DE1487577C - Time division multiplex fork with bilateral reinforcement - Google Patents

Description

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The invention relates to a time-division fork with while maintaining the possibility of setting the bilateral amplification for a time-division strengthening in both transmission directions unabplex communication system with at least dependent on each other,
a bidirectional communication channel, a first and a second unidirectional channel 5 results from the following description of the structure and the transmission in opposing Rieh- mode of operation of a special embodiment. In processing and with an amplifying circuit for the drawing shows

binding of the bidirectional news channel F i g. 1 the block diagram of an exemplary embodiment

with the first and second unidirectional channel. game of a time division fork with two-sided

There are systems known in which a time multi-directional amplification according to the invention, plex fork to connect a variety of voice ^? F i g. FIG. 2 shows a number of waveforms on two-wire transmission circuits with different frequencies, with which Punkteride's exemplary embodiment according to FIG. 1. A single pulse-modulated four-wire transmission circuit is used in the illustrated embodiment (German Auslegeschrif ti 124097). The invention is a single amplifier with parallel In such systems, each two-wire circuit contains 15 parallel negative feedback (shunt-shunt negative feedd. I.e. each two-way channel, an individual amplifier) in the four-wire transmission circuit, dual time-division sampling switches (gates) for turned on, and the electronic equivalent of a bond with a common manifold. The single-pole switch with two switch positions is located in the unidirectional transmission channel of the four-wire circuit of the negative feedback loop of the amplifier, around which a common time-division multiplex transmission switch 20 switches negative feedback and thus the amplification direction (transmission gate) for connection to the common. This single switch replaces the common line, and the unidirectional remote time-division multiplex transmit and receive switch of the four-wire circuit has a time-division multiplex that is known in the four-wire section. common time-division multiplex receive switch (reception also improves the negative feedback via this interception gate) for connection to the common 25 single switch their quality.

Manifold. In operation, the various In the exemplary embodiment is a first counter-scanning switch closed one after the other, and at the coupling resistance between the amplifier input Closing each sampling switch, the common and the common bus in the two-sided the same transmit and receive switch alternately directed section of the fork placed, a second closed. In addition, a separate clamping circuit 30 is provided for the coupling resistor between the those on the common busbar strength input and the transmission channel of the four-wire connection stored energy during each protective circuit, and a third resistor lies between between the closing of the successive amplifier input and the receiving channel of the gender sampling switch destroyed to an over- four-wire circuit. The only common time speaking to avoid between the channels. 35 multiplex switch connects the amplifier output

However, such systems have certain disadvantages. alternately with the common manifold These include the fact that when a desired and the transmission channel. During reception two-sided Directional amplification two unilaterally cut of the switching cycle are incoming Directional amplifiers have to be used, namely signals from the receiving channel via the series converter for each direction of transmission. The use 40 tragungsweg, which is through the third resistance and of two amplifiers per fork is complex and a grainy counter-coupled amplifier is formed, whereby plicated the hybrid. the first resistance represents a negative feedback path

The invention has set itself the task at provides.

Such circuits have a bidirectional process

Strengthening the 45 ratio of the first resistance to the third resistance for each transmission

Direction independent, adjustable, but only one position is determined. During the transmission section of the

unidirectional amplifier is required. Switching cycle, signals from the common

To this end, the invention is based on a time-division multiplex collecting line, on the other hand, the series transfer fork with reinforcement of the type mentioned, gungsweg, the through the first resistance and the and this fork is characterized by an amplifier with negative feedback, the side-directed amplifier with one input and second resistor represents the negative feedback path, an output, a first negative feedback resistor. The transmission gain is thus determined by the mind was intended for the amplifier, which connects its input with the ratio of the second resistor to the first two-way communication channel. Reinforcement in a line the second negative feedback resistor for the direction of transmission is therefore independent of the amplifier, which its entrance with the first unilaterally strengthened in the opposite direction, and it directed channel connects, a third resistor, independent settings can be made merge the input of the amplifier with the second.

laterally directed channel connects, and a time Since the output impedance of the negative feedback multiplex switch for connecting the output of the amplifier according to the invention is extremely small Amplifier with either the bidirectional directional no special clamping circuit required to the Message channel or the first unidirectional Ener channel stored on the common bus. The term "resistance" is used here during the protective spaces between the Understood in the general sense, it is not about the effective closing of successive, individual sensing resistors limited. 65 switch to destroy. During the reception

One of the advantages of this solution according to the invention is the cut of the common switching cycle

includes the fact that the expense of time-multiplying output impedance of the common amplifier is one

plex hybrid circuits is significantly reduced, small impedance between earth and the common

3 4

The special, in the known about the series resistor 17 and through the Circuitry required clamping circuit can therefore amplifier 16 and the negative feedback resistor 18

be omitted. shown amplifier with parallel-parallel-counter-

In the exemplary embodiment according to the invention, the coupling leads to the transmission line 14,
according to FIG. 1 is a variety of two-wire scarf 5 F i g. 2 shows a time diagram to explain the lines 1 to η after band limitation by the low-pass exemplary embodiment according to the invention according to FIG. 1. filter via appropriate time-division multiplex sampling switch in FIG. 2, line A explains the mode of operation of the sequentially scanned. Only the output time-division multiplex transmit-receive switch 20 is shown, with R shunt capacitor 10 of the low-pass filter of a middle being the upper or receiving position and _v Γ the lower or two-wire circuit A: but it is showing the transmitting position of switch 20 in FTgM . The talking filter in all other two-wire circuits, lines B and C in FIG. 2 explain the operation of the gene used. In addition, a series inductor 11 is superiors sampling switch, the k is the two-wire circuits or, see the g to be explained, the resonance k + 1 in F i. 1 is supported with the common trunk line. Connect the two-wire circuit 12. Finally, line D in FIG. For example, voice-frequency telephone 15 can be the voltage across the capacitor 13 of the common subscriber lines. In this case the deep manifold as a function of time,
pass filter designed so that its cut-off frequency at According to lines A and B in FIG. 2 closes at the beginning of about 4 kHz. The sampling switches shown simply as single-pole switches with a transmission cycle in the two switch positions according to the invention are the exemplary embodiment according to FIG. 1 of the time-division multiplexed diode or transistor transmission gate high 20 switch 20 first its transmitting contact. Then the two-wire circuit k is switched on and off successively with the previous one of the scanning switches, for example the one in the written scanning frequency, and the charge on the transverse capacitor 10 is resonated via the

The sampling switches connect the respective two-series coil 11 to the capacitor 13 of the common

Transfer wire circuits with a common bus 25 seeds bus. The amplifier 16

device 12, whose capacitance to earth is connected by a Kon so that the resistor 17 as an input

capacitor 13 is set to a defined value. resistance and the resistance 18 as a negative feedback

The common collecting line 12, which work as a dual resistor. The in line D of FIG. 2-sided connection to the two-wire circuit, the voltage shown on the capacitor 13 appears from 1 to η is used, is then the factor from the transmission line 14 and 30
the receiving line 15 existing four-wire circuit connected via a time division multiplex fork, the _ R _t ".
an amplifier 16, three resistors 17, 18, 19 and ^Ut ~ "^ T" ^w
has a time division multiplex switch 20. The amplifier 16 is an operational amplifier with a total of 35

a phase reversal between its input and amplified on the transmission line 14, Gt being the over its output. With a parallel-parallel transmission amplification of the amplifier with a parallel negative feedback path (ie both at the input as parallel negative feedback, R _{t is} the value of the reflection at the output parallel connection to the understanding 18 and R _{r is} the value of the resistor 17). stronger transmission path) via either the resistor 40 The receiving line 15 is at this point with stand 17 or the resistor 18 provided. The time of the transmission line 14 is connected, but since it is a multiplex switch 20 as an electronic equivalent time division multiplex system, there is no incoming single-pole switch with two switch positions on the receiving line 15, this is in the negative feedback loop of the amplifier and could go through. To fulfill the condition for either the resistor 17 or the resistor 45 to make a resonance transmission, the time during which the stand 18 is effective as a negative feedback path. When the sampling switch remains closed, equal to half the practical implementation, the switch 20 can consist of the period of the natural oscillation for the series connection of two diode or transmission gates, which the capacitors 10 and 13 with the coil 11 are alternately switched on and off. borrowed applies:

According to FIG. 1 is the negative feedback resistor 50;

stood 17 between the common collecting line 12 Tt = π \ L * , (2)

and the input of the amplifier 16, the negative feedback y C + Cb
treatment resistance 18 between the transmission line 14 and
the input of the amplifier 16, and the resistor 19

is connected between the receiving line 15 and the input 55, where Tt is the closing duration of the sampling switch, L that of the amplifier 16. The time-division multiplex switching inductance of the coil 11, C the capacitance of the counter 20 connects the output of the amplifier 16 to the capacitor 10 and C & the capacitance of the capacitor 13 alternating with the common bus line 12 and the common bus line. A resonance of the transmission line 14. In this way, if the transmission is not a necessary prerequisite for the switch 20 to be in its upper or receiving position 60 function of the circuit, but supports one, a receiving path is formed that is dependent on the mode of operation.

Interception line 15 via the series resistor 19 and finally the sampling switch opens, and the time through the amplifier 16 and the negative feedback multiplex switch 20 goes to its receiving contact to terminate the transmission resistor 17 with a parallel cycle. Before the parallel negative coupling leads to the common bus 65 reception cycle with the closing of the same device 12. When the switch 20 is in its unte- sampling switch, that is, of the sampling in the reindeer or transmitting location is located is k, a transmission path overall two-wire circuit starts, on the Konbildet, the verblie from the common manifold 12 capacitor 13 of the common manifold -

i 4b / 57 7

According to an important feature of the invention, the charge is very rapid in the extremely small one Output impedance of the amplifier with parallel-parallel negative feedback destroyed. Resistance 17 then serves as a negative feedback element and resistor 19 as input resistance.

While the switch 20 is on its receiving contact, a signal appearing on the transmission line 14 would be transmitted back to the common bus 12 attenuated by the reciprocal of Gt. However, since the transmission line 14 is unidirectional, no such signal can appear. Even if the serial line 14 and the receiving line 15 were not directed unidirectionally, a transmission from the transmitting line 14 to the receiving line 15 would always be impossible, since the amplifier 16 'is unidirectional and its input is apparently connected to earth .

During 'the reception closing of a' sampling switch, for example the one in the two-wire system A:, "becomes the voltage appearing on the receiving line 15 by the factor

Gr = -

Rr_ Rs

amplified, where Gr is the reception gain of the amplifier with P.arallei-parallel negative feedback, R _r <Jer value of resistor 17 and R ₈ the value of resistor 19. The output of the amplifier with negative feedback is an ideal voltage source and charges the capacitor 10 by resonance transmission via the coil 11. The condition for the resonance transmission is now:

35 Tr = Ti] IL-C, (4)

where T _{r is} the duration of the sampling switch during the reception cycle, L is the inductance of the coil 11 and C is the capacitance of the capacitor 10. As in line B, the fig. 2, fr is greater than Tt. As already said, however, a resonance transmission is not a necessary prerequisite for the function "of the circuit, but only improves the mode of operation.

During the protective interval between the opening of the sampling switch in the two-wire circuit k and the closing of the sampling switch in the two-wire circuit k + i , the small output impedance of the negative feedback amplifier is used according to a feature of the invention to connect the capacitor 13 of the common bus to earth . Crosstalk between the time slots of adjacent two-wire circuits is significantly reduced in this way, without the need to use a special clamping circuit.

Claims (4)

Patent claims: 1. Time-division fork with bidirectional amplification for a time-division multiplex communication system with at least one bidirectional message channel, a first and a second unidirectional channel for transmission in opposite directions and with an amplifying circuit for connecting the bidirectional message channel with the first and second unidirectional channel, g ek, en _; Do you denote one-sided Input and an output, a first negative feedback resistor (17) for the amplifier (16), which connects its input to the bidirectional communication channel, a second negative feedback resistor (1,8) for the amplifier (16), which connects its input to the first unidirectional channel (14), a third resistor (19), which connects the input of the amplifier (16) to the second unidirectional channel (15), and a time multiplex scanner (QO) to connect the output? , of the amplifier (16) with either the bidirectional .message channel (k) .or the first unidirectional channel. (14). "" 2. Time division multiplex fork according to claim 1, characterized in that. the first unidirectional channel is a transmission channel (14), the second unidirectional channel is a reception channel (15) and that the time division switch "(20} alternates the output of the amplifier (16) with the bidirectional message channel 0c) and the transmission channel (14) connects. • 3. Time-division multiplex fork according to Claim 2, characterized in that the first counter-coupling resistor (17) creates a counter-coupling path for ilen unidirectional amplifiers (16) whenever the time-multiplexing chain (20) connects the amplifier output with the bidirectional channel (k) connects, and that the second counter-coupling resistor (18) always produces a counter-coupling path for the unidirectional amplifier (16) when the time-division multiplex switch. (20) connects the amplifier output with the transmission channel (14). 4. Time division multiplex fork according to one of the preceding Claims, characterized in that the three resistors (17, 18, 19) are effective resistances are. 5 ,. Time division multiplex: given after one of the preceding Claims, characterized in that a "exercises the bidirectional news channels (£) switched. Storage capacitor (Ϊ3) is provided. For this. 1 sheet of drawings