the development of radio engineering enterprises. Received more than 20 patents for technical inventions. The main focus of scientific activity is the development and introduction into serial production of automated systems and means of controlling air traffic, radio navigation and aircraft landing.

Yury Grigorievich Shatrakov, Dr of Technical Sciences, Professor, Honored Worker of Science of Russia, Laureate of State Prizes, full member of the Russian Academy of Technological Sciences. He has been working in the field of "Air Navigation" since 1963 in the following directions: ground and airborne radio navigation systems, instrumental landing systems, secondary radars, air traffic control systems, training and modeling complexes. He wrote more than 400 scientific articles and prepared more than 100 Drs and PhDs.

Oleg Ivanovich Zavalishin is expert on the development and production of aeronautical equipment, land and aircraft equipment, land systems as a functional addition to global satellite navigational systems, local differential systems and landing radio-radar equipment for civil aviation. He is also a member of the council of chief designers, developers and producers of navigational hardware (NAP) for the GNSS.