DE3244256A1 - FM SINGLE WAVE RADIO SYSTEM - Google Patents

Description

EK / PLI Scht / Li

11/29/1982

ROBERT BOSCH GMBH, 7QOO Stuttgart 1

FM single-frequency radio system State of the art

The invention is based on an FM single-frequency radio system according to the genre of claim 1 from »

There is already an FM single-frequency radio system known (Funkschau, 1982, Issue 13, pages 51 to 54), in which it is ensured that all single-frequency transmitters transmit on exactly the same frequency. For example, the Single-frequency transmitters Transmitter oscillators operated by a synchronous transmitter that is common to all single-frequency transmitters be synchronized. Such a radio system can only be used to a limited extent for mobile radio service because In areas in which the field strengths of two single-frequency transmitters are equal and out of phase, extinction zones arise in which no reception is possible. In another known single-frequency radio system the single frequency transmitters must have a predetermined small frequency offset with extremely high frequency constancy, so that the occurring in the overlap area Shift standing waves spatially and only briefly lead to extinction zones. This procedure is technical and economically expensive.

Advantages of the invention

The FM single-frequency radio system according to the invention with the Characteristic features of claim 1 has the advantage that in a radio area cancellation zones through

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Antiphase and existing reception voltages with the same amplitude can arise, with relatively low Effort almost without exception / avoided.

The measures listed in the subclaims are advantageous developments and improvements of the FM single-frequency radio system specified in claim 1 are possible. An FM single-frequency radio system according to the invention in which each single-frequency transmitter has one is particularly advantageous Random generator is assigned, which controls the transmission power according to the random principle. Suitable for these purposes Random number generators are known from various fields of electronics.

According to another particularly advantageous development of the invention, the changes in the transmission power are thereby reduced caused that the radiation directions of the transmitting antennas of the single-frequency transmitters are constantly changing. Through the The resulting changes in field strength almost never have two single-frequency transmitters continuously at one receiving location be received with the same amplitude in antiphase.

drawing

Two exemplary embodiments of the invention are shown in the drawing using two figures and in the following Description explained in more detail. The drawing shows in

1 shows a diagram of a radio area with four single-frequency transmitters according to the invention in a first embodiment and

2 shows a diagram of a radio area with two single-frequency transmitters according to the invention in a second embodiment.

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Description of the invention

In a radio area according to FIG. 1 there are four single-frequency transmitters S1 ... S4 arranged spatially distributed such that the individual radio areas B1 ... B4 are slightly overlap, so that operating in the radio areas, mobile Radio stations M1, M2 receive the signals from at least one common wave transmitter can receive. The transmission frequencies of the single frequency transmitters are synchronized by one for all single-frequency transmitters common synchronous transmitter SY, which serves as a frequency standard, kept constant. the Synchronous signals arrive, for example, via lines L1 ... to the individual single-frequency transmitters. The connections between the synchronous transmitter SY and the single-frequency transmitters can also be carried out by radio * In particular in the Overlap zones ÜZ it can happen that the reception field strengths of two single-frequency transmitters, for example S2 and S4, are of the same size and the signal is in phase opposition. This causes the signals from the two single-frequency transmitters to be deleted and a mobile station operating in the extinction zone, e.g. MV, may have one dedicated to it Information not received.

If the transmission power of the single-frequency transmitter S1 is now continuously varied in such a way that at any point in time If all transmitters emit different transmission powers, the extinction zones wander and cause one at the location mobile radio station only short-term erasures that cannot seriously disrupt radio traffic.

1 shows the constantly changing transmission powers due to the associated changes AF in the field strengths indicated.

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The changes in the transmission power of the single frequency transmitters are controlled by a random generator Z, which the Transmission power P at random changes constantly, so that there are no equally high reception field strengths at any location of a mobile radio station. The constant variation the transmission power can also be brought about by a control device that selectively, i.e. not randomly, controls. If necessary, the control devices can use the sync signals from the sync transmitter that are already present SY are synchronized.

From Fig. 1 it can also be seen that due to the variation in the transmission power at the external single-frequency transmitters, for example S1, the normal range is so short at times becomes that a mobile radio station operating in the area AF cannot be reached. To this disadvantage too avoid, are according to Fig. 2 for the variation of the radiated transmission power of the single-frequency transmitters S5, S6 transmission antennas A is provided, the radiation characteristic of which results in a preferred direction; see directional characteristics R1 and R2. By turning (see arrows in Fig. 2) or swinging the preferred direction by means of known electronic measures achieves that the field strength conditions in the overlap area change continuously. As a result of the suppression effect at FM receivers ensure that the stronger station is received without interference.

Claims (5)

EK / 'PLI Scht / Li 11/29/1932 ROBERT BOSCH GMBH, 7000 Stuttgart 1 ■ ■ "" ί ■ Expectations 1 J FM single-frequency radio system with several single-frequency transmitters that are spatially distributed in the radio area, the transmission frequency of which is kept constant by means of synchronous signals from a frequency standard common to all single-frequency transmitters and mobile radio stations operate in their radio areas, characterized in that the individual single-frequency transmitters radiated transmission powers are constantly varied in such a way that the received field strengths change continuously asynchronously at any receiving locations in order to avoid extinction zones due to antiphase with the same received field strength. 2. FM single-frequency radio system according to claim 1, characterized in that each single-frequency transmitter (S1 ...) a random generator (Z) is assigned to the radiated transmission power according to the random principle controls. 3. FM single-frequency radio system according to claim 1 or 2, characterized in that each single-frequency transmitter (S1; ..) a control device is assigned and that the control devices the transmission power of the Control single-frequency transmitters in a targeted manner in different ways. 4. FM single-frequency radio system according to claim 1, characterized characterized in that the variation of the received field strength by changing the antenna radiation direction is effected. 34/82 - 2 - 5. FM single-frequency radio system according to claim 4, characterized characterized in that the variation of the emission direction is controlled by a random generator. ^BAü