DE1028620B - Carrier frequency system for four speech channels - Google Patents

Description

GERMAN

The invention is based on the object of a carrier frequency system for four speech paths with one To create channel bandwidth of 4 kHz, which can be used both for the transmission of individual message channels in the Two-wire operation used as well as a four-wire equilibrium system or two-wire separation system can be operated.

This task can best be solved with a so-called pre-group system with double frequency conversion, in which the individual speech frequency bands (300... 3400 Hz) in the first modulation stage into one and the same for all channels Frequency position above the highest transmission position and in the second modulation stage be implemented in the adjacent transfer layers.

According to the invention, the pre-channels are using both the carrier frequencies 44 and 48 kHz built in the normal position as well as in the inverted position and using the frequencies 52, 56, 60, 64, 72, 76 and 84 kHz converted into the transmission layer.

This arrangement has the advantage that uniform channel band filters are used for all channels, regardless of their transmission position can be, provided that they are symmetrical to the tape center according to a further feature of the invention Have damping course.

If a single channel system (see Fig. 1) is to be set up in which each speech path is composed of two adjacent communication channels with opposite frequency positions of the voice band, the pre-channel groups are converted into transmission positions 4 ... 8, 12 ... 16 , 24 ... 28, 32 ... 36 or 8 ... 12. 16 ... 24, 28 ... 32, 36 ... 40 with the carrier frequency groups 52, 60, 72, 80 or 56 , 64, 76, 84; depending on which \ ^r orkanalgruppe with the one or the other carrier frequency group is reacted, one obtains the individual channels in the transfer layer in control position or in inverted position; that is, a reversal of the frequency position of the speech bands within each channel pair belonging to a speech path is obtained.

If a four-wire separation system (cf. Fig. 2) is required, only one pre-channel group with the carrier frequencies 52, 56, 60, 64 is in the for both transmission directions same transmission position 4 ... 20 kHz implemented; here too one has it by appropriate choice of the pre-channel group (normal position or inverted position) in hand, the individual Build channels in the transfer position in the normal position or the inverted position.

For the construction of a two-wire separation system, the system according to FIG Carrier frequency system for four speech paths

Applicant:

Feiten & Guilleaume
Fernmeldeanlagen GmbH, Nuremberg, Äußere Bayreuther Straße / Bierweg 180

Dipl.-Ing. Helmut Sippel, Nuremberg,
has been named as the inventor

Invention two ways; one is the transmission group 24 ... 40 kHz for the opposite direction by converting the existing ones Set up transmission group 4 ... 20 kHz with the already existing carrier frequency 44 kHz. This structure has the advantage that the carrier frequency group 72, 76, 80, 84 is not required will; in this case, however, the single-channel system can then only be set up with two speech paths will.

If the possibility of setting up a single channel system with four speech channels is to be retained, where the carrier frequencies 72, 76, 80, 84 are required, they can also be used to set up the transmission group serve for the opposite direction of the two-wire separation system (see. Fig. 3); in this In this case, the second pre-channel group with these carrier frequencies is transferred to the transmission layer 24 ... 40 kHz implemented; Here too, depending on which pre-channel group with which carrier frequency group is implemented, the transfer belts in turn build up in the normal or inverted position.

The system according to the invention can therefore meet all requirements that occur in practice adapt, since with it both generic types of transmission systems as well as the individual channels, how channel groups are set up for each transmission direction in the normal position as well as in the inverted position can.

Another advantage of the system is that the suppression of the in the second Modulation stage resulting upper sidebands for each composed of four individual channels Transmission band on the sending side for

809 507/257

each transmission direction can be effected with a common low-pass filter.

Claims (7)

PATENT CLAIMS: 1. Carrier frequency system for four speech paths with a channel bandwidth of 4 kHz, in which the Voice frequency bands in the first modulation stage in pre-channels with the same frequency position, the lie above the highest transmission level, and in a second modulation level in adjacent ones Frequency positions are implemented, characterized in that the pre-channels using the carrier frequencies 44 and 48 kHz both in the normal position and in the upside down position and using the frequencies 52, 56, 60, 64, 72, 76, 80 and 84 kHz are implemented in the transmission layers. 2. Carrier frequency system according to claim 1, characterized by the use of a for Both transmission layers of uniform channel band filter, one symmetrical to the band center Has attenuation curve. 3. Carrier frequency system according to claims 1 and 2, characterized in that the pre-channels lying in the normal position with one group and the upside-down pre-channels with the other group of carrier frequencies 52, 60, 72 and 80 or 56, 64, 76 and 84 kHz in the transmission layers 4 ... 8, 12 ... 16, 24 ... 28, 32 ... 36 or 8 ... 12, 16 ... 20, 28 ... 32, 36. .. 40 kHz are implemented (EK) . 4. Carrier frequency system according to claim 1, characterized in that the pre-channels only a frequency position with the carrier frequencies 52, 56, 60 and 64 kHz in the transmission position 4 ... 20 kHz are implemented (F4). 5. Carrier frequency system according to claim 4, characterized in that the transmission band 4 ... 20 kHz with the carrier frequency 44 kHz is converted into the transmission layer 24 ... 40 kHz (Z4). 6. Carrier frequency system according to claims 1 and 2, characterized in that the normal position lying pre-ducts with one group and the upside-down pre-ducts with the other group of carrier frequencies 52, 56, 60 and 64 or 72, 76, 80 and 84 kHz in the transmission layers 4 ... 20 kHz or 24 ... 40 kHz are implemented (Z 4). 7. Carrier frequency system according to one of claims 3 to 6, characterized in that for the purpose of suppressing the upper sidebands produced in the second modulation for the transmission band composed of the four individual channels for each transmission direction only one common low-pass filter is used at the transmitting end. Considered publications:
Philips' Technische Rundschau, 1947, pp. 161 to 171, especially Fig. 7. 1 sheet of drawings © 809 507/257 4.58