DE580291C - Common wave arrangement in which a fundamental frequency is fed from a central point from the individual transmitters via lines - Google Patents

Description

There are two. Types of Control of Common Wave Broadcasters. In one case, a basic frequency is generated at a central point and fed to the individual transmission points with the aid of cable 5 or overhead lines. A base frequency is selected from the upper range of the speech frequency range that can be transmitted over the relevant line without excessive attenuation.

At the individual broadcasting stations, it is multiplied with the help of iron chokes or tubes and fed to the transmitter.

The other arrangement has the fundamental frequency generator and the cable lines avoided. The individual transmission points are equipped with quartz crystals that are in special thermostats are housed so that their natural frequency * is independent of external temperature influences remains as constant as possible. Compared to this arrangement offers the first mentioned advantages. How more detailed investigations of the. Propagation conditions have resulted in the first method the areas of confusion, d. H. such areas between the individual channels, in which the reception is disturbed, a much smaller extent; the single-frequency transmitters can therefore cover a larger area.

It is therefore more advantageous, according to the first proposal, to provide a basic frequency from a central point from the individual transmission points to feed. In the procedure previously carried out according to this principle, a Fundamental frequency generator, preferably a tube generator used, which has a low Frequency that was immediately suitable was supplied to the individual broadcasting stations via cable lines to be fed. It has hitherto been assumed that fluctuations in this arrangement the basic frequency • are not harmful, since then all the controlled transmitters fluctuate evenly and accordingly disturbances are not very critical. This view is not correct, however, frequency fluctuations must also be avoided here, so that the interference areas can be kept as small as possible.

The conditions can be improved according to the invention by working on the central Place a frequency generator, preferably a quartz crystal is used, its natural frequency only taking into account its physical properties is selected with a value at which it is as possible the constant that can be achieved with such frequency generators Owns natural frequency. A frequency decrease is used to control the remote transmitter and a corresponding multiplication is made at the end of the cable.

The invention is based on the following consideration, based on a quartz crystal for example be explained §oll. It is

58029t

rides difficulty in making crystals for very low frequencies, as these are very become thick and accordingly vibrate badly and above all as a further consequence are little constant. According to the invention, the natural oscillation of the quartz should be like this be chosen that results in the greatest frequency constancy that can be achieved. The best value for quartz crystals is ίο at a wavelength of 100 to 3000 m. This frequency, which is too high for cable transmission, is correspondingly reduced and fed to the individual transmitters for control. It is of course a matter of indifference whether the transmitter, which is usually present at the central point, is controlled directly from the quartz or whether you can also use this transmitter after lowering the frequency with a multiplier provides. The last way mentioned seems unnecessary at first Having effort, however, offers this method to avoid repercussions possibly advantages.

In the figure, an arrangement for implementing the subject matter of the invention is shown purely schematically. The quartz selected according to the invention at the central point Z with its thermostat etc. is schematically illustrated with Q. The frequency supplied by it is fed to an arrangement E for lowering the frequency.

For this purpose, known arrangements are suitable in which z. B. is worked with overlay or with a double lattice tube with a blocked grid, etc. The lowered frequency is then fed to the individual transmission points via cable lines K. This is where the multiplying devices V and the actual transmitters S with their devices are located. The figure shows the case in which the lowered frequency also controls the transmitter at the central point Z, in that a multiplier V ₇ and a transmitter S _{2 are} connected in front of the frequency lowering device E.

Claims (1)

Claim: Single-frequency transmission arrangement, with which a basic frequency from a central point from the individual transmitters is supplied via lines, characterized in that the value for the frequency of the generator at the central point is chosen in which the generator is based on its physical properties has the greatest possible frequency constancy, and that that of the frequency generator generated frequency decreased and over lines to the individual transmitter is fed. 1 sheet of drawings