FI57329C - ANGLE SYNCHRONIZATION OF MOTOR EQUIPMENT CHANNELS IN PCM-TIDMULTIPLEXANLAEGGNINGAR - Google Patents

Description

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Patent ·] »National Board of Registration ....,,. .....

_ '(44) Date of damping and delivery. -

Patent and registration authorities AnaOkan utl »fd och and utl.ikriftan publkarad 31.03.80 (32) (33) (31) Pyjrdttty atuoikaus —Begird priorltet 2k. 03.71

Switzerland-Switzerland (CH) U383 / 71 (71) Siemens-Albis Aktiengesellschaft, Zurich, Switzerland-Switzerland (CH) (72) Pierre Andre Karl Merz, Zurich, Karl Dieter Schupp, Zurich,

Sveit si-Schvei z (CH) (7 * 0 Oy Kolster Ab (5 ^) Method and apparatus for synchronizing the reception-side channel splitter in PCM time-division multiplexes - Förfarande och anordning för synchronkroning av mottagarsidans kanalfördelare i PCM-tidsmulti

The present invention relates to a method and apparatus for synchronizing a channel splitter adapted to the reception side in pulse code modulation time-division multiplexing plants having bundled shifted frame synchronization, in which method

For synchronization, a synchronous signal different from the speech code signals is usually periodically fed to the receiver to synchronize the channel dividers at the transmitter and receiver. It is essential that synchronism is achieved quickly and reliably. This must be the case both when the plant is switched on again after a break in operation and also when there is a fault in the plant. To maximize operational certainty, it is usually not resynchronized as soon as an incorrect sync word is detected, but a predetermined number of synchronic tests are established during which an asynchronous is detected. Similarly, a plant is only considered to be synchronized when the correct synchronization status is determined during the second number of 57329 tests. Synchronization circuits (DE-PS 1 1U1 921) are already known which meet these requirements. In this case, when an asynchronous one is detected, the synchronous center for controlling the channel divider is set to the initial state and left here until the synchronization pulse arrives again. However, it has been found that troubleshooting that becomes necessary as a result of the shutdown is not possible, as these facilities are only switchable when the correct synchronization pulses are present.

The object of the present invention is to provide a synchronization which meets all the set requirements and in which, in particular, troubleshooting becomes possible.

According to the invention, this is achieved in such a way that the synchronous center for switching the channel divider on all the time operates continuously, that when the channel divider falls out of phase, each synchronization pulse brings the synchronization center to a certain state and thus synchronizes and then synchronizes the synchronization pulses during synchronization.

The invention will now be described in more detail with reference to an exemplary embodiment shown in the accompanying drawing.

The block diagram shown in the drawing illustrates a block diagram of the synchronization circuit of a PCM receiving device without the parts necessary for PCM-PAM conversion and bit rate synchronization.

The synchronous word is given from the interface PCM in bit rates BT to the shift register SR. In the present case, the synchronous word 0011011 is used. The information outputs of the shift register cells are connected to the AND gate U, and the information is extracted from the direct outputs Q or inverting outputs Q of the cells according to the bit position of the synchronous word, so that the right synchronous word U enters all inputs. At the time when the synchronous word is input, the AND gate U thus provides information 1 as a synchronous pulse.

The synchronization circuit consists of a port stage S3 for connecting synchronization pulses to the synchronizing synchronous center TZ. The gate stage S3 is controlled by a two-position (bistable) connection BS, which in turn is connected by the first control device S1, Z1 and the second control device S2, Z2. Both control devices consist of gate stage S1 resp. S2 and from counter Z1 resp. Z2. From port stage S1 resp. S2 is controlled by pulses of the synchronous center TZ and this stage conducts information from the AND gate U to the counter Z1 resp. Z2. The task of the synchronous center TZ is to switch forward the channel divider KV, which in turn conducts the pulse amplitude modulation PAM of the decoded PCM information in the form of private channels K.

When commissioning, the synchronous center TZ starts to operate, however, because there is no synchronism, no synchronous pulses are received via gate stage S1 3 57329 to counter Z1, as a result of which the same logical information is written to all counter stages of this calculator 0. When the counter overflows, information is derived from the last counter stage and this in turn switches stage S3 to conduct and from now on all the synchronization pulses arrive at the synchronization center TZ, which is switched to a given initial state by the first hit synchronization pulse.

The gate stage S2 and the counter Z2 monitor the synchronism in a series of temporal coincidences of the synchronization pulse and the pulse periodically given from the synchronous center TZ, and the synchronization pulse is applied to the counter Z2. In the counter Z2, the pulses of the logical information 1 are thus counted, and the last stage of the counter TZ, when overflowing, reverses the two-position switching BS and thus makes the gate stage S3 non-conductive for the following synchronization pulses.

Claims (3)

57329 A method for synchronizing a channel splitter adapted to the reception side in pulse code modulation time multiplexed devices having bundled shifted frame synchronization, the method comprising generating a synchronization word for operates continuously that upon detecting a drop in the clock of the channel driver, each synchronization pulse brings the synchronization center (TZ) to a certain state and thus causes synchronization, and that the synchronization pulses during the synchronization state are then kept away from the synchronization center. A switching device for carrying out the method according to claim 1 for synchronizing a channel splitter (KV) arranged on the reception side in pulse code modulation time multiplexing installations having a bundled shifted frame synchronization the line leading to the synchronous center (TZ) has a switch, and that this switch is adapted to be brought into the open state when the first control device (S1, Z1) is detected and the synchronized fall to be closed when the second control device (S2, Z2) is detected. Switching device according to Claim 2, characterized in that the control devices each consist of a gate connection (S1, S2) and a pulse counter (Z1, Z2). Switching device according to claim 2, characterized in that said switch is a gate switch (S3) controlled by a two-position switch (BS).