1 GB 2 171 258 A 1
SPECIFICATION
Aerials This invention relates to aerials and more espe- 70 cially it relates to monopole aerials.
Due to the impedance variation of aerials over a given frequency band such as the HF or VHF bands for example, it is necessary to provide between an aerial and radio equipment with which it is opera tively associated, an impedance matching unit the characteristics of which should ideally be modified in accordance with a frequency received if match ing is to be optimised.
In order to reduce the impedance variations over a frequency band of interest so that the band can be covered with one matching unit, it is known to provide aerials comprising a plurality of capaci tively coupled elements.
It is an object of the present invention to provide an aerial having elements electrically linked by means of an improved capacitive coupling.
According to the present invention there is pro vided an aerial which comprises a plurality of elec trically isolated conductive elements adjacent elements of which are coupled capacitively by means of a transmission line, the transmission line comprising at least two conductors one of which is electrically connected to one of the elements and the other is electrically connected to the other ele ment.
The conductive elements and the transmission line may be supported by means of an insulating material, for example, fibre glass.
The two conductors of the transmission line preferably lie substantially parallel with respect to one another and may be supported in an insulating flat strip which is wound around the insulating material between the adjacent elements.
The end portions of the elements may be substantially the same diameter.
The aerial may be a monopole aerial.
Embodiments according to the present invention are advantageous in that the capacitive coupling is frequency dependent and a substantially 900 phase110 shift can be maintained between adjacent elements over a wide frequency band.
The invention will now be described by way of example with reference to the accompanying drawings: 1 Figure 1 shows part of a monopole aerial, in which a transmission line is wound around an insulating material between two adjacent elements of the aerial; Figure 2 shows the transmission line comprising 120 two conductors supported by an insulating flat strip; and Figure 3 is a circuit diagram of a matching unit associated with the monopole aerial of Figure 1.
In Figure 1, two adjacent conductive elements 1 and 2, which form part of a monopole aerial, are capacitively coupled by means of a transmission line 3. The conductive elements 1 and 2 may comprise fibre glass coated with a conductive material such as copper. The adjacent elements 1 and 2 are mechanically linked by means of an insulating section 4, of for example fibre glass, which may be formed integrally with the elements 1 and 2.
Figure 2 shows the transmission line 3 before attachment to the elements 1 and 2. The transmission line 3 comprises two conductors 5 and 6 which are supported in parallel relationship by a flat insulating strip 7.
Alternatively, the transmission line 3 may com- prise more than two conductors and may be round, instead of flat, in cross-section.
When the transmission line 3 is wound around the insulating section 4, it can be coupled to the elements 1 and 2 by electrically connecting one end of the conductor 5 to the conductive part of the element 1 and by electrically connecting the conductor 6 (at the other end of the transmission line 3) to the conductive part of the element 2.
The length of the transmission line 3, for the de- sired operating frequency band, is preferably such that the effective distributed capacity along the transmission line 3 varies with the impedance be tween the monopole aerial and the earth plane over which it is erected.
Figure 3 is a circuit diagram of a matching unit associated with a monopole aerial 11, which aerial can be constructed as described above. The mono pole aerial 11 is arranged to be coupled via a matching unit to radio apparatus (not shown) with which it is to be operatively associated. The match- ing unit comprises a T filter which includes serially connected conductors 12 and 13 and a shunt ca pacitor 14. The T filter is coupled to the monopole aerial 11 via a co-axial line 15 having a screen 16.
The screen 16 is connected to an earth rail 17 via conductors 18 and 19. In use, the monopole aerial 11 is coupled to radio apparatus via a socket 18 which is connected to the inductor 12 of the T fil ter.
By constructing a monopole aerial with capaci tively coupled elements as described above, radio apparatus may be fed from such an aerial via a single matching unit of the kind described with ref erence to Figure 3.