DE1075662B - - Google Patents

Description

GERMAN

The invention relates to an arrangement for delaying electrical pulses using a delay line terminated with its characteristic impedance.

It is known that in pulse transmission systems, e.g. multiplex connections, pulses must be delayed in time so that they can reach certain points on the circuit at a given time. This temporal Distribution can be done with the help of special networks; referred to as delay lines happen.

The space requirement and thus the price of these delay lines are known to grow proportionally at the required delay time. In addition, if there are long delay times, those at the end of the Line incoming signals weakened. You therefore have to use a line amplifier to access the original amplitude are brought.

The inclusion of this amplifier increases the space requirement and the price of the delay line. To reduce the space requirement, use is often made of the reflection phenomenon that occurs at the end of an electrical line when it is terminated with an impedance whose value deviates from the characteristic impedance of the network. So you can z. B. instead of a delay line with the propagation time T take a half-length delay line, short-circuit it at the end and connect the input side to a resistor that is equal to the characteristic impedance of the delay line. If an impulse is given on this half line, it is reflected at the short-circuited end and comes back to the supply terminals after the time T has elapsed with reversed polarity.

The space requirement of the delay line is thus reduced by half. Nevertheless, as I said, if the delay time T is long, the pulse comes back very weakened and is then difficult to amplify.

It is also known to use a delay line and the pulses supplied to it or to superimpose several delayed additional pulses that are tapped at different points on the line or by impact points within the line as echoes are generated to the waveform of the equalize original impulses.

The aim of the invention is to provide a delay element that has one of each pulse twice in delay line traversed in the same direction and a threshold amplifier each Impulse amplified between the first and second pass.

According to the invention, the pulses are transmitted to a delay line with the delay time 772

Order to delay
of electrical impulses

Applicant:

Andre Eugene Pinet,

Maisons-Alfort, Seine,

and Jean-Marie Lachaise,

Malakoff, Seine (France)

Representative: Dipl.-Ing. E. Prinz, patent attorney,
Munich-Pasing, Bodenseestr. 3 a

Claimed priority:
France September 15, 1955

Andre Eugene Pinet, Maisons-Alfort, Seine,

and Jean-Marie Lachaise, Malakoff, Seine (France),

have been named as inventors

given, which is completed with its wave resistance. The one at the terminals of this terminating resistor Occurring damped impulse then reaches the control grid of an electron tube, which acts as a threshold amplifier works and its anode is connected to the input of the delay line.

The pulse that is given to the input of the line is amplified and equalized after a time interval 772 and then passes through the line again. A pulse of sufficient amplitude is thus obtained at the output of the delay line, which is delayed by the time T compared to the input pulse.

In short, with the delay element according to the invention, two pulses occur at the end of the delay line, namely a direct pulse delayed by the time T / 2 and an amplified pulse delayed by the time T. The two pulses differ from one another in that they have different polarities.

If the delayed pulses are not picked up at the output of the delay line, but at intermediate points, one also obtains amplified pulses with opposite polarity to the supplied pulses, the delay of which is between T / 2 and T with respect to the latter,

909 730/315

Details of the invention emerge from the description with reference to the drawing. Herein shows

1 shows the basic circuit diagram of the arrangement according to the invention, a single output being provided at the end of the delay line,
., FIG. 2 shows an arrangement according to the invention with several taps staggered along the delay line,

FIG. 3 shows a diagram of those occurring at the various taps of the arrangement according to FIG. 2 Signals.

. In Fig. 2, 1 designates a delay line of any type, for example a line designed as a low-pass filter. 2 and 3 are the input terminals, 4 and 5 are their output terminals and 6 is a terminating resistor which is equal to the characteristic impedance of the delay line. The voltage available at the terminals of the resistor 6 is applied via a capacitor 15 and a resistor 16 to the input of the amplifier, which consists of an electron tube 7. This tube is normally blocked by means of a suitable bias voltage and works as a threshold amplifier. The output voltage of the amplifier is fed back to the input 2, 3 of the delay line. The cathode resistor 8 of the tube 7 and the bypass capacitor 14 are selected so that the tube remains blocked between two positive pulses reaching its grid. The anode 9 of the tube 7 is connected to the input of the line 1 via the capacitor 17.

The arrangement according to FIG. 1 has a certain analogy with a vibration generator, its Feedback network through the delay line 1 terminated with its characteristic impedance 6 is formed. The circuit is stable, however, and there is no risk of amplification of the oscillations.

If positive pulses 10 are given to the input 2, 3 of the arrangement, they arrive after a time T / 2 at the output 4, 5 and reach the grid of the tube 7. The tube is released when each such pulse is received, and correspondingly amplified negative impulses 10 ₁ occur in their anode lead. These negative pulses are given to the input of the line and arrive at the output 4, 5 after a time T has elapsed from the point in time when the original positive pulses were applied. They have no effect on the tube 7, since they only reinforce its blocking.

It is not absolutely necessary that the return period of the pulses 10 be equal to T. However, they should be chosen so that the trigger pulses and the pulses supplied by the amplifier 7 do not overlap at the input terminals.

If the applied pulses are not periodic, the arrangement will also work properly if the automatic grid bias generation in the cathode line by means of a fixed grid bias is replaced. The gain of the tube 7 must be at least equal to the attenuation of the delay line 1st be.

FIG. 2 shows a distributor arrangement for the channel unlocking pulses in a multiplex system with pulse modulation, the same reference symbols denote the same parts as in FIG. 1. The delay line 1 has a series of staggered taps. In the exemplary embodiment, three taps H ₁ , H ₂ , H _{3 are} provided. Each tap is on the one hand directly connected to an output terminal Vl ₁ , Vl ₂ , 12 ₃ and on the other hand each connected to a transformer Vi ₁ , 13 ₂ , 13 ₃ , which supplies the outputs 12 ₄ , 12 ₅ , 12 ₆ pulses of opposite polarity. The terminals Vl ₁ to 12 ₆ are connected to the various modulators of the multiplex device when the arrangement according to FIG. 2 is used in a transmitter. When used in a receiver, terminals Vl ₁ to 12g are connected to the various channel selectors and demodulators.

Fig. 3 shows the pulses picked up at terminals Vl ₁ to 12 _6. For example, to obtain a positive pulse 14 at the terminal ₁ Vl _1; which controls the first channel modulator if it is a transmitter. At the same terminal also a pulse occurs _Χ 15, which remains on the channel modulator without influence. This pulse is reversed in the transformer 13 _Χ , so that there is a control pulse 14 ₄ for the fourth channel modulator _{at terminal 12 4.}

Claims (4)

Patent claims. 1. Arrangement for delaying electrical pulses by a delay time between T / 2 and T using a delay line terminated with its characteristic impedance and running time T / 2, which is supplied with the pulses to be delayed with a certain polarity and the delayed pulses with opposite polarity , characterized in that the end (4) of the delay line is connected to the input of a phase-reversing threshold amplifier (7) which only amplifies pulses with the original polarity and whose output is connected to the input (2) of the delay line in this way that the amplified pulses of opposite polarity traverse the delay line again. 2. Arrangement according to claim 1, characterized marked. records that the input of the delay line is connected to a polarity reversing transformer, at the output of which the delayed and amplified pulses occur with the original polarity. ■ -. ■ 3. Arrangement according to claim 1, characterized in that the delay line with several Intermediate taps is provided at which the pulses occur with different delay times. 4. Arrangement according to claim 3, characterized in that each tap is connected to a polarity-reversing transformer, to whose output the delayed pulses occur with the original polarity. - = - Considered publications:
Pulse Generators, McGraw Hill Book Comp. MIT, Vol. 5, 1948, p. 488 and Figs. 11, 40;
FTZ, 1954, p. 199 to 204, in particular page 200, paragraph 2. 1 sheet of drawings © 909 730/315 2.60