DE3511072A1 - Time-slot selector for an optical time-division multiplex signal - Google Patents

Abstract

In a time-slot selector for an optical time-division multiplex signal consisting of n channels, each of the channels is switched in familiar manner to one selected delay loop (V) each via an optical switching network for the purpose of writing-in. According to the invention, all delay loops (V) have the same length (L) which corresponds to the product of time-slot duration T and velocity of light c in the medium considered. Each delay loop (V) is individually allocated a 2.2 switching element (S) which is in the crossed switching state during the writing-in of a channel, is in the parallel switching state during the selected delay time (ti) and thus keeps the delay loop closed until it is returned to the crossed switching state again for the optionally delayed reading-out of the channel (Fig. 1). <IMAGE>

Description

The invention relates to a time slot selector SUr a

optical time division multiplex proper according to the preamble of the main claim.

A switching of communication channels in the time division requires Among other things, the change of the canoe sequence present on each feeder. Within the Multiplexrshmena there is a temporal rearrangement and sorting out of the Channels.

From M. Kondo et al: r'Higb-Speed Optical Time-Switch With Integrated Optical 1 x 4 Switches And Single - Polarization Fiber Delay Liner, Fourth International Conference on Integrated Optics and Optical Fiber Communicstions, Tokyo, Japan, 27.-30.07.1983, paper 29 D3-7, pages 438 - 439 is an optical time slot selector known, in which the time delay is also achieved by optical fibers. These have the puncture of the lateral ulcers and, in contrast to the invention, have different lengths.

A coupling network is set up in front of these optical fibers.

It consists of electro-optical 2 x 2 switching elements and is used to switch each sample to the fiber of the desired length.

In the time slot selector according to the invention, they determine the delay loops individually assigned 2 x 2 switching elements the new time slot of each channel.

The object on which the invention is based, an optionally controllable Time shift of the individual channels (samples) of a time division multiplex signal in order to achieve any integer multiple of a time slot duration is through solved the invention characterized in the main claim.

The advantages that can be achieved with the invention are, in particular, that all delay loops are both minimal and equal in length and that a coupling network is only required on the signal input side. Advantageous is further that with the time slot selector after the Invention too Delay times of zero can be achieved.

The possible use of the time slot selector is also advantageous according to the invention as a memory with selective access. Starting with the delay time The information is zero in steps of entire time slot durations of any length storable. This is achieved by running through the information several times the corresponding delay loop.

The invention is illustrated by means of one in FIGS. 1 to 3 Embodiment described in more detail.

1 shows a time slot selector according to the invention in principle 2 shows the signal curve in a 2 x 2 switching element in the crossed switching state, 3 shows the signal curve in the 2 x 2 switching element in the parallel switching state.

In Fig. 1, a time slot selector according to the invention is shown in principle. Via a feeder waveguide ZW, n channels are time-multiplexed to the time slot selector fed. One after the other, each of the individual channels is over in a known manner a fan-shaped Xoppelnetzwerk N built up from optical switching elements for Writing is switched to one of the delay loops V in each case. As optical Switching elements are in the coupling network according to Pig. 1 either 2 x 2 switching elements, z. B. directional coupler or X switch, or 1 x 2 switching elements, e.g. B.

Bragg cells were used. As each of the delay loops V associated Switching elements according to FIG. 1 can only be used 2 x 2 switching elements S. While reading the signal of the respective channel into the corresponding delay loop V is the associated 2 x 2 switching element [in the crossed state according to FIG. 2. The signal occurs at input E 2 and leaves the 2 x 2 switching element S again at the exit Al. Immediately after the end of the reading process, whose Duration is equal to the time slot duration T, the 2 x 2 switching element S is in the reversed parallel state (Fig. 3). After the respective delay time has elapsed ti becomes the crossed switching state of the individual 2 x 2 switching elements S again produced so that all channels on the pickup waveguide AW and their merging in the selected changed channel order on the outgoing waveguide WW leave the time slot selector.

Determined for a desired delay of a channel by i time slots the delay time ti becomes ti = i. T.

The time slot duration X determines the necessary switching frequency of the optical switching elements. The uniform length L of all delay loops V is determined by the simple time slot duration T (L = c. T), which is determined by the time slot clock the time division multiplex signals to be switched is specified. This is in length L includes the section E1-K-A1 of the 2 x 2 switching element S and c is the speed of light in the delay loop V.

i runs in a delay loop V thus lead to the delay time ti. Shorter lengths L of the delay loops V are not possible, otherwise a time slot "would be spatially longer than the delay loop V and if it were multiple times Passing through a time slot would interfere with itself.

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Claims (1)

Time slot selector £ tier an optical time multiple signal Ps tent claim Time slot selector for an optical time division multiplex signal consisting of n channels, in which each of the channels has a fan-shaped, made of optical switching elements Established switching network for writing to one selected delay loop each is switched so that all delay loops do not exist (V) have the same length (L) as the product of the time slot duration T and the speed of light c in the medium under consideration corresponds to that during the writing of each channel one permanently assigned to each of the delay loops (V) of the same length 2 x 2 - switching element (S) in the crossed switching state is that during the selected Delay time ti the respective 2 x 2 switching element (S) in the parallel switching state and that for the optional delayed reading of the channel from the delay loop (V) the 2 x 2 switching element (S) that is individually assigned to this again into the crossed one Switching state is returned.