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Publication numberUS2802210 A
Publication typeGrant
Publication dateAug 6, 1957
Filing dateMay 23, 1955
Priority dateAug 19, 1949
Publication numberUS 2802210 A, US 2802210A, US-A-2802210, US2802210 A, US2802210A
InventorsWalter Berndt
Original AssigneeTelefunken Gmbh
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Tuned dipole type antenna
US 2802210 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)

Aug. 6, 1957 W. BERNDT TUNED DIFOLE TYPE ANTENNA 2 Sheets-Sheet 1 Filed May 23, 1955 WALT-ER BERNDT I I 3 3 A K 2 l l I I I H H m I H. 5 l ll r 3 1A 2 3 IIII I.I PII.IIIIII T a w .E 311 PATENT AGENT 6, 1957 w. BERNDT 2,802,210

TUNED DIPOLE TYPE ANTENNA Filed May 23, 1955 2 Sheets-Sheet 2 I8 /8 I Z A Y 20 Y k R i I 1 l i a 2 'INVENTOR I WALTER BERNDT PATEN T AGENT United States Patent Qfiice 2,802,210? Patented Aug. 6, 1957 TUNED DIPOLE TYPE ANTENNA Walter Berndt, Berlin, Germany, assignor to Tel efunken G. in. b. H., Berlin, Germany Application May 23, 1955, Serial No. 510,302 Claims priority, application Germany August 19 1949 8 Claims. (Cl. 343792) The present invention relates to an antenna for transmitting or receiving electro-magnetic' waves, said antenna being connected to electronic transmitting or receiving apparatus by means of a coaxial cable. Such antennas are often exposed to lightning, or they might be charged by other atmospheric electricity. To prevent damage to the electronic apparatus and cables connected to the antenna, it has been previously known to connect the outer conductor of the coaxial cable to a vertical radiator and the inner conductor of the coaxial cable to a balance member. However, the safety with respect to lightning of this arrangement is not satisfactory. Experience has shown that discharges by lightning do not necessarily strike the highest points of the antenna installations. Also, the parts which are located at lower levels are endangered by the lightning if they have an appreciable height above ground. Therefore, in case of the known prior art arrangement, a passage of discharges or, at least, partial discharges to the balance member connected to the inner conductor of the cable has to be taken into account. This is particularly true in antenna installations for short waves which antennas have correspondingly short radiator elements in which the lower radiator element is located relatively close to the grounded upper element.

The problem of matching the radiation resistance of the antenna to the impedance of the coaxial feed cable has not yet been solved in a satisfactory manner in the prior art antenna arrangement. In the known arrangements, an open balanced conductor section of wave length M4 has been used for this purpose, the individual conductors of this balanced conductor section forming continuations of the two conductors of the coaxial cable. The ungrounded radiator of such an antenna is connected with the outer cable conductor via one of the balanced conductors of the matching section, and is thereby electrically grounded. However, the risk that the installation might be hit by lightning is not essentially decreased, because the open balanced matching conductors might be hit by lightning just as easily as the radiator which is located only slightly higher.

In the antenna arrangement according to the present invention, a safe by-passing of the atmospheric electricity to the ground is assured.

It is an object of the invention to provide in an antenna system two individual radiators arranged one above the other, each of said radiators being of about one half wave length, and a coaxial feed cable, the electrically grounded outer casing of which is connected to the upper radiator, while the inner conductor of this feed cable is connected with the lower radiator, whereby the lower radiator is made in the form of a tube enclosing the coaxial feed cable.

It is another object of the invention to provide in one part of the tubular radiator, preferably the lower part, a blocking filter to present to the tuned frequency of the antenna a high impedance to ground, and it is a further object to provide within the upper part of the 2 tubular radiator an impedance matching transformation section. 1

In an antenna according to the present invention, the upper radiator is electrically grounded via a connection known per se, to the cable outer conductor. In case of the use of individual radiators of length N/ 2 there is sufficient space inthe lower tubular radiator to receive the transformation matching section in the innerchamber of this radiator and simultaneously the blocking filter for suppressing standing waves. In this construction, both of these parts required for good operationare completely protected againstdamaging influence of atmospheric electricity, whereby the short-circuit bridge of the M4 blocking filter and also of the transformation matching section are preferably designed as coaxial tubular conductor elements connecting electrically the lower radiator to the cable outer conductor and thereby to ground. In this manner a superior antenna design of a compact and simple construction is obtained, assuring a safe discharge path to ground for atmospheric electricity at all points of the outer surface of the antenna.

It has been known to provide a blocking filter in the interior of a radiator of length M4 surrounding the feed cable. However, in this known antenna design no space for the transformation matching section is available within the radiator due to the considerable length of the radiator. In this prior art structure the upper radiator is connected to the inner conductor of the cable so that no safety with respect to lightning is obtained. In another prior art antenna design a single vertical radiator is mounted on a standing pipe, said radiator being connected to the inner conductor of a coaxial cable without insertion of a transformation matching section. A blocking filter is built into the interior of this single radiator. However, this known antenna is neither safe with regard to lightning nor can the matching of the radiation resistance of the antenna to the impedance of the cable be considered satisfactory.

These and other important objects and advantageous features of this invention will be apparent from the following detailed description and drawings appended thereto wherein, merely for the purposes of disclosure, nonlimitative embodiments of the invention are set forth.

Fig. 1 of the drawing shows one embodiment of the invention. A

Fig. 2 is a diagram of the current distribution in the antenna of Fig. 1. V

Figs. 3, 5 and 7 are further embodiments of the invention, the corresponding current distribution diagrams in the antennas of these figures being shown in Figs. 4, 6 and 8, respectively.

In Figure 1 of the drawing, 1 and 11 denote two single radiators arranged one above the other, each of said radiators being of half wave length and being connected to a transmitter or to a receiver, not shown. The co-- axial cable comprises an outer conductor 3 grounded at 10 and an inner conductor 4. To the high frequency current flowing along the inner conductor 4 there cor-- responds a high frequency current of equal intensity directed in opposite direction, said latter current flowing on the inner side of the outer conductor of the cable, This current is fed to the upper radiator 1 so that this:

radiator is electrically connected to the outer cable con-- The high frequency current flowing on the inner conductor is supplied to the lower radiator 11 which forms with the upper radiator ductor, as shown in Figure l.

1 the two members of a balanced dipole.

Within the lower tubular radiator there is housed a quarter wave length (M4) blocking filter 12, the tuning: of which is controlled by the position of the short cir-- cui-t bridge 13 which is conveniently adjustable. Theblocking filter prevents the formation of standing waves on the outer cable conductor 3. To obtain a reflectionfree match of the radiation resistance of the antenna to the impedance of the high frequency cable 2, the upper part 14 of the interior of the tubular radiator 11 is designed to be a transformation matching section, -the impedance of which can be adjusted by means of a slidable short circuit bridge 15.

It can readily be seen that dangerous electric charges from the radiator 1 and from the radiator 11 can always be directly discharged to ground via a continuous metallic circuit path, because the radiators are cit-actively grounded for all frequencies, including direct current, deviating from the frequency for which the antenna system is tuned, while for this tuned frequency an effective high frequency resistance in the form of a tuned blocking filter 12 is provided between the point of grounding of the outer conductor 3 and its connecting point to the radiator 1.

Fig. 2 illustrates adjacent to the radiators 1 and 5.1 a

current (1) distribution diagram for the case of a radi- L ator of length A.

In the example of Figures 3 and 4, the radiators have an effective length which is somewhat longer than one half wave length (M2), for example the radiator length can be made 5/8A. By providing end loading capacities 16 and 17 at the upper and lower radiator ends, respectively, the structural height of the total antenna is made smaller While the same electrical length is retained. Also in this embodiment, the chamber formed by the tubular lower radiator 11 is utilized to house the blocking filter 12 and the transformation matching section.

The new antenna is advantageously designed in such a manner that the part of the outer conductor of the coaxial cable which is directly connected to the radiator 1 is a solid pipe supporting the antenna structure. This new construction can be employed in stationary and in portable radio installations.

In the embodiments of the invention according to Figs. 5 to 8, an antenna construction similar to Fig. 1 is extended at both the top and the bottom by radiators 18 and 19, respectively, having a length of M2 in Figs. 5 and 6, and 5/8A in Figs. 7 and 8. Connecting numbers 20 and 21, well known in the prior art, are used to suppress an undesirable portion of the negative half wave as shown in Figs. 5 and 6. These embodiments are likewise safe with respect to lightning.

Although in accordance with the provisions of the patent statutes this invention is described as embodied in concrete forms and the principle of the invention has been explained together with the best modes in which it is now contemplated applying that principle, it will be understood that the elements and combinations shown and described are merely illustrative and that the invention is not limited thereto, since alterations and modifications will readily suggest themselves to persons skilled in the art without departing from the true spirit of the invention or from the scope of the annexed claims.

I claim:

1. A tuned dipole type antenna having two single radiators one above the other, each radiator being of half wave length, said antenna having a coaxial feed cable, the grounded outer conductor of which is connected to the upper'radiator and the inner conductor of which is connected to the lower radiator, characterized in that the lower radiator is made in the form of a tube, surrounding and coaxial with the feed cable, further characterized in that a part of said tube is provided with a short circuiting bridge to the said outer conductor to provide a high frequency impedance to ground for the tuned operating frequency currents flowing on the outside of the outer conductor, and further characterized in that another part of the tubular radiator is provided with a second shortcircuiting bridge to said outer conductor, said second bridge serving as a matching section to match the antenna resistance to the cable impedance.

3.. An antenna according to claim 1, said part being the lower part and said other part being the upper part of the said tubular radiator.

3. An antenna according to claim 1, said part being the lower part and said other part being the part of the tubular radiator facing said upper radiator.

4. An antenna according to claim 1, wherein the said sh rt-circuiting bridges are axially positionable within said tubular radiator.

5. An antenna according to claim 1, characterized in that further radiator extensions are connected by inductive loading means to the tubular radiator and the upper radiator respectively, at the ends thereof.

6. An antenna according to claim 1, characterized in that the tubular radiator and upper radiator projecting therefrom are provided with end loading capacities.

7. An antenna according to claim 1, characterized in that the electrical length of the single radiators is longer than half a wave length.

8. An antenna according to claim 7, said single radiators having an electric length of 5/ 8k.

References Cited in the tile of this patent FOREIGN PATENTS 919,718 Germany Sept. 23, 1954

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
DE919718C *Aug 20, 1949Nov 2, 1954Telefunken GmbhAntennenanordnung
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3022507 *Oct 29, 1953Feb 20, 1962Antenna Engineering LabMulti-frequency antenna
US4442438 *Mar 29, 1982Apr 10, 1984Motorola, Inc.Helical antenna structure capable of resonating at two different frequencies
US4491849 *Jan 21, 1982Jan 1, 1985Tilston William VRadio antenna
US4504834 *Dec 22, 1982Mar 12, 1985Motorola, Inc.Coaxial dipole antenna with extended effective aperture
US5563615 *Apr 3, 1995Oct 8, 1996Motorola, Inc.Broadband end fed dipole antenna with a double resonant transformer
US5977931 *Jul 15, 1997Nov 2, 1999Antenex, Inc.Low visibility radio antenna with dual polarization
US6292156Oct 29, 1999Sep 18, 2001Antenex, Inc.Low visibility radio antenna with dual polarization
US7209096Jan 21, 2005Apr 24, 2007Antenex, Inc.Low visibility dual band antenna with dual polarization
US20050200554 *Jan 21, 2005Sep 15, 2005Chau Tam H.Low visibility dual band antenna with dual polarization
US20120218169 *Jul 10, 2009Aug 30, 2012Jan Johannes Maria Van Den ElzenAntenna arrangement apparatus, reception apparatus and method reducing a common mode interference signal
U.S. Classification343/792, 343/864
International ClassificationH01Q9/18, H01Q9/04
Cooperative ClassificationH01Q9/18
European ClassificationH01Q9/18