DE3126880A1 - Digital signal transmission system, in particular for satellite broadcasting - Google Patents

Abstract

Digital signal transmission system, in particular for satellite broadcasting. Bit words allocated to different programmes are transmitted in temporal succession within a master frame. A code bit is transmitted in each case after n programmes to identify the programme type. The code bits are evaluated in the receiver in a time-selective manner and are combined to form a sub-frame which has the same structure and the same number of bits as the master frame. The same synchronous word identification circuits and demultiplexer circuits can thus be used as for the master frame.

Description

Digital signal transmission system, especially for

Satellite Broadcasting In satellite broadcasting, it is known about one transmission path to selectively transmit a variety of different programs, which can optionally be selected selectively on the recipient side. This transfer takes place e.g. in time division multiplex. In each case, within a so-called Main frame, which consists of two parallel information carriers I and Q, in the further channels I and Q called, is composed, temporally one after the other in the channel I bit words for the left signal L1 of the first stereo program, the right signal R1 of the first Stereo program, the left signal L2 of the second stereo program, the right signal R2 of the second stereo program, then special bits, further bit words for the left one Signal L3 of the third stereo program <ilms, etc. is transmitted. Be in the Q channel the information from programs nine to sixteen is transmitted in the same way. After such a main frame has elapsed, the sequential transmission of the Channels I and Q again with the left signal L3 of the first stereo program or left signal L9 of the ninth stereo program etc.

A demultiplexer is required on the receiver side in order to be able to select the program to enable, i.e. a partial signal from a data multiplex signal, namely the to find out the desired stereo programs.

The beginning of each main frame is determined by a frame sync word marked, from which also the clock for the time-selective evaluation of the individual Programs is derived.

In such a transmission, it is also known the type of program a specific program or station with additional information identify, i.e. indicate whether the respective sender is currently news, sports, Sends music or the like. This makes it possible to selectively send the recipient this way to program that he always has a station of a very specific program type, e.g. News, time-selective evaluates. This marking can be supplemented by Bits take place, e.g. after the information has been transmitted for some Channels are sent.

Such identification bits, which indicate the type of program, can be used in the receiver then, similar to a certain program, time-selective by one of the sync word - Identifies the start of the frame - and system clock controlled, forming a time slot Circuit evaluated and fed to a decoder. So for that are next the decoders for the transmitted information themselves additional decoders for these identification bits are required.

The invention is based on the object of a digital signal transmission system with identification of the program type to create a reduced circuit-related Allow effort for the recognition and evaluation of the identification bits.

This object is achieved by the one described in claim 1 invention solved. Advantageous further developments of the invention are described in the subclaims.

In the solution according to the invention, the identification bits are time-selective evaluated and assembled into a subframe over a longer period of time. This subframe necessarily has a much longer duration than the main frame for the signal transmission of the individual channels. On the other hand has but the subframe, apart from this longer duration, has the same basic structure and the same bit number as the main frame itself.

This makes it possible for the evaluation of the Identifying bits to use the same or almost the same decoder circuits as for the evaluation of the main frame itself.

An embodiment of the invention is explained with reference to the drawing. 1 shows in principle the derivation of the subframe from a channel of the Main frame, Fig. 2 in principle the structure of a subframe, Fig. 3 is a block diagram for the evaluation of the main frame and the generation and evaluation of it derived subframe.

Fig. 1 shows in the upper part the structure of the channel I of the main frame. This begins with a synchro word required for the evaluation. Follow that first the bit sequences for the left signal L1 of the stereo program 1, the right one Signal R1 of stereo program 1, then the corresponding signals L2 and R2. Thereon This is followed by additional bits that are used, for example, for error correction or so-called LSBss information represent. This bit sequence contains an identification bit K1 for identifying the program type. A main frame extending from time ti to t2 contains 320 in total Bits.

Each in a channel I or 4 are therefore during a main frame four identification bits K (K1, K2, K3, K4 or K5, KG, E7, X8) are transmitted. With one from the Synchronous word (start of frame) and pulse derived from the system clock, which is a time window or defines a time slot, the period in which the identification bits K appear, evaluated. The first bit K1 then forms the first bit of a subframe and thus the first bit of information about the program type of the signals L1 to R2. In the following main frame no. 2, the corresponding bit Ki is evaluated again and added to the first bit X1 as the second bit X2 in the subframe. To this end a bit k'l from the main frame no. 1 is stored until the next bit E1 is derived from the next main frame. The duration of a bit Xl, X2 in the subframe according to Fig.? Are therefore equal to the duration of a main frame, corresponding to 320 bits. The bit word for the subframe according to FIG. 1b is thus off a plurality of individual bits formed from successive main frames.

Fig. 2 shows the structure of the sub-frame. The subframe begins initially with a synchro word of 16 bits that consists of many identifier bits K1 - K4 or K5 - K8 can be derived. This is followed by bits X1, X2, X3, X4. These four Bits form a bit word about the respective program type. This is followed by two empty bits and a bit Xs. This bit X5 only indicates whether the program is Language or nusik. This is followed by a bit PX, which is used as a parity bit for the bits X1 - X5 is used. This is followed by three empty bits.

The now following bits Y1, Y2, Y3, Y4 form a bit word for the program number identifier. This is followed by two empty bits again. PY is on again Parity bit for bits Y1 to Y5. The first 22 bits shown form the complete information for the program type identifier and the program number identifier for the signals L1, R1 of the stereo program 1. Others follow in the same way 22nd Bits for the identification of the signals L2, R2 of the stereo program 2, which also arise from the identification bit K1. This is followed according to the main frame another 32 bits from 44.

to 76th bits that are not assigned information. The remaining Bits from 77-304 are set the same way for programs three-eight together, so that the sub-frame of FIG. 2 is exactly like the main frame as a whole 320 bits, the duration of which is considerably longer than that of the Main frame. The bit repetition rate in the main frame is 32 x 103 bit / s and the Bit sequence frequency in the subframe corresponding to 32 x 103Bit / s: 320 = 100Bits It is it can be seen that a main frame and a sub-frame each have the same structural Structure and have the same number of bits. This allows for the evaluation of the Main frame and the sub-frame the same or essentially the same decoders are used will. Bits X1 ... X5 can have the following assignment for the program type identifier.

Program type identifier Xl X2 X3 X4 X5 Messages (N) O 0 0 1 X Sport (Sp) O 0 1 0 X Radio play (H) O 0 1 1 X Pop music (P) 0 1 0 0 X Jazz (J) 0 1 0 1 X Opera / Operetta (Op) 0 1 1 0 X Symphony (Sy) 0 1 1 1 X Other (Sun) 1 1 1 1 X Language X X X X O Music X X X X 1 For the program number identifier Y1 - Y5 this assignment is possible: Program no. Identifier no.Y1 Y2 Y3 Y4 Y5 1 0 0 0 0 1 2 0 0 0 1 0 3 O O 0 1 1 4 0 0 1 0 0 5 0 0 1 0 1 6 0 0 1 1 0 7 0 0 1 1 1 8 0 1 0 0 0 9 0 1 0 0 1 10 0 1 0 1 0 11 0 1 0 1 1 12 0 1 1 0 0 13 0 1 1 0 1 14 0 1 1 1 0 15 0 1 1 1 1 16 1 0 0 0 0 Fig. 3 shows a block diagram for assignment the supplementary bits in the subframes and their evaluation. The ones contained in the main frame Channels A and B are each the inputs 1 and 2 of a synchronous word recognition and Channel allocation circuit E supplied. At output 3 of circuit E is the channel I, channel 4 is present at output 5 of circuit E. Output 4 sets the frame synchronous cycle T available. The channel I is connected to the input 6 of a demultiplexer DU for the Main frame and a contact 9 of a channel selector switch KW connected. The channel Q is connected to the input 8 of the demultiplexer DH and to a contact 10 of the channel selector switch KW connected. The frame synchronous clock T is sent to the demultiplexer via an input 7 Facing DH. Another input 13 leads the demultiplexer DH the bit rate of 10.24 NRz to. The gate times are at n outputs 14 - 15 at. The transfer clock t .. of the identification bit for the u subframe is at output 16 at. The transfer clock tü leads to the input 20 of a memory Sp. The contact 11 of the channel selector switch KW leads to a further input 19 of the memory Sp and to an input 32 of a gate GH.

Another n inputs 17-18 lead the gate times of the GH gate Demultiplexer DH too. The information is present at n outputs 33 to 34 of the GH gate IH of the main frame. The output 22 of the memory Sp leads to the input 23 of a Synchronous word recognition circuit F for the subframe. Its output 24 leads on the one hand to the input 25 of a demultiplexer DU for the subframe and the input 30 a Gatters GU. Via a further input 27, the demultiplexer DU is a Sampling frequency of 32 kHz supplied. The output 28 of the demultiplexer DU leads to input 29 of gate GU. The information is at the output 31 of the gate GU IU of the subframe. The output 21 of a program selector PW leads to the input 26 of the demultiplexer DU and the input 12 of the demultiplexer DH.

The contents of channels A and B are stored in the synchro word recognition and channel allocation circuit E to the outputs I and Q in the correct phase position assigned.

In the following, the outputs I and Q are referred to as channels 1 and. These channels I and Q are then in the demultiplexer DH with the help of the frame synchronous clock T and the bit rate of 10,? 4 NRz processed. With the program selector PW the demultiplexer DH provides additional information about the desired programs fed.

The gate times at n outputs 14-15 lead to the gate GH. The channel I or Q is fed to the gate GR through the channel selector KW. By the gate times at n inputs 17-18 and channel I or Q at input 12 of the gate GH results in the information IH of the desired programs. The one in the bitstream of channels I and Q The identification bits contained in it are determined by the transfer clock t u selected from the bit stream. This is done in memory Sp. The incoming Bits at input 19 of the memory Sp are written into the memory Sp at the moment in which there is a takeover clock door. The synchronous word recognition circuit F for the subframe switches the bits arriving at input 23 through, if a sync word preceding the subframe was recognized. The bit streams of the Subframes are then evaluated in the demultiplexer DU. This is done with a Sampling frequency of 32 kHz. The gate time at the output 28 of the demultiplexer DU is assigned to the set program using the program selector PW. The gate time at the input 29 of the gate GU then selects on the bit stream of the subframe im Gate GU the information that is then to be tapped at the output 31 of the gate GU.

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Claims (6)

Patent claims digital signal transmission system, in particular for satellite broadcasting, in which, during a main frame, one after the other Bit words assigned to different programs and one after every n programs further bit sequences for additional information are transmitted, identified by the following features: a) The further bit sequence each contains an identification bit, the one Represents information for the program type of the n programs. b) The identification bits of the other bit sequences are evaluated time-selectively and assembled into a subframe, which has the same structure and the same Total number of bits as the main frame. 2. System according to claim 1, characterized in that da3 in the subframe a bit number that is the difference between the number derived from the main frame Identifier bit and the total number of bits of the main frame, remains free. 3. System according to claim 1, characterized in that the aeweils Bit derived from a main frame for the assigned n programs up to evaluation of the bit of the next main frame assigned to the same n programs will. 4. System according to claim 1, characterized in that for the main frame and subframes similarly constructed synchro word recognition circuits are used will. 5. System according to claim 1, characterized in that for the main frame and subframes similarly constructed demultiplexer circuits are used 6th System according to Claim 1, characterized in that for displaying a program only one of the identification bits (K1 ... 8) is evaluated.