DE2262511B2 - Combined VHF-UHF antenna - Google Patents

Description

The invention relates to a VHF-UHF antenna as it is assumed in the preamble of claim 1.

Such an antenna is described in US Pat. No. 2,657,312. There it consists of a smaller and a larger circular frame, the smaller one being arranged inside the larger one and rotated by 90 ° relative to it. Both frames are open at the bottom and mounted in a base. While the two conductors of an antenna line are connected to the two lower ends of the larger frame, the smaller frame is open! ¹ , the lower ends are capacitively bridged, and only one end is connected to one of the connections of the outer frame via a further capacitance. The outer frame is interrupted on its upper side by an insulating piece, and straight gaps of wire protrude from its two halves. This known antenna should be suitable for reception both in the lower and in the upper television frequency band and should not have a pronounced directional effect, but should receive as well as possible from all directions, so that it does not have to be twisted when changing the sensor.

Furthermore, from US-PS 35 21 284 a VHF antenna is known which has a pronounced directional effect should be obtained by the fact that they have a circular frame that is closed except for a feed gap Has Λ / 2 dipole in the form of two aligned pieces of wire, the ends of which are about the diameter of the frame protrude. The feed gap of this dipole is connected to the feed gap of the via a line coupler Frame interconnected, and the output of this coupler is via a line with the antenna input connected to a television receiver.

Finally, from DE-OS 19 07 918, a television antenna with a circular frame consisting of two halves is known, the ends of the frame half opposite the feed pipe being connected to one another via a resistor.
There is a strong need for a really cheap, spatially very small and mechanically stable antenna for efficient reception over the entire VHF and UHF television frequency band. Such an antenna should also have a sufficient directional effect to avoid multipath reception in areas with high reception field strengths. Inexpensive conventional indoor antennas, however, do not have sufficient directivity to detect signals arriving in other ways, e.g. B. reflected signals to suppress, which often leads to "ghost images" on the television. Conventional outdoor antennas have better directivity than indoor antennas, but they are large, bulky and more expensive.

The invention specified in claim 1 is based on the object of a spatially small, mechanically To create stable and inexpensive antenna for the entire VHF and UHF television range, which also characterized by good directivity. Special design features this antenna are characterized in the subclaims.

Ί5 The invention is explained below with reference to the drawing explained in detail. It shows

F i g. 1 is a perspective view of a multi-range television antenna according to the invention;

F i g. 2 a typical horizontal antenna character

5 (1 stik for the VHF antenna,

F i g. 3 a typical horizontal antenna characteristic for the UHF surface dipole with reflectors and Directors inside the VHF antenna with no slots in its frame,

F i g. 4 one of the F i g. 3 corresponding antenna characteristics, but with slots in the frame and

5 shows the circuit diagram of a UHF / VHF coupling element.

The frame of the VHF antenna 10 shown in FIG

bo consists of two semicircular metal strips 11 and 13. Instead of a circular shape, the frame can also have another shape, for example a square or rectangular shape. The VHF antenna 10 has a feed gap with connections 15 and 17 on both sides, which here can have a width of 1.3 cm. the Connections 15 and 17 are designed as a UHF / VHF coupling link 20 with terminals 19 and 21 Switch connected. On the opposite of the dining gap

lying side of the frame is between the metal strips 11 and 13 with an end gap Connections 23 and 25, to which a predominantly ohmic impedance element 27 is connected, which the Closing gap bridged. The diameter of the frame at points midway between the two Column is less than half the operating wavelength. For example, for operation in the VHF television range the diameter of 45.7 cm with a length of the two metal strips 11 and 13 of 71.1 cm each. The width: the metal straps 11 and 13 can each be 5.1 cm amount and they are tapered in a wedge shape at the ends of the connections 15, 23, 17 and 25 This wedge taper begins in the present case about 10.2 cm from the relevant enüe and serves to reduce the Capacity close to the connectors. The positive resistance of the impedance element 27 can be 395 ohms be.

The antenna diagrams for the VHF low and high television frequency bands are in the form of a Cardioid (cardioid characteristic), as shown in Fi g. 2 shown:

A UHF flat dipole 30 is located within the frame of the VHF antenna 10. It consists of two triangular flat sheet metal pieces 31 and 33 with a feed gap between connections 2 on both sides; 35 and 36. The two sheet metal pieces each have the shape of an isosceles triangle, the more acute angles of which form the feed connections of the dipole 30. The length and shape of the surface dipole are selected so that its frequency range extends over the entire UHF television frequency band. For this purpose, the surface dipole 30 can have a length of 36.8 cm from the end 37 to the other end 39. The width of the dipole halves 31 and 33 at the two ends 37 and 39 can be 8.9 cm. The gap r> between the connections 35 and 36 can be 0.95 cm wide. The connections 35 and 36 are connected to input terminals 41 and 43 of the UHF / VHF coupling element 20.

Behind the surface dipole 30 there is an ad reflector 45 in the same plane as the sheet metal pieces 31 and 33 of the dipole at a distance of approximately 7 cm from the connections 35 and 36; in the present case it is 36.8 cm long and can be a flat metal strip with a width of 1.3 cm. The 4 ^r > reflector 45 increases the directivity of the UHF antenna in that signals coming from the direction of the feed connections 15 and 17 can be better received.

Between the surface dipole 30 and the feed connections 15 and 17 there are three director elements> o 47, 49 and 51. The director element 47 consists of two metal strips 47 A and 47 3, each with z. B. a length of 15.2 cm and a width of 1.3 cm. The metal strips 47 A and 47 3 are colinear and lie in one plane with the surface dipole 30. In the present case, a distance of 6.4 cm is provided between the adjacent ends of the metal strips 47/4 and 47 3. The director element 47 is in the present Pail 7 cm in front of the feed connections 35, 36 of the surface dipole 30. The director element 49 also consists of two kolinea- wi ren metal strips 49A and 49ß, which are in front of the director element 47 and in a plane with this and with the Surface dipole 30 are arranged and each have a width of 1.3 cm, a length of 15.2 cm and a distance of 1.3 cm at their adjacent ends. Their distance from the director element 47 is 6.4 cm. The director element 51 consists in the same way of two 1.3 cm wide metal strips 51 / t and 51 ß, which are arranged colinearly with one another and in front of the director element 49 as well as in a plane with this, the director element 47 and the surface dipole 30. The metal strips 51/4 and 51 ß each have a length of 15.2 cm and s ^: nd 6.4 cm in front of the director element 49 with a mutual spacing of 1.3 cm. The UHF receives through the director elements 47, 49 and 51 -Antenna has a better directional effect compared to an antenna with only one surface dipole with an increased antenna gain for signals coming from the direction of the feed connections 15 and 17.

An additional improvement in the directivity of the UHF antenna is provided by the L-shaped slots 53,55 in the metal band 11 and the L-shaped slots 57 and 59 achieved in the metal band 13. 3 shows an antenna diagram for a frequency in the UHF band of 600MHz in the horizontal plane for a VHF / UHF antenna of the type described above without the slots. F i g. 4 shows a corresponding diagram for the same Antenna and the same frequency of 600MHz with the Slots in the same UHF band. Note the reduction in size of the strong side lobes at 90 ° opposite the main lobe of the diagram.

The slots 53 and 55 cut the two edges 61 and 63 of the metal strip 11 at a distance of about 15.2 cm from port 17 and converge about 1.3 cm and then about 7 cm parallel to each other; their width is 0.6 cm each. The slots 57 and 59 also intersect the two edges 65 and 67 of the metal band 13 at a distance of about 6 inches from the connector 15 and run approximately 1.3 cm towards each other and then approximately 7 cm parallel to each other. They are 0.6 cm wide. Since the Distance between the pair of slots 53 and 55 and the pair of slots 57 and 59 in the present case 15.2 cm + 15.2 cm plus the 1.3 cm gap width between ports 15 and 17 is the Total length more than 30.5 cm or at least half a wavelength at a frequency in the UHF television frequency band.

The coupling element 20 (FIG. 5) can be formed by a high-pass filter and a low-pass filter. Between the leading to the television set output line connections 71 and 73 and the supply line connections 41 and 43 for the UHF antenna 30, a high-pass filter is connected, which gives the VHF signals a high reactance offers and lets the UHF signals through. In contrast, the low-pass filter offers the UHF signals has a high reactance and leaves signals in the low and high VHF television frequency band happen.

An additional antenna gain in the UHF band can be achieved without increasing the dimensions of the frame 10 can be obtained by making the flat sheet metal pieces 31 and 33 longer (e.g. by about 2.5 cm) and the sheet metal pieces 31 and 33 bends at right angles, as indicated by the dashed lines Lines 75 and 76 indicated in FIG. This adds some extra capacity to the VHF antenna frame introduced. This capacitance effect can be achieved by the high-pass filter between the connection pair 41 and 43 and the pair of terminals 71 and 73 are eliminated.

In the arrangement described above, the UHF surface dipole 30 is located with the associated ones UHF directional elements within the frame of the VHF antenna 10 in a plane with this. One can

however, also arrange the UHF antenna 30 with the associated directional elements within the frame slightly above or below the plane of the frame, as long as the distance above or below the plane of the antenna frame is less than half a wavelength in the UHF band between the feed plane of the VHF antenna and the feeding level is the UHF surface dipole.
With the antenna described here, d ^; e spacing adjustment and the holder for the elements take place with the help of a support element made of dielectric foam or low-dielectric plastic, to which the metals are attached. The distance between the metal 47/4 and 473 is so great that an antenna (indicated by the dashed line 81) fits there and is attached to the support element.

For this ?. Sheet drawings

Claims (5)

Patent claims: 1. Combined VHF-UHF antenna with a conductive frame that forms the VHF antenna and is attached to two opposite points is interrupted by a gap each and the one at the Column has a diameter that is smaller than half the wavelength of the specific direction VH F operating frequency, and at the ends of a gap connections for a first antenna line forms, and with a completely arranged within the frame perimeter of the VHF antenna, UHF antenna provided with a feed slot, the feed slot of which is of the same diameter how the column of the VHF antenna lies and is connected to a second antenna line that goes over a switch is connected to the first antenna line, characterized in that, that the gap (23, 25) opposite the feed gap of the VHF antenna is predominantly through a ohmic impedance (27) is bridged and that the UHF antenna (30) is a surface dipole (31, 33), the is arranged essentially in one plane with the frame of the VHF antenna (10), and that this Level runs at least approximately horizontally. 2. Antenna according to claim 1, characterized in that on the feed gap (15, 17) of the VHF antenna (10) opposite side of the surface dipole (31, 33) a thin metal reflector strip (45) is located within the conductive frame. 3. Antenna according to claim 2, characterized in that on the feed gap (15, 17) of the VHF antenna (10) facing side of the dipole (31, 33) at least one aligned pair of thin metal director strips (47a, 476 or 49a, 49b or 51a, 5 \ b) is arranged within the conductive frame. 4. Antenna according to claim 3, characterized in that the conductive frame (11, 13) in slots (53, 55, 57, 59) that act as flow barriers at the same distances from the feed gap (15, 17) has, the mutual distance is so dimensioned. that the intermediate piece of the conductive As a director. 5. Antenna according to claim 4, characterized in that the slots (53, 55, 57, 59) are L-shaped are trained.