Miniaturized mobile radio receiver with dipole antenna

Communications: radio wave antennas – Antennas – With radio cabinet

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Details

455270, 455351, H01Q 124

Patent

active

045771952

DESCRIPTION:

BRIEF SUMMARY
The present invention relates to a miniaturized mobile radio receiver and more particularly to a dipole antenna for such a receiver.
A miniaturized mobile radio receiver of this kind is disclosed in DE-GM 67 52 498. To form a straight dipole, the radio receiver described there includes two lines running within a housing formed by two plastic shells. The shells are held together at their narrow sides by two conductive caps which are connected as capacitive loads to the ends of the dipole wires.
Conductive strips of a printed-circuit board in the housing which run near the dipole wires strongly interact with the latter, and conductive strips extending from one half of the dipole to the other represent a resistive-capacitive shunt to the antenna. This increases the loss resistance and the equivalent capacitance of the antenna.
The object of the invention is to provide an improved miniaturized mobile radio receiver.
This object is attained by the means set forth in claim 1. Further advantageous aspects of the invention are apparent from the subclaims.
UK Patent Application 2 029 112 A discloses a television aerial consisting of a housing containing a preamplifier and a half-wave dipole whose elements are formed from strips of metal foil and carried on a cardboard or similar base. Connected to the base of the antenna is a coaxial cable running to the preamplifier. Besides the strips of metal foil, the board carries no conductive strips.
In the miniaturized radio receiver according to the invention, the decrease in the effective height and in the efficiency of the antenna due to the adjacent conductive strips is reduced to such a point that very high receiver sensitivity is achieved.
An embodiment of the invention will now be explained in more detail with reference to the accompanying drawings, in which:
FIG. 1 is a highly simplified representation of the antenna and its equivalent circuit diagram;
FIG. 2 is an equivalent circuit diagram of the antenna with conductive strips opened to block the flow of RF signals, and
FIG. 3 is a perspective view of printed-circuit boards with an antenna.
FIG. 1a shows a printed-circuit board 1 of a miniaturized mobile radio receiver (not shown). Conductive strips and components have been omitted to simplify the illustration. Wires 2 running along the edge of the circuit board 1 form a straight dipole antenna. At the outer ends of the wires, capacitive loads are provided in the form of metallic areas 3. Between the wires and the areas on one side and the conductive strips of the circuit on the printed-circuit board 1 on the other side, capacitances C.sub.S are created (two of them are shown symbolically) whose value depends, inter alia, on the distance between the wires 2 and the conductive strips. If conductive strips extend from one half of the dipole to the other, the capacitances will act from one half of the dipole on the other.
FIG. 1b shows the influence of the capacitances C.sub.S on the antenna. The capacitances C.sub.S act beyond the base region of the antenna and, thus, represent a resistive-capacitive shunt. This greatly increases the loss resistance and the equivalent capacitance of the antenna.
FIG. 1c shows the equivalent circuit diagram of the antenna. A generator with the open-circuit voltage U.sub.O is connected in series with a loss resistance R.sub.A and an antenna capacitance C.sub.A. Connected across this series combination are the capacitances C.sub.S, which have been combined into a single capacitance, and a resistance R.sub.S. For the antenna load (not shown), this results in a capacitive voltage division which greatly reduces the output voltage of the antenna, and the resistive component R.sub.S causes a loss.
To avoid the resistive-capacitive shunt, all conductive strips of the printed-circuit board 1 are opened in the base region of the diple to block radio-frequency (RF) signals. This RF separation is indicated in FIG. 1a by the broken line 4. In conductive strips extending beyond the line 4 and interconnecting highly resistive sources and loads, res

REFERENCES:
patent: 3918062 (1975-11-01), Haruki et al.
patent: 4123756 (1978-10-01), Nagata et al.
patent: 4313119 (1982-01-01), Garay et al.
patent: 4491843 (1985-01-01), Boubouleix

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