DE3129752A1 - Broadband communications system - Google Patents

Abstract

In an optical broadband network with subscriber connection lines (Al) in each case running between an exchange (VSt) and a subscriber station (TlnSt) and in each case having two optical waveguides (Lb, Ls), only TV and/or stereo sound broadband signals are transmitted via one optical waveguide (Lb) from the exchange (VSt) to the subscriber station (TlnSt). All digital communication narrowband signals - for 64 kbit/s digital telephony, facsimile, 8 kbit/s signalling, synchronisation, data transmission - are transmitted via the other optical waveguide (Ls) in both transmission directions between the exchange (VSt) and the subscriber station (TlnSt). The narrowband digital signals of both transmission directions are in each case transmitted using the time division multiplex method; the broadband signals are transmitted on analog-modulated carriers.

Description

Broadband communication system

The invention relates to a broadband communication system with each running between an exchange and a subscriber station Fiber optic subscriber connection lines for TV and / or stereo broadband signals and, in contrast, narrow-band digital communication signals, such as 64 kbit / s digital telephone signals, Video text signals, 8 Rbit / s control signals, program selection signals.

In a fiber optic broadband communication system, the Subscriber lines each have a single, in both transmission directions have utilized optical waveguides or two separate optical waveguides for the two directions of transmission. In the former case, the current State of the art of optical waveguide technology via an optical waveguide via which in the direction of from the exchange to the subscriber station TV o./o. Broadband audio signals are transmitted in a return channel from the subscriber station to the exchange only provide control signals or relatively simple answers for interactive services transferable; should go beyond this (possibly

several) 64 kbit / s digital signals and (possibly several) 8 kbit / s digital signals for example for digital telephony, BiIdscht mtext, facsimile and for signaling and synchronization of such narrowband communication services between subscriber sites and switching center or

are transmitted vice versa, so two optical fibers per subscriber line provided, namely a separate optical waveguide for each transmission direction (ntz 32 (1979) 3, 15o ... 153).

Such a signal transmission via optical waveguides inherent in the transmission direction requires bundling for transmission in the direction of the subscriber station the broadband TV and possibly stereo sound signals with narrowband 64 kbit / s signals, whereby it should be taken into account that it is - to avoid a participant-side additional decoding effort - for broadband signals to include analog signals (FM or PPM signals) will act; it would be analog broadband signals with digital narrowband signals bundled via the fiber optic cable from the exchange to the subscriber station to transfer.

In principle, this would be with the combined use of frequency division multiplexing and time division multiplex techniques can be implemented; practically prepares the combination of Frequency division multiplexing and time division multiplexing techniques, however, present difficulties and demands from the transmission system distortion-free and high linearity.

The invention now has the task of a more advantageous in comparison To specify broadband communication system.

The invention relates to a broadband communication system with each between the exchange and the subscriber station, two optical fibers each having subscriber lines for TV and / or.

Stereo audio broadband signals and, in contrast, narrowband digital communication signals, in which broadband signals in Multiplex over one fiber optic cable are transmitted from the \ Tr mediation or distribution point to the subscriber point and digital communication narrowband signals, especially 64 kbit / s digital signals, as well as program selection signals in multiplex over the other optical fiber from the Subscriber station are transferred to the switching or distribution point; such a Broadband communication system is characterized according to the invention in that over the one optical fiber only the TV and / or. Broadband stereo audio signals from the Switching or distribution point are transferred to the subscriber station and via the other optical fiber between all narrowband digital communications signals Switching center and subscriber station and vice versa are transmitted.

The invention has the advantage that in the broadband communication system TV and stereo sound program distribution on the one hand and narrowband digital communication on the other hand, can be implemented independently of one another, possibly also one after the other, the further advantage that the technology required for their realization already meets the practical requirements today: so can in further development of the invention, the narrowband signals of the two directions of transmission via said other optical waveguides are transmitted in the time division process, so that decoupling of the signals of the two transmission directions in the optical plane not necessary, for example with color filters or high-quality directional couplers is, rather a simple (about 3 dB) coupler between said other optical waveguide on the one hand and an optical waveguide coming from the respective electro-optical converter or an optical waveguide leading to the respective opto-electrical converter on the other hand is sufficient.

The broadband signals can be transmitted via the aforementioned one optical fiber advantageously transmitted on analog-modulated carriers in frequency division multiplex while the digital narrowband channels are advantageously time-division multiplexed bundled can be transmitted via the said other optical waveguide.

The invention is explained in more detail with the aid of the drawing.

1 shows an exemplary embodiment of a broadband communication system according to the invention; FIG. 2 illustrates such a broadband communication system the timing of a signal transmission in the time division process.

The drawing FIG 1 shows schematically in an understanding of the Invention required an embodiment of a broadband communication system according to the invention. In this broadband communication system there is a subscriber station TlnSt via a subscriber line having two optical waveguides Lb, Ls Al connected to the associated exchange VSt, indicated in FIG is that the subscriber station TlnSt for digital telephony, facsimile service, video text, Touch dialing and display as well as TV and stereo sound reception can be set up.

The switching center VSt her only the TV and / or stereo sound broadband signals to the subscriber station TlnSt transferred to. In Figure 1 it is indicated that the broadband signals of each TV programs to be transmitted to the relevant subscriber via a broadband switching network KFb and the broadband signals of the stereo sound programs via a multiplexer STM, respectively via a subsequent analog modulator MOD, one in the Switching point VSt subscriber-individually before seen broadband signal multiplexer MUL are fed to the optical fiber via an electro-optical converter E / O Lb leads. The opto-electrical terminating the optical waveguide Bb on the subscriber station side In the broadband communication system according to FIG. 1, converter o / E is a B-sideband signal demultiplexer DEX connected downstream to the corresponding connection lines tv or st TVE receiver or STE stereo sound receiver are connected.

All digital communication narrowband signals are transmitted via the other optical waveguide Ls from the exchange VSt to the subscriber station TlnSt and in the opposite direction from the subscriber station TlnSt to the exchange VSt. Be there through-switched in the exchange VSt via a narrowband switching network KFs (e.g. 64 kbit / s) digital telephone signals, facsimile signals and from the switch controller Vs (e.g. 8 kbit / s) control signals and video text (Btx) signals and acknowledgment signals originating from the setting device Eb of the broadband switching network KFb in a subscriber-specific multiplexer provided in the exchange VSt MULv to a multiplex signal then to be transmitted to the subscriber station TlnSt, in particular time division multiplex signal, combined; one in the reverse direction of transmission Multiplex signal received from the subscriber station TlnSt to the exchange VSt , in particular time division multiplex signal, is in a corresponding demultiplexer DEXv into the corresponding individual signals, for example via the narrowband switching network KFs through, switched (e.g. 64 kbit / s) digital telephony signal and facsimile signal, the control signal (e.g. 8 kbit / s) to be supplied to the switch controller Vs. as Video text signal and the setting device Eb of the broadband switching network KFb program selection signal to be fed, fanned out.

A corresponding signal bundling or unbundling takes place - in each case in the opposite direction of transmission - instead of in the subscriber station TlnSt, for which purpose there a corresponding multiplexer MULt or demultiplexer DEXt is provided.

In the switching point VSt is provided with the output of there subscriber-specific multiplexer MULv the electrical connection of an electro-optical Converter e / o connected; the receipt of the intended in the exchange VSt Demultiplexer DEXv is connected to the output of an opto-electrical converter e \ o. The optical connections of these two converters are via a fiber optic directional coupler RKv connected to the optical fiber Ls.

In a corresponding manner, the optical waveguide is in the subscriber station TlnSt Ls via a fiber optic directional coupler RKt with the optical output of an electro-optical Converter o \ e and the optical input of an opto-electrical converter o / e connected, where the electrical input of the electro-optical converter o \ e with the output of said multiplexer MULt and the electrical output of the opto-electrical Converter o / e is connected to the input of said demultiplexer DEXt. With the inputs are multiplexers MULt and the outputs are demultiplexers DEXt then the individual narrowband communication terminals e or

-sub devices connected without this being further explained here would have to.

To the fiber optic directional coupler RK, which is also no further here need to be explained, since fiber optic directional couplers per se (e.g. from messages elektronik (1979) 1, 18) are known no special requirements with regard to the En4; coupling of the multiplex signals of the two transmission directions set from each other when, as is also indicated in Figure 1, the multiplex signals of the two directions of transmission in the time-separated position method via the optical waveguide Ls are transmitted. In the broadband communication system shown in FIG is for this purpose in the exchange VSt between the multiplexer or demultiplexer MULv, DEXv and electro-optical or opto-electrical converter e / o, e \ o one example provided with a shift register to be implemented buffer circuit Zv; in corresponding Way is in the subscriber station TlnSt between multiplexer MULt and demultiplexer DEXt on the one hand and electro-optical converter o \ e and opto-electrical converter o / e on the other hand a corresponding time separation buffer circuit Zt is provided.

The resulting shift in the actual direction separation from the optical level to the electrical (and digital) level has the advantage of that the time division control circuits Zv, Zt in conventional IC technology (for example with shift registers) can be implemented. The ones with the use of the Time division method related fact that the bit rate in the Signal bursts on the line can be a multiple of the useful bit rate when used on the optical waveguide Ls advantageously disregarded because here on the one hand there is no high-frequency interference radiation and on the other hand the line attenuation of the fiber optic cable does not increase with increasing bit rate, the range of it so it is not influenced as with a Cu line. When setting the Parameters for time division transmission, such as burst length and Burst pause, it is therefore advisable to use the signal transmission via a Use fiber optic cables as a basis for the maximum possible range.

A corresponding example of the timing of the burst transmission is illustrated by FIG. 2: According to this example stands for a 25 ps lasting Digital signal block (burst) a maximum signal propagation time of 100) uS per transmission direction available, which corresponds to an optical fiber length of about 20 km.

It is assumed that, as is the case (from DE-PS 25 11 619) is known to alternate bursts with the in both transmission directions Digital signal words are transmitted in each case from two consecutive (125 bs-) pulse frames will. If you use the 2.048 Mbit / s clock that is already available in digital exchanges also as a bit sequence clock in the bursts, then results from the assumed burst length of about 25 s ys a transmission capacity of e.g.

about 3 x 64 kbit / s, i.e. transmission capacity for, for example two 64 kbit / s digital communication channels (e.g. for digital telephony and facsimile) and eight 8 kbit / s digital communication channels (for signaling, Synchronization and data transfer).

Claims (4)

Claims <broadband communication system, each with between Switching center and subscriber station run, each with two optical fibers having subscriber lines for TV and / or. Broadband stereo audio signals and, on the other hand, narrowband digital communication signals in which broadband signals in multiplex via the one fiber optic cable from the switching or Distribution point are transmitted to the subscriber station and digital communication narrowband signals, in particular 64 kbit / s digital signals, as well as program selection signals in multiplex over the other optical fiber from the subscriber station to the switching or distribution point are transmitted, characterized in that one optical waveguide (Lb) only the TV and / or Stereo broadband signals from the exchange or distribution center (VSt) to the subscriber station (TlnSt) and over the other optical fiber (Ls) all digital communication narrowband signals between central office (VSt) and subscriber station (TlnSt) and vice versa. 2. Broadband communication system according to claim 1, characterized in that that the broadband signals via the one optical waveguide (Lb) on analog modulated Carriers are transferred. 3. Broadband communication system according to claim 1 or 2, characterized in that that the narrowband signals of the two transmission directions via the said other Optical fibers (Ls) are transmitted in the time division process. 4. Broadband communication system according to claim 3, characterized in that that the narrowband signals in each case one transmission direction in time division multiplex the said other optical waveguides (Ls) are transmitted.