DE1115315B - Two-wire two-way time selection system using pulse amplitude modulation - Google Patents

Description

INTERNAT. KL. H 04 j

GERMAN

PATENT OFFICE

St 12040 rXd / 21a ⁴

A N M E L D ET A G: DECEMBER 19, 1956

NOTICE
THE REGISTRATION
ANDOUTPUTE
EDITORIAL: OCTOBER 19, 1961

Transmission systems with pulse modulation, in particular with pulse amplitude modulation and with Time division multiplexing have recently become special in the field of electronic switching Found interest.

In Fig. 1 - if you initially ignore the block labeled - R - a system is shown schematically according to proposals that have already become known.

One recognizes two groups A and B of channels or subscribers F ₁ , F ₂ ... F _n and F ₁ ', F ₂ ' ... F _n , of which - optionally also within the groups - two alternately with one another Traffic should kick. Several connections at the same time are made possible by the time division multiplex principle. The connection paths are defined by the program control of the switches 5j ... S _n , S ₁ ... S _n '. HW is the common transmission path between the two groups A and B,

If one considers a connection between z. B. F ₁ and F ₁ ', it can be seen that the energy transfer takes place in that the charge from the capacitor CS ₁ with closed switches S ₁ , S _n and S ₁ ' via the coil L _n completely on the capacitor CS ₁ ' transforms. If the closing interval of the switches is the time T _s , an amplitude-modulated pulse with the duration T _s corresponding to the instantaneous charge of the capacitor CS ₁ is transmitted. The backflow is prevented by opening the switch immediately afterwards. If the three switches that belong together are controlled by several pulse trains that are offset in time, several independent communication links from A to B or vice versa can be established at the same time.

The coil L _n is necessary to ensure a complete charge transfer. In the event of a short circuit, the charge would be split into two halves on CS ₁ and CS ₁ .

The message is fed to the storage capacitor CS ₁ via a low-pass filter L ₁ , C ₃ for charging, and in the opposite direction, the successive charges (e.g. from CS ₁ ) are charged by means of a low-pass filter (e.g. L ₁ , C ₁ ). again demodulated to the message.

The unit low-pass, memory and switch (e.g. L ₁ , C ₁ , CS ₁ , S ₁ ) thus forms a modulator-demodulator, i.e. a modulation arrangement that acts in both transmission directions, so that between two channels or subscriber lines, Two-wire two-way time selection system that works with pulse amplitude modulation

Applicant:

Standard electrical system Lorenz Aktiengesellschaft, Stuttgart-Zuffenhausen, Hellmuth-Hirth-Str. 42

Dr.-Ing. Karl Steinbuch, Fellbach (Württ), has been named as the inventor

z. B. between F ₁ and F ₁ ', a real simultaneous transmission in both directions, so a real two-way talk, is possible. The connection between any channel of one group and any channel of the other group is established in time-division multiplex mode by virtue of the switches, which means quasi-simultaneous multiple operation.

The energy transfer in such a system is - apart from the pure line losses, which are negligible with short lines are - associated with losses caused by the switches and networks. she are a few decibels with the current state of the art.

It is the object of the invention to cancel this loss attenuation and, if desired, an amplification to reach.

According to the state of the art, a message connection with real, simultaneous bidirectional operation also with regard to the damping-reducing element, a damping reduction possible by means of a negative resistance. But this must be measured so that for the Connection, a residual attenuation remains, because otherwise the system will become self-excited. It can thus always only about a reduction of the attenuation, but not about a cancellation of the attenuation or even act as a reinforcement.

If one wants to achieve a cancellation of the attenuation or amplification, one must at least with regard to of the dampening or reinforcing element from real, simultaneous bidirectional operation leave and work with a quasi-bidirectional operation or a quasi-simultaneous operation. Of the

109 709/286

Quasi-bidirectional operation is possible with both a conventional capacitor of a channel and the one group

borrowed amplifiers as well as with negative resistance - a storage capacitor of one channel of the other

the possible, the quasi-simultaneous operation after the group over at least one coil and over after

State of the art only takes place with conventional switches controlled by a time program, strengthen. . ,. 5 as it is for the purpose of electronic switching

The quasi-bidirectional operation requires that the one is already known.

set of two amplifier elements that are part of the The principles of the invention have been exemplified

stronger station via Gahel and differential circuitry already explained on the basis of the

gen are directionally decoupled, so that there is Fig. 1, which schematically the basic ideas and

to a certain extent, there is four-wire operation. This also requires an embodiment of the invention

increased effort, in addition, the fork adjustment is reflected;

difficult to find with changing subscriber lines. Fig. 2a shows schematically the for the invention

keep. '_ essential part of FIG. 1;

In the case of quasi-simultaneous operation, only one connection is needed. FIG. 2 b gives a diagram for explanation

Strengthening element necessary, but again with an additional 15;

Switch alternately under corresponding Fre- Fig. 3 a to 3 c are locus curves of the involved

quenzband- or time expenditure after the time multi-resistances, and

plex principle for amplification in the one or in Fig. 4 shows schematically the circuit in another direction must be switched. Hence, negative resistance is suitable
is for transmitting a doubled frequency band 20 The range of the negative resistance - R necessary, or there must be a corresponding encryption _mu ß be _such that in its network transmission quality deterioration in purchase overall energy stored in the to be taken within the opening period. . Switch S has decayed sufficiently.

Taking advantage, special opportunities ensteht The attenuation on the transmission path has the pulse amplitude modulation, it is possible overall 25 J _1n substantially by the longitudinal resistance of the measure of the invention, 'contrary to previous Newsletter sign switch S and the SpUIeL _n. If a real, equal resistance is selected for the negations and the previous technology — R equal to the loss resistance, bidirectional transmission with cancellation of the energy transmission takes place without loss. Should the attenuation or, if desired, amplification through the losses and their undamping not be carried out. 30 distortion of the transient process (energy transport)

The invention relates to a pulse amplification, so the negative resistance must be in the

tudenmodulation working two-wire two-way frequency range of the energy spectrum to the amount

Time selection system for message transmission between - after equal to the amount of the resulting loss

between pairs in any assignment in resistance and opposite phase position

have a large number of recurrent channels. Since the energy spectrum to be transmitted is the

closed channels and a common through lower limit frequency has zero, the negative would have to be

a .negative resistance undamped transfer resistance itself also down to frequency zero

supply line, the channels assigned to one another are realized in up-.

successive time intervals in pairs for both However, the transfer of energy becomes practical

Effectively connects directions. 40 not disturbed if the transient process as a result

In order to achieve the set goal, the different dimensioning of the negative resistance bond is only slightly distorted for one pulse duration. A technically particularly advantageous time interval is established, and the negative adhesive solution is provided with a direct current permeability. Achieves negative resistance in the respective overall connection, which only realizes the attenuation zero or a gain in the frequency range of the energy spectrum negatively in the upper dungsweg, dimensioned in such a way that each and its reactive components are mutually mutually exclusive associated channels and the connector, which is roughly the same order of magnitude as the common transmission path, the coil L _n and the series connection of the two capacitors CS involved in the transmission path are effectively connected by the transmission path in the time interval in which the energy transport channels are located, 50 This relatively small frequency range can be in an unstable or unstable state. the negative resistance with little effort

The "unstable state" is that which is to be realized and transformed in a simple way

denotes that one build in the circle equal to the sum of all loss. Because the negative resistance

resistances selected negative resistance .before- is not loaded when the switch is open, it must

calls and in which there is a cancellation of the damping 55 idle-stable behavior,

fung comes and when there is a connection via In Fig. 2 a is for the energy transfer

the pulse duration addition to the risk of self-destruction- essential part of the circuit and in Fig. 2b the

would come, and as the unstable one, the time function of the voltage U _{1 of} the token condensation

the one shown greater than the sum of all loss resistors.

measured negative resistance causes 60 InFig. 2 a one recognizes again the two memories and in which there is an amplification and with capacitors CS and CS ', the coil L, “ for the existence of the connection over the pulse duration with r the ohmic component is indicated, and from to one Self-excitement would come. the negative resistance —R, in which its elements

Such a system is of particular importance for inductance L ^, capacitance C _R and ohmic component R _Ä

the optional message traffic between each 65 are shown.

two of a multitude of in two groups one The different switches are symbolic too

shared. Channels in which the energy transfer is combined in a switch. Its designation

in a manner known per se between a storage W should say (in connection with the location

curves of Fig. 3) that there the resistance W of the entire circle is thought concentrated.

As already noted, FIG. 2 b shows the time function of the voltage U _{1 of} the capacitor CS , provided that the energy is transported from it to the capacitor CS ' . The time at which the switch closes is t _v. If there are no transverse losses, then the energy of the capacitor CS is completely transferred to the capacitor CS ' at the instant t ₂ when it has become zero at the capacitor CS. At this moment the switch must be opened again.

With the help of a negative resistance with the locus shown in Fig. 3 b, both the Voltage value zero on the capacitors as well achieve increased transshipment.

In the diagrams of FIG. 3, J ₁ and / _{2 are} the fundamental frequencies of the aforementioned upper frequency range of the energy spectrum to be transmitted, in which the negative resistance is to become real.

3 a shows the locus curve of the resistor W without negative resistance, FIG. 3 c shows its locus curve with negative resistance according to FIG. 3 b.

Fig. 4 shows schematically a circuit for generating a negative resistance, which allows to give him a locus curve according to FIG. 3 b, and to ensure direct current permeability. One such a circuit is known, and its design and dimensioning for the specific application lies in the ability of the specialist.

V is the amplifier which is to be dimensioned for the desired frequency range, R is the resistance which is to be measured negatively into the terminals K , and the input winding L _K , which is to be connected in parallel in the transmission line, ensures the passage of direct current.

In order to render the storage taking place in the network of the negative resistance harmless, these storage units can be discharged by additional switching means within the opening period of the switch S.

Claims (5)

Patent claims: 1. Two-wire two-way time selection system working with pulse amplitude modulation for the transmission of messages between channels in traffic in pairs in any assignment with a large number of connected channels and a common transmission line undamped by a negative resistance, which effectively connects channels assigned to one another in successive time intervals in pairs for both directions , characterized in that the connection is made only for a time interval corresponding to a pulse duration and that the negative resistance is such that the connection paths built up from two mutually assigned channels and the common transmission path in the time interval in which the channels are effectively connected by the transmission path, are in an unstable or unstable state, so that in each case the entire connection path has zero attenuation or a gain. 2. System according to claim 1 for optional communication between two of a plurality of channels (F ₁ ... F _n or F ₁ '... F _n ') divided into two groups, in which the energy transfer is known per se Way between a storage capacitor (e.g. CS ₁ ) of a channel of one group and a storage capacitor (e.g. CS ₁ ') of a channel of the other group via at least one coil (L _h ) and via switches controlled according to a time program ( S ₁ , S _h , S ₁ ) takes place (or in the dual way therewith), in particular for the purpose of electronic switching, with the negative resistance (- R) inserted in the transmission path between the two memories. 3. System according to claim 2, characterized in that the bandwidth of the negative resistance is dimensioned so that the energy stored in its network has decayed sufficiently within the opening period of the switch. 4. System according to claim 2 and 3, characterized in that the negative resistance is direct current permeable and only in the upper frequency range of the energy spectrum to be transmitted negative becomes real and that its reactive components in this area are of the order of magnitude including the reactances of the transmission path involved in energy transport of the two storage capacitors. 5. System according to claim 2 to 4, characterized in that additional switching means are provided are through which the memories contained in the network of negative resistance be discharged within the opening time of the switch. Considered publications: German Patent Nos. 302 402, 548 714, 246, 857 649; Swiss patents No. 252 926,
792; The Bell System Technical Journal, January 1951, pp. 88-109; H. W. Goetsch, pocket book for telecommunications technicians, 1943, pp. 688 to 690. 1 sheet of drawings © 109 709/286 10.61