RU2192080C2 - Combined monopole antenna - Google Patents

Abstract

FIELD: reception of television signals. SUBSTANCE: antenna has pair of twin loop Pistol'kors monopoles carrying internal and external step-type waveguide transitions, internal one being coaxially mounted in external transition with its surface connected to the latter. EFFECT: enlarged passband, enhanced gain, optimal matching of antenna electrical characteristics. 1 dwg

Description

 The invention relates to the field of radio television reception equipment and can be used to receive radio and television electromagnetic signals of low power in the frequency range set by the broadcast television network I to V with the corresponding polarization standard.

 There are known television receiving antennas described by Pyasetskiy V. "Universal all-wave antenna // Radio. 1985. - 7. P.17-18. A universal all-wave antenna is capable of receiving signals in any television channel from 1 to 40 and uses a single feeder without using any or special addition filters. Part of the antenna for receiving decameter waves (DEV) is a multi-element “Wave Channel”, meter wave (MB) signals are received by a fan vibrator. Addition of signals occurs at a common load. At the same time, the mutual shunt effect MB of the antenna for UHF operation part is eliminated by the use of an open stub and a short-circuited line, and the opposite two wire sections due to connective lines baluns closed at MB active loop vibrator SCM - the antenna.

The disadvantages of this antenna, designed to receive a television signal, are:
1) The complexity of the design;
2) The relative narrowband characteristic of a multi-element antenna type "Wave channel";
3) Weak decoupling, i.e. the possibility of a mutual shunting effect, eliminated due to the bulky design.

 A well-known antenna (see Kismereshkin VP "Television antennas for individual reception // 2nd ed. Revised and enlarged M: Radio and communications. 1982, pp. 15-16 (Mass radio library. Issue 1050. Analogue) This is a modified symmetrical half-wave vibrator, which is a type of Pistolkors loop-vibrator. The author named the twin loop Pistolkors vibrator of the SPVP. The antenna has improved electrical characteristics with the inherent disadvantages for the simplest emitters of this type. Such disadvantages are limited design s and principle of bandwidth. The antenna is capable in this case only receive UHF TV broadcast portion.

 The technical solution to the problem - obtaining an all-wave reception is achieved through new design solutions. The technical solution is achieved by the fact that the antenna, made in the form of a double loop Pistolkors vibrator, matched to the total load, being an internal SPVP, is coaxially placed in an external double loop Pistolkors vibrator and is connected to the output of the external SPVP with an equipotential surface.

 The novelty in the device part is seen in the fact that an external SPVP, which allows simultaneous television reception in the MB range, receives and transfers its energy to the equipotential input surface of the internal SPVP and its structure - which independently receive the UHF signal - directly to the total load.

 The novelty in the device part is that the connection of the external SPVP output to the equipotential surface of the internal does not lead to the loss of the useful MB signal on the shunting conductivity of the longitudinal arms of the internal SPVP, since this conductivity is complex, has little connection with wave impedances and has small values on the working frequency.

 The novelty in terms of the device is seen in the fact that the internal SPVP has sufficient electrical isolation from the external, which favorably affects the stable operation of the system as a whole. Coordination of the wave electrical characteristics of individual parts of the antenna is carried out due to stepwise wave transitions, by changing the ratios of their geometric dimensions and configuration.

 According to the technical, scientific and patent documentation, no combination of features has been identified, such as in the claimed device, which indicates an inventive step.

 The industrial applicability of the claimed technical solution is seen in the extreme simplicity of manufacture, high electrical performance, the possibility of industrial use and a competitive level, which have proved themselves as a result of long-term operation of prototypes.

 The antenna is illustrated with graphic material containing an electrical circuit and structural elements.

 The drawing shows a monovibrator combined antenna 1. The monovibrator combined antenna consists of an external twin Pistolkors 1 loop vibrator, converting the MB part of the TV signal made in a known manner, an internal dual Pistolkors 2 loop vibrator, coaxially placed in the external one, providing reception of the DMV signal connected with its own equivalent the sides of the surface 3 to the output of the external SPVP 1, antenna-feeder device 5, providing for the connection consistently th load 4 to the output of the internal SPVP 2, step wave transitions 7.

 The antenna works as follows.

 The received electromagnetic TV signal is supplied to the respective vibrators 1-2, converted to EMF and summed up to the total agreed load 4, passing in turn, depending on the excitation point, through structures 1-3. Since the conductivity of the longitudinal arms 6 of the internal SPWP at the frequency of the MV range is relatively small and complex, the signal loss is negligible.

 Step wave transitions 7 are used to coordinate the electrical characteristics of individual structures of both external and internal SPVP.

 According to AFU-5, energy is supplied to the consumer.

Claims (1)

 Combined antenna, consisting of a pair of twin Pistolkors loop loops, external and internal, coordinated with the total load, characterized in that the internal double Pistolkors loop vibrator is coaxially located in the external and connected to its output by its surface.