RU2173011C1 - All-wave composite antenna - Google Patents

Abstract

FIELD: reception of television signals. SUBSTANCE: antenna has fan dipole, twin folded Pistol'kors dipole carrying open circuits, and also electric matching devices used for connecting fan dipole circuits to folded Pistol'kors dipole through respective electric open circuits. Very simple design of antenna makes it competitive. EFFECT: enlarged passband, enhanced gain, optimal matching of electrical characteristics. 1 dwg

Description

 The invention relates to the field of radio television reception equipment and can be used to receive low-power radio and television electromagnetic signals in the private range established 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. - N 7. - P. 17-18. Universal universal wave antenna is capable of receiving signals in any television channel from 1 to 40 and uses a single feeder without the use of any special addition filters.The part of the antenna for receiving dimetric waves (UHF) is a multi-element "Wave Channel", the meter wave (MV) signals are received by a fan vibrator. Addition of the signals takes place at a common load. the influence of the MV part of the antenna on the operation mode of the UHF part is eliminated due to the use of an open loop and a short-circuited line, and the opposite is due to segments of two-drive connecting-balancing lines closed to the MV by an active loop vibrator of the UHF part of the antenna.

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

 A known antenna (see Kismereshkin V.P. Television antennas for individual reception // 2nd ed. Revised and enlarged M .: Radio and communications. 1982. p. 15-16 (Mass radio library. Issue 1050. Analog ). This is a modified symmetrical half-wave vibrator, which is a kind of Pistolkors loop-vibrator. The author named a double loop Pistolkors vibrator. The antenna has improved electrical characteristics with the inherent disadvantages for the simplest radiators of this type. Such disadvantages are limited design and the operating principle of the bandwidth Antenna in our case is capable of receiving only the UHF portion of the TV broadcast.

 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 in the antenna, made in the form of a double loop Pistolkors vibrator, matched to the total load, electrical breaks are made and it is equipped with interfacing electrical devices, the inputs of which are connected to the paired branches of the fan vibrator, and the outputs are made into electrical breaks made in Pistolkors twin loop vibrator.

 The novelty in the device part is seen in a certain way in the fact that such electrical breaks disrupt the normal operation of the Pistolkors twin loop vibrator. However, under certain conditions, they are acceptable with slight distortion of the radiation pattern and deviations in the power mode. Such favorable conditions arise within the design and design values of this vibrator due to a slight shift of the so-called "tuning frequency".

 The novelty in the device part is that the branches of the fan vibrator connected through the inputs of the interfacing electric device (OEU) directly to the electrical breaks of the Pistolkors double loop vibrator (SPV-Pistolkors) and tuned to the MV part of the TV range receive and send their energy through structures high-frequency UHF parts of the antenna directly to the total load. In this case, the structures of the UHF part also carry out normal functioning.

 The novelty in the device part is seen in the fact that connecting all the vibrators to the SEC allows optimizing the phases of the initial signals when they are summed over the total load.

 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.

 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.

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

 The drawing shows a combined all-wave antenna.

The combined all-wave antenna consists of a fan vibrator 1 that converts the meter part of the TV signal, a twin Pistolkors 2 loop vibrator, made in a known manner and capable of receiving UHF signals, in which electrical breaks are made, equipped with interfacing electrical devices 3, made in the form of an inductive, constructive, capacitive, resistive or other (mixed) communication, matching slotted sections, lines, loops, bridges, etc., providing in the aggregate the interaction of all nodes a tennogo device generally connects proper input aa 'to the branches fanned vibrator 1, and outputs bb' in electrical discontinuities twin folded dipole Pistolkors 2, antenna-feeder device 4 providing connection load impedance R _N 5 to yield double loop vibrator.

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 matched load R _n 5, passing in turn, depending on the excitation point, through the structure of the antenna 1-4.

 According to AFU-4, energy is supplied to the consumer.

Claims (1)

 Combined all-wave antenna, consisting of a fan vibrator and a twin Pistolkors loop vibrator, matched to the total load, characterized in that the Pistolkors twin loop vibrator is equipped with electrical breaks and interconnecting electrical devices, the inputs of which are connected to the paired branches of the fan vibrator and the outputs are separated into Pistolkors loopback vibrator, respectively.