CS259436B1 - Timing path connection in repeater - Google Patents

Abstract

The wiring refers to the clock path in the repeater transmission system with pulse code first-order PCM modulation. Symmetrical the signal from the repeater's decision point is supplied to the input terminals. Positive impulses it drives the resonant from the output of the first gate a tuned circuit formed by the first and second capacitors and inductance. On the first exit the terminal is a rectangular waveform with alternation 1: 1. Delay element with exact phase delay allows accurate positioning of normal pulse edges to the second output clamp to the center of the pulses at the decision point. The wiring is suitable for transmission systems first-order PCMs that transmit a signal in code AMI or HDB3 in the working range temperatures from -50 to + 60 ° C.

Description

The invention relates to a clock circuit connection in a repeater of a first order pulse code modulation (PCM) transmission system.

There are known circuit paths that use a tuned LC circuit driven from a transistor. Part of the clocking path is a phasing stage containing a second tuned LC circuit. The disadvantage is that the delay value must be set individually. Known connections are not suitable for higher circuit integration. It is difficult to achieve frequency and phase stability in the required operating temperature range from -40 to +50 ° C.

It is an object of the present invention to overcome these disadvantages, wherein the first terminals are connected to the input terminals, the output of which is connected via a first capacitor to a parallel combination of the second capacitor and the inductance. The other end of this parallel combination is connected via a first resistor to the positive terminal of the power supply, via a third capacitor to the ground terminal, and through the first and second diodes in the forward direction and a second resistor to the ground terminal. A branch from the inductor is connected to the input of the second gate whose output is connected to the first output terminal and at the same time to the input of the delay member whose output is connected to the input of the third gate whose output is connected to the second output terminal.

The connection according to the invention is simple and reliable with low power consumption. The adjuster is the only one. It is frequency and phase stable within the required operating temperature range.

An example of the invention is further described by means of a drawing. Inputs of the first gate H1 are connected to the input terminals 1, 1 ‘. Its output is connected via the first capacitor C1 to the parallel combination of the second capacitor C2 of the inductance L. The other end of this parallel combination is connected via the first resistor R1 to the positive terminal + U of the source, through the third capacitor C3 to the ground terminal and a second forward diode D1, D2 and a second resistor R2 to ground terminal. A branch from inductance L is connected to the input of the second gate H2. Its output is connected to the first output terminal 2 and at the same time to the input of the delay member ZO. The output of the delay member ZO is connected to the input of the third gate H3, the output of which is connected to the second output terminal 3.

A symmetrical signal from the repeater's decision point is applied to the input terminals 1, 1 ‘. The DC bias on both inputs of the first gate H1 is selected so that the signal at the output of the first gate. H1 was in the form of positive pulses with a width of Ti, where T / 2gTl " T, where T is the interval of one pulse site. For systems with first order PCM, T = 488 ns. This impulse sequence is driven by a resonant tuned circuit formed by the first and second capacitors C1 and C2 and the inductance L. The second capacitor C2 is the only circuit setting element. Its size must be adjusted so that the maximum level of the sinusoidal signal at the inductance tap L. is reached. The first output terminal 2 must have a rectangular waveform with 1: 1 alternation and a period T over the entire operating temperature range, even if the supply voltage of the repeater is allowed to fluctuate. . At the input of the second gate H2 there is a DC bias created by the current flow through both the diodes D1 and D2 and the second resistor R2 from the positive terminal + U of the source across the first resistor R1. The second resistor R2 is set to bias the input of the second gate H2 so that the logic level at its output changes just when the sine signal passes through zero. The first and second diodes D1 and D2 reduce the influence of the permissible voltage variation of the repeater supply voltage on this bias and temperature compensate for changes in the switching level of the second gate H2 within the operating temperature range. In terms of the AC signal, the series combination of diodes D1 and D2 and the second resistor R2 forms a short circuit due to the third blocking capacitor C3. The second gate H.2 is of the ALS type with the required relatively high input impedance, for example 10 kN, which affects the quality factor Q of the resonant circuit. Between the output of the second gate H2 and the input of the third gate H3, an exact phase delay delay member Z0 is interposed to accurately position the leading edges of the pulses at the second output terminal 3 at the center of the pulses at the decision location. It is at this moment that the presence or absence of the transmitted pulse is decided. This information is stored in the memory and is read from the memory by means of pulses from the first output terminal 2. This connection makes it possible to considerably simplify the delay element ZO, since the exact output pulse width is not required at the second output terminal 3 and only the position of the leading edges is decisive.

The circuitry of the present invention is suitable for first-order PCM transmission systems that transmit an AMI or HDB3 signal over a temperature range of -50 to + 60 ° C.

Claims (1)

SUBJECT Connection of the clock path in the repeater of the first order pulse code modulation (PCM) transmission system with a tuned LC circuit, characterized in that the input terminals (1, 1 'j are connected to the first gate inputs (H1) whose output is connected via the first capacitor (C1) on a parallel combination of the second capacitor (C2j and inductance (Lj), the other end of this parallel combination being connected via the first resistor (R1) to the positive terminal (-tU) of the invention and via the third capacitor (C3) to the ground terminal and on the one hand through the first and second diodes (D1, D2j in the forward direction and the second resistor (R2) to the ground terminal, while the branch to the inductance (Lj is connected to the input of the second gate) and, at the same time, to the input of a delay member (ZO), the output of which is connected to the input of the third gate (H3), the output of which is connected to the second output terminal (3).