DE1257859B - Arrangement for generating the pilot frequencies 84, 08kHz and 411, 92kHz in carrier frequency systems - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H 04 j

German class: 21 a2 - 39/10

Number: 1257 859

File number: S 98430 VIII a / 21 a2

Filing date: July 26, 1965

Open date: January 4, 1968

The invention relates to an arrangement for generating the pilot frequencies at 84.08 and 411.92 kHz Carrier frequency systems generated by a common basic generator, native to the system or derived from it derived carrier and signal frequencies.

The synchronous derivation of the group pilot and supergroup pilot frequency, which was previously in free-swinging Individual generators were generated, comes along with the derivation of the carrier frequencies from a common basic generator of particular importance in newer carrier frequency systems to, because this measure means a central frequency adjustment of the carrier supply on the basic generator can be made.

Arrangements have already been made for the synchronous derivation of the pilot frequencies for various TF systems proposed in which, taking advantage of the selection effect of harmonic frequency dividers and then modulating an existing carrier frequency with the divider output frequency economic construction of the pilot frequency leads is made possible. For the carrier supply of the four-wire 960 trunking system an arrangement was proposed for the derivation of the two pilot frequencies 84.08 and 411.92 kHz in which the auxiliary frequency 11.92 kHz and modulation with the carrier 96 kHz and the further modulation of 84.08 kHz With the pilot converter frequency 496 kHz, the two pilot frequencies are generated in separate modulators. The auxiliary frequency is obtained by frequency division from 596 kHz.

The object of the invention is to provide an arrangement for the simple generation of the pilot frequencies 84, 08 and 411.92 kHz from the system's own carrier and auxiliary frequencies derived from a single basic generator to accomplish.

The arrangement for generating the pilot frequencies 84.08 and 411.92 kHz is according to the invention designed in such a way that in a modulator which is controlled in such a way that its current conduction angle is approximately 90 °, the carrier frequency 124 kHz and the frequency 39.92 kHz mixed and at its output the first order difference mix product 84.08 kHz and the third mix mix product Order 411.92 kHz are screened out. By these measures one achieves that in carrier frequency systems, where the frequency 124 kHz is required, the generation of the two pilot frequencies in one and the same modulator can be made. This is compared to the aforementioned Arrangements achieved a cost reduction of about 50%.

Arrangement for generating the pilot frequencies
84.08 kHz and 411.92 kHz at
Carrier frequency systems

Applicant:

Siemens Aktiengesellschaft, Berlin and Munich, 8000 Munich 2, Witteisbacherplatz 2

Named as inventor:

Josef Dömer, 8000 Munich;

Dipl.-Ing. Alfons Mehr, 8032 Graefelfing

By choosing the current flow angle 90 ° with the modulator one obtains the further advantage that the Amplitudes of the mixed products of the first and third order have a maximum and are only differ from each other by a factor of 3, while the mixed products of the second and fourth order are not included in the output current. Furthermore, the 3rd harmonic is also in the output current suppressed.

The required secondary frequency spacings can be found in the first order differential mixed product and easily comply with the third order sum mix product using simple filters.

If the frequencies 124, 496 and 300 kHz are available without spurious waves, this results in a optimal solution for deriving the pilot frequencies when the auxiliary frequency is 39.92 kHz is generated in such a way that from the carrier frequency 496 kHz by frequency division 5: 1 and the following Implementation with 300 kHz the frequency 399.2 kHz is formed and a frequency divider 10: 1 is fed.

However, since the frequency of 300 kHz used as the reference pilot frequency is generally used is not available free of secondary waves, it is useful in this case to generate the Make auxiliary frequency 39.92 kHz in such a way that from the carrier frequency 124 kHz by division 5: 2 the frequency 49.6 kHz arises, that this with the frequency 150 kHz, that from the frequency 300 kHz resulting from division 2: 1, implemented the frequency 199.6 kHz results, which is fed to the frequency divider 5: 1.

709 717/433

The above-mentioned frequency processing can reduce the selection effect of the harmonic frequency divider can be optimally used.

Using the exemplary embodiments according to FIGS. 1 and 2 the invention is explained in more detail.

F i g. 1 shows an arrangement for generating a pilot frequency of 84.08 and 411.92 kHz on the assumption that that the original frequencies are free of spurious waves;

F i g. 2 shows an arrangement for generating the pilot frequencies 84.08 and 411.92 kHz for the case that the original frequencies are not free of spurious waves.

The frequency 496 kHz is fed to the frequency divider 1 with a division ratio of 5: 1. At the exit this frequency divider then produces the frequency of 99.2 kHz, which together with the pilot monitoring frequency 300 kHz the first modulator! is fed. As a total mixed product the frequency 399.2 kHz results from the division in the second frequency divider 3 with the division ratio 10: 1 the auxiliary frequency 39.92 kHz is created. By implementing this auxiliary frequency with the control frequency 124 IcHz is obtained at the output of the modulator a frequency mixture in which the Pilot frequency 84.08 kHz as the first-order difference mixture product and the pilot frequency 411.92 kHz as Sum mixed product of the third order is included. The two pilot frequencies can be connected downstream the filters 5 and 6 are easily screened out. The modulator 4 is advantageously used driven so that it has a current conduction angle of 90 °. Appear at this current conduction angle the two mentioned mixed products with maximum amplitude and are only by a factor of 3 from each other differentiated.

The control frequency 124 kHz in FIG. 2 is the first frequency divider 7 with the division ratio 5: 2, which results in a frequency of 49.6 kHz at its output. By dividing the frequency 300 kHz in a further frequency divider 10 with the division ratio 2: 1 one obtains the frequency 150 kHz, which is implemented together with the frequency 49.6 kHz in the first modulator 8. the The sum frequency of 199.6 kHz obtained at the output of the modulator is sent to the output of the second frequency divider 9 with the division ratio 5: 1. At the output of this frequency divider one obtains again the auxiliary frequency 39.92 kHz. The two pilot frequencies are then generated in in the same way as in the arrangement of FIG. 1.

Claims (3)

Patent claims: 1. Arrangement for generating the pilot frequencies 84.08 and 411.92 kHz in carrier frequency systems from system-specific or derived carrier and signal frequencies generated by a common basic generator, thereby characterized in that in a modulator (4) which is controlled in such a way that its current flow angle is approximately 90 °, the Carrier frequency 124 kHz and the frequency 39.92 kHz mixed and at its output that First order difference mix product 84.08 kHz and the third order sum mix product 411.92 kHz are screened out. 2. Arrangement according to claim 1, characterized in that the frequency 39.92 kHz such is generated that from the carrier frequency 496 kHz by frequency division 5: 1 and the following Implementation with 300 kHz the frequency 399.2 kHz is formed and fed to a frequency divider 10: 1 is. 3. Arrangement according to claim 1, characterized in that that the frequency 39.92 kHz is generated in such a way that from the carrier frequency 124 kHz by division 5: 2 the frequency 49.6 kHz arises that this with the frequency 150 kHz, the from the frequency of 300kHz by division 2: 1, the frequency is converted to 199.6 kHz results, which is fed to the frequency divider 5: 1. 1 sheet of drawings 709 717/433 12.67 © Bundesdruckerei Berlin