BSI PD IEC/TR 63099-1:2017
$142.49
Transmitting equipment for radiocommunication. Radio-over-fibre technologies for electromagnetic-field measurement – Radio-over-fibre technologies for antenna measurement
| Published By | Publication Date | Number of Pages |
| BSI | 2017 | 30 |
The purpose of this document is to provide information about the current and latest applications for antenna measurement that use radio-over-fibre technologies. Antenna gain and the antenna radiation pattern measurement system are covered, which are practically in use and will be used soon. Basic concepts, system configurations and measurement examples of the systems are included. The theoretical background of antenna measurement is beyond the scope of this document.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 6 | CONTENTS |
| 8 | FOREWORD |
| 10 | INTRODUCTION |
| 11 | 1 Scope 2 Normative references 3 Terms, definitions and abbreviated terms 3.1 Terms and definitions |
| 12 | 3.2 Abbreviated terms 4 Practical applications 4.1 List of applications 4.2 Antenna gain measurement system using a radio-over-fibre transceiver 4.2.1 Overview 4.2.2 Features |
| 13 | 4.2.3 System configuration Figures Figure 1 – System configuration of antenna gain measurement systemusing a radio-over-fibre transceiver |
| 14 | Figure 2 – System configuration of antenna gain measurement system using bi-directional type radio-over-fibre transceiver specifications |
| 15 | Tables Table 1 – Specification of a radio-over-fibre transceiver |
| 16 | 4.2.4 Example of measurement results Figure 3 – Appearance of a pair of radio-over-fibre transceivers |
| 17 | Figure 4 – S21(ω) measurement result of two LPDAs |
| 18 | 4.3 Millimetre-wave antenna pattern measurement system using a nested type LN-MZM and a UTC-PD 4.3.1 Overview Figure 5 – Measurement gain of LPDA using a radio-over-fibre transceiver Figure 6 – S21(ω) measurement result of two VULB9160s |
| 19 | 4.3.2 Features 4.3.3 System configuration |
| 20 | Figure 7 – System configuration for mm-wave antenna pattern measurementsystem using nested type LN-MZM and UTC-PD Figure 8 – Appearance of mm-wave antenna pattern measurement systemusing nested type LN-MZM and UTC-PD |
| 21 | 4.3.4 Specifications Figure 9 – Appearance of mm-wave transmitting part of mm-wave antennapattern measurement system using nested type LN-MZM and UTC-PD Table 2 – Specification of an LN-MZM |
| 22 | 4.3.5 Example of measurement results Figure 10 – Frequency characteristics and dynamicrange of system using a nested LN-MZM modulator and a UTC-PD Table 3 – Specification of a UTC-PD |
| 23 | 4.4 Very-near-field antenna pattern measurement using a photonic sensor 4.4.1 Overview 4.4.2 Features Figure 11 – Measured antenna radiation patternin the E-plane at 120 GHz |
| 24 | 4.4.3 System configuration Figure 12 – System configuration of planar very-near-field antennapattern measurement system using a photonic sensor |
| 25 | Figure 13 – System configuration of cylindrical very-near-field antennapattern measurement system using a photonic sensor Figure 14 – System configuration of spherical very-near-field antennapattern measurement system using a photonic sensor |
| 26 | 4.4.4 Specifications Figure 15 – Appearance of very-near-field antenna pattern measurementsystem using an LN-MZM photonic sensor Figure 16 – Photonic sensor using an LN-MZM |
| 27 | 4.4.5 Example of measurement results Figure 17 – Measured and calculated near-field electric field distribution using planar very-near-field antenna pattern measurement systemusing an LN-MZM photonic sensor Table 4 – Specification of an LN-MZM photonic sensor |
| 28 | Figure 18 – E-plane antenna pattern of Horn-antenna measured by planarvery-near-field antenna pattern measurement systemusing an LN-MZM photonic sensor |
| 29 | Bibliography |
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