RU2202139C2 - Loop antenna - Google Patents

Abstract

FIELD: communication facilities. SUBSTANCE: loop antenna has reflector, dipole, and directors, all coaxially mounted in tandem on common rod. Reflector, dipole, and directors have their respective loop members disposed in parallel on one plane and incorporate matching conductors for doubling operating frequency band. EFFECT: enhanced communication stability beyond direct radio visibility. 2 dwg

Description

 The invention relates to communications, in particular to antennas, and can be used in all sectors of the economy, including radio relay communication systems, broadcasting and television in KB-, VHF, UHF, CMB ranges.

 Based on practice, it is known that the most common antennas for receiving distant signals are frame-type antennas [1]. The main disadvantage of these antennas is the narrow bandwidth.

 Known frame antenna [2], consisting of pairs of frame elements arranged coaxially in series, dielectricly isolated from each other. However, this antenna is not technologically advanced to manufacture.

 Therefore, the problem of eliminating these shortcomings of the frame antennas and increasing the range and quality of communication in the KB-, VHF, UHF, SMV ranges is quite relevant.

 The solution to this problem is achieved by the fact that in a loop-loop antenna containing a reflector, a vibrator and directors installed on a common rod, dielectric isolated from each other, the reflector, vibrator and directors contain two loop-loop elements installed parallel to one another in the same plane which are interconnected at the points of their peripheral maximum dimensions by phase-shifting lines, in addition, both frame-loop elements are active in the vibrator, one of which is directly connected a feeder cable, and the other is connected via two phase-shifting lines parallel to the first loop-frame element, while the second loop-frame vibrator element is short-circuited by a matching conductor, as well as in the other loop-frame elements of the reflector and directors.

 Comparative analysis with the prototype shows that the inventive loop-loop antenna meets the criteria of the invention of "novelty." Comparison of the proposed solution not only with the prototype, but also with other technical solutions in the art, did not allow them to find signs that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "inventive step".

 The invention is illustrated in the layout diagram of figure 1.

 The loop-loop antenna consists of a reflector P, a vibrator B and a director D1.

 The principle of operation of these antennas is as follows.

 In the reception mode, the high-frequency signal of the transmitter, to which the antenna is oriented, excites EMF on the element located first to the received signal, and then sequentially on the next elements of the antenna.

 The resulting EMF of all passive elements (directors) is summed up on the active element (vibrator) and fed to the receiver input via the cable of the feeder. The reflector in the antenna design acts as a reflector in relation to the vibrator, and also prevents the reception of signals coming from the back of the reflector.

 In FIG. 2 shows a layout diagram, where 1 is the first active loop-frame element of the vibrator B, 2 is the second active loop-frame element of the vibrator B, 3 are passive loop-frame elements of the director D1 and reflector R, 4 are phase-shifting lines.

Sources of information
1. K. Rothammel. "Antennas". M. Energy. 1967, pp. 88-98.

 2. RU 96106158 (Loop I.I.), 06/20/98.

Claims (1)

 A loop-loop antenna containing a reflector, vibrator and directors installed coaxially sequentially on a common rod in isolation from one another, characterized in that the reflector, vibrator and directors contain two loop-loop elements installed parallel to one another in the same plane, where both frame-loop elements are active in the vibrator, the first of them is powered directly by the feeder cable, and the second is connected through the phase-shifting lines parallel to the first, with each of the reflectors and directors amochno-loop elements short-circuited matching conductors.

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