CS215340B1 - Transmitting antenna with peak capacitive load - Google Patents

Abstract

The invention relates to a transmitting antenna with a peak capacitive load, which is formed by an antenna mast, placed on a base insulator and supplied at a supply point, and anchors with anchor insulators, whereby the lower anchors are continuously insulated including their ends. The task of the invention is to eliminate the construction complexity of structures of this type, simply extend the antenna capacitively and ensure higher antenna efficiency and greater bandwidth. The essence of the solution of the transmitting antenna according to the invention lies in the fact that the upper anchor is provided with anchor insulators in the lower part and its upper end is connected to the antenna mast also via an anchor insulator defining the active anchor section, whereby the lower end of the return conductor, arranged in a vertical plane interspersed with the upper anchor, is connected to the lower end of the active section to the highest anchor insulator of the lower part of the upper anchor, and the upper end of this return conductor is conductively connected to the antenna mast.

Description

The invention relates to a transmit antenna having a peak capacitive load comprising an antenna mast mounted on a foot insulator and powered at a supply point, and anchors with anchor insulators, wherein the anchors are continuously insulated including their ends.

It is already known a transmit antenna with a peak capacitive load, created by a system of additional conductors radially obliquely lowered from the edges of the top hat of a self-supporting tower antenna placed on insulators, which are continuously insulated from a distance from the mast. Such an antenna is described, for example, in Proceedings of the I.R.E., October 1947.

The main disadvantage of this solution lies in the considerable construction demands of the antenna.

These disadvantages are overcome by the transmission antenna according to the invention, which consists in that the upper anchor is provided with anchor insulators at the bottom and its upper end is connected to the antenna mast also via an anchor insulator defining an active anchor section, the lower end of the return conductor provided in the vertical plane interspersed with the upper anchor is connected to the lower end of the active anchor section and the upper end of the return conductor is conductively connected to the antenna mast.

The main advantages of the solution according to the invention are that they are simply formed capacitance. extension of vertical antenna with electrical use of equally existing mechanical elements. The electrical extension of the antenna produced results in higher antenna efficiency and greater bandwidth.

The invention is explained in more detail below by way of example with reference to the drawing, in which a transmission antenna according to the invention is schematically illustrated.

The antenna consists of an antenna mast 1 located on the heel insulator 2, powered at the supply point 10 and anchored by lower anchors 4, which are continuously insulated by anchor insulators 5, and by an upper anchor 6, also provided with anchor insulators 5 defining an active anchor section 7. which is connected with its lower end to the lower end of the return conductor 8, which is connected with its upper end to the apex region of the antenna mast 1.

An unlabeled voltage source connected between the antenna power point 10 and an unlabeled ground system of the antenna creates a current lining on all its conductive portions. The current flowing from the antenna mast 1 to the active anchor sections 7 via the return conductors 8 will cause the current lining of the lower portion of the antenna mast 1 to be similar to the extension of the antenna mast by a certain portion of its length. and the magnification <is its width by five.

Claims (1)

Transmitting antenna with a peak capacitive load consisting of an antenna mast mounted on a heel insulator and powered at a supply point, and anchors with anchor insulators, the lower anchors being continuously insulated including their ends, characterized in that the upper anchor (Θ) is in provided with anchor insulators (5) at the bottom and its upper end connected to the antenna mast (1) also via an anchor insulator (5) defining BACKGROUND OF THE INVENTION an active anchor section (7) wherein a lower end of the return conductor (8) provided in a vertical plane interspersed with the upper anchor (6) is attached to the lower end of the active anchor section (7) to the highest anchor insulator (5) 6), and the upper end of the return conductor (8) is conductively connected to the antenna mast (1).