DE547365C - Directional antenna - Google Patents

Description

GERMAN EMPIRE

ISSUED AH MARCH 23, 1932

REICH PATENT OFFICE

PATENT LETTERING

Vr 547365 CLASS 21a * GROUP

NVPhilips' Gloeiiampenfabrieken in Eindhoven *) Directional antenna

Patented in the German Empire on July 27, 1929

The invention relates to antennas for broadcasting radio signals, and more particularly to those with directional effects.

Directional antennas and especially antenna systems are known in which a number of radiators is arranged between two feed conductors.

The purpose of the invention is to create an antenna arrangement whose directional property o th can easily be changed. The antenna system consists of two parallel conductors, to which energy is supplied at one or both ends, and from perpendicular to the parallel feed conductors and in the Level of this conductor lying radiators.

According to the invention, the radiators are alternately connected to one or the other feeder at intervals equal to half a wavelength. The connecting line between the ends of the - feeder has an electrical length which is chosen such that on. the ends of this connecting line are in phase. The antenna structure can be fed at one or both ends by coupling the connecting line to one or two further feed lines.
By suitable selection of the coupling of the two connecting lines with the feed lines coming from the generator, the directional effect of the antenna can be changed in the desired manner.

The special means by which the known change in directivity is achieved will be based on the drawing, in the two embodiments of the invention are shown schematically, described in more detail.

Fig. Ι shows an antenna to which the method according to the invention are applied can.

Figure 2 shows another embodiment of the conductors that terminate the transmission line.

Figure 3 is a schematic of an antenna fed only on one side.

As can be seen from Fig. 1, the antenna 1 consists of a transmission line which is formed by two horizontal conductors 2, which are at a distance of half a wavelength are arranged one above the other and between which there are intervals of half a wavelength a number of radiators 3 are located, the length of which is half a wavelength. The transmission line is terminated on both sides by a conductor 4, the means a coil 5 is given electrically twice the length of half a wavelength, while

*) The patent seeker indicated the following as the inventors:

Maximiliaan Julius Otto Strutt and Popko Reinder Dijksterhuis in Eindhoven.

the supply on both sides on one of these half wavelengths by means of transformers 6 he follows. These transformers are fed via lines 7 from an autotransformer 8, which is coupled to the transmitter by lines 9. In order to achieve phase equality of the currents in both feed lines are self-inductions 10 which can be regulated in the latter recorded.

It is also possible to give the conductors 4 a spatial length of twice half a wavelength to give what is also advantageous for the construction. This device is shown in FIG.

Since the ends of each conductor 4 are in the same phase and the radiators 3 are spaced apart half a wavelength are alternately connected to one of the conductors 2 at the top and bottom, it can be achieved that all radiators are triggered in the same phase, so that a directional

ao radiation occurs whose main direction is normal perpendicular to the antenna plane.

By relative change in the amplitude of the supplied on both sides of the antenna It is possible to easily distinguish between these main radiation currents Limits to vary. This change in amplitude can be made more variable by shifting Junction points 11 are effected on the autotransformer while by means of the mentioned adjustable self-induction 10 the phase equality of the along the two Feed lines 7 supplied currents is regulated.

Fig. 3 shows an antenna system which is only fed on one side. In this case it will the desired change in amplitude achieved in successive radiators in that in each of the lines 2 between the successive ones Connection points of each pair of radiators an adjustable resistor iz and one adjustable self-induction 13 are connected in series. The latter is used in this case for phase correction.

When applying the method according to the present invention to one of these The main purpose of the antenna, which is preferably to be used, can be the main direction of radiation Angle of about 30 ° can be rotated, which is ample enough for sending over long distances is. The main direction of radiation turns to both sides of the original, so that at the same time the sharpness of the radiation is somewhat reduced.

In order to achieve proper directivity, it is desirable that the length of the antenna is more than one wavelength.

Claims (5)

Patent claims: 1. Directional antenna, consisting of two parallel conductors fed at one or both ends and perpendicular to these connected radiators and lying in their plane, characterized in that the in Transverse radiators arranged side by side alternately at intervals of half a wavelength are connected to one and the other of said parallel conductors. 2. Directional antenna according to claim 1, characterized in that the electrical Length of the coupling line or lines connecting the parallel conductors (4, 5) 'is equal to a wavelength or a multiple of a wavelength. 3. Directional antenna according to · Claim 2, characterized in that each coupling line (4, 5) is connected to another feed line (7), which is from a adjustable autotransformer (8) common to the feed lines is branched off. 4. Directional antenna according to claim 1 and 2 with unilaterally fed parallel conductors, thereby characterized in that in each parallel conductor between two consecutive Connection points of the transverse radiators a changeable resistor and a changeable one Self-induction are switched. 5. Directional antenna according to claim 1 to 4, characterized in that in the feed lines (7) controllable self-inductions are switched on. 1 sheet of drawings