RU2073943C1 - Wide-range mast antenna - Google Patents

Abstract

FIELD: antenna engineering. SUBSTANCE: antenna assembly made in the form of inclined dipole is provided with inclined passive conductor incorporating reactive inserts which ensures 1.5 to 2 fold increase in operating frequency range as compared to single inclined dipole and frequency coverage coefficient of 6.0 when receiving or transmitting device is connected to power feeder. EFFECT: improved operating frequency range. 1 dwg

Description

 The invention relates to antenna technology and can be used as a wide-band antenna for reception and transmission in the field of decameter radio communications.

 Known methods for improving the range properties of antenna devices through the use of the principle of self-complementation, the use of frequency-independent antennas. Antenna devices created on the basis of these methods have significant dimensions in the decameter wavelength range, are inconvenient to deploy, and for these reasons cannot be used in mobile radios.

 The prototype of the proposed antenna is an antenna made in the form of an inclined symmetric vibrator. This antenna is currently widely used as the base antenna of mobile radio stations for short-range radio communications. Having good operational characteristics, the antenna has significant disadvantages: a low level of coordination in the operating frequency band and a significant decrease in the gain in the upper part of the operating frequency range.

 The problem solved by the present invention is to expand the operating frequency range of the antennas of mobile radios.

 For this, an additionally inclined single-wire passive vibrator with symmetrically located reactive inserts is introduced into the antenna system, made in the form of an inclined symmetric vibrator. Reactive inserts can be made in the form of single concentrated inductances or capacitors, as well as in the form of serial or parallel oscillatory circuits. In all cases, the type of reactive insert, its face value, and the location along the passive vibrator web are determined by the range of antenna workstations (VV Ovsyannikov. Vibrator antennas with reactive loads. M. Radio and communications, 1985. 120 p.).

 The essential features that distinguish the proposed solution from the prototype and meet the criterion of "novelty" are the introduction to the antenna design of an additional passive conductor with reactive inserts, which is positioned obliquely with respect to the active one.

 The drawing shows a General view of the proposed antenna. Cloths of active (1) and passive (2) vibrators with reactive inserts (3) are mounted through insulators (4) in the upper part behind a telescopic mast (5). In this case, the upper edges of the shoulders of the passive vibrator are interconnected by means of a jumper (6). At the same time, in order to increase mobility, the lower end of the passive vibrator rail is attached to the active rail. For jumper stakes (8), common rails of both vibrators are attached. The tension of the paintings is ensured by chains and lanyards when deploying the antenna. The active vibrator is powered by a two-wire feeder (9).

 As the studies showed, the operating frequency band of the proposed antenna in comparison with the prototype is 1.5 2.0 times wider. The frequency overlap coefficient reaches 6.

Claims (1)

 A wide-range mast antenna containing a tilted symmetrical active vibrator, characterized in that a single-wire passive vibrator with symmetrically located reactive inserts is inserted, which is inclined with respect to the tilted symmetrical active vibrator.