RU2042278C1 - Interfacing telegraph device - Google Patents

Abstract

FIELD: electric communication. SUBSTANCE: interfacing telegraph device includes input interfacing unit 1, former 2 of controlling pulses, first and second optical dividing units 3 and 4, first and second commutation loading units 5 and 6, interfacing unit 7, limiter 8, first and second input optical isolating units 9 and 10, first and second comparators 11 and 12, coincidence unit 13, storage 14, unit 15 of conversion and time selection and output unit 16. EFFECT: increased reliability when interfacing personal computer with two-wire telegraph communication channel. 2 cl, 3 dwg

Description

 The invention relates to telecommunication technology and can be used to include a personal computer in a telegraph network using a two-wire switching circuit.

The well-known linear data interface containing a properly connected normalizing unit, an output stage, an input node, a unit for conversion and temporary selection and an output unit does not allow using a personal computer as the communication equipment for pairing with a telegraph channel [1]
Closest to the proposed one is a mating telegraph device containing the first and second optical separation nodes connected in parallel to the first and second switched load nodes, the control inputs of which are respectively connected to the outputs of the first and second optical separation nodes, the matching node, the first and second conclusions of which are connected respectively to the first and second outputs of the first (second) switched load node, as well as the first and second input optical signals combined at the input dividing nodes, while the third output of the matching node is connected to the first output input bus, and the second output-input bus [2]
A disadvantage of the known device is the low reliability when pairing a personal computer when it is used as communication equipment with a two-wire telegraph communication channel. This is due to the fact that the known device does not take into account the features of the signals that are used in the exchange of personal computer information, and the signals used in the telegraph network with the two-wire principle of telegraphing.

 The aim of the invention is to increase reliability when pairing a personal computer with a two-wire telegraph communication channel.

 In FIG. 1 shows a structural diagram of the proposed device; in FIG. 2 is a diagram of a conversion and time selection unit in FIG. 3 circuit driver control signals.

 The coupling telegraph device contains an input matching unit 1, a driver 2 of the control signals, the first 3, the second 4 optical separation blocks, the first 5, the second 6 switched load blocks, the matching unit 7, the limiter 8, the first 9, the second 10 input optical separation blocks, the first 11, second 12 comparators, coincidence unit 13, storage unit 14, conversion and time selection unit 15, output unit 16, indicator 17, first 18, second 19 input output bus.

 The conversion and temporal selection block contains the first element EXCLUSIVE OR 20, D-trigger 21, the second element EXCLUSIVE OR 22, the first, second, third elements NOT 23, 24, 25, the first, second, third and fourth elements AND 26-29 .

 The shaper of control signals contains three elements NOT 30, 31, 32, four elements AND-NOT 33-36, two shapers of a short pulse 37, 38, timer 39, D-trigger 40.

 The device operates as follows.

 In the initial state at the output of the personal computer there is a starting polarity-positive polarity of the signal. This polarity of the signal corresponds to a currentless transmission, which corresponds to a zero signal at the output of block 1 (in the block, the signal is inverted and is limited from below). At the same time, at the second output of the driver 2 of the control signals, there is a signal of positive polarity — a signal of logical unity. The transistor in the optical isolation unit 4 is closed, the control signal acts on the output of the unit, by which the transistor switch in the switched load unit 6 is closed. Between the first 18 output-input bus and the output of the matching unit 7 there is a high resistance corresponding to a break. If the duration of the non-current sending is more than 850-1200 ms, this value is set, then the output of the fourth 45 AND-NOT element (see Fig. 3) generates a logical unit signal, by which through the element 32 the D-trigger 40 is set to zero its direct exit. In this case, the logical units coincide at the inputs of the AND-NOT 43 element, and at the output of the AND-NOT 33 element the signal is also set to logical unit, i.e. at the output of the former 2, a signal acts by which the transistor switch opens in the switched load unit 5. A quiescent current (usually 3-8 mA) flows in the output circuit. The presence of a quiescent current in the circuit output corresponds to the initial position of a two-wire subscriber unit.

 The above time interval is formed using a circuit that includes a short pulse shaper 37 that generates a pulse of the "0-1" differential, a timer 39, which is triggered by this pulse (this unit can be implemented, for example, in the form of a multivibrator with a restart or an integrator with the reset of both the comparator and the shaper 47 of the short pulse forming the pulse at the end of the specified time interval for the differential "0-1" (or for the differential "1-0"). The choice of the control differential is determined by the design and press of the timer 39.

 When transmitting information from a personal computer, the transistor switches are switched simultaneously in both switched load nodes, which leads to a change in the current in the output circuit from zero to the operating current. Thus, in the output circuit during operation, the current takes three values (the third quiescent current).

 Because in two-wire telegraphy, the transmission is carried out with the current of the same polarity, then after dialing the number and establishing the connection, the station (not shown in the figures) changes the power polarity, when the connection is established, the polarity of the power from the station changes to the opposite, and the data exchange already occurs in the opposite polarity. To coordinate the device with a linear circuit, a matching unit 7, made in the form of a diode bridge, is used.

 At the end of the exchange of information, a signal is generated at the output of the timer 39, which sets the device in its initial state.

 The receiving part of the device (in particular, when transmitting a number from a personal computer) with a positive polarity signal contains two input optical separation blocks 9, 10 and will respond to the transmission of a number from a personal computer by the presence of a signal at the output of the first of these blocks 9. The output circuit from the PC elements in this node (a similar circuit also occurs in the second 10 block) converts the pulse duration into the amplitude value of the pulse. When the threshold value is exceeded, a signal appears on the output of the comparator 11, which characterizes the first phase of the dialing connection.

 The optical isolation unit emits the signal after the station changes the polarity of the supply. The output of the comparator 12 is allocated a signal characterizing the data, the second phase of the connection.

 The signals from the comparators 11, 12 act on the storage unit 14, which remembers the connection phase and switches when the phase changes (When this unit is implemented as an RS-trigger, the output signal is the signal taken from output Q).

Block conversion and temporary selection 15 provides the following functions:
in the initial state of the subscriber unit (initial polarity, quiescent current), a signal is received at the input of the output unit 16, at which a signal starting polarity takes place at its output;
when the polarity changes, both at the quiescent current and at the operating current, the signal polarity changes from start to stop;
pulse work from the output of a personal computer blocks the state at the output of the device and fixes it in the state in which it was;
when the line is broken (dead-end package) in the initial phase of the connection, output 18 transfers from the starting package to the stop package, and in the second phase, vice versa: from the stop package to the starting one.

 These functions are realized by means of the D-trigger 21 elements EXCLUSIVE OR, 20, 22 elements NOT 23, 24, 25 elements AND-NOT 26-29 connected in the above manner. At the same time, if it is necessary to additionally control the availability of power (in particular, + 15V), the AND-NOT element is used as an element 24, the other input of which is connected accordingly to the power bus, in particular +15 V.

 It is worth noting here that to bring the D-trigger 21 to its initial state, the output signals from the outputs of both comparators are sent to the coincidence unit 13, which detects the presence of zero signals at the outputs of the comparators (for this, the coincidence unit can be implemented, for example, as an And NOT) and a signal is issued to the first input of this unit, which sets the D-trigger 21 to its original state by supplying a signal to its R-input.

Claims (2)

 1. A CONNECTING TELEGRAPHIC DEVICE containing the first and second optical separation blocks connected in parallel with the first and second switched load blocks, the controlled inputs of which are respectively connected to the outputs of the first and second optical separation blocks, the matching block, the first and second conclusions of which are connected respectively to the first and the second conclusions of the switched load blocks, as well as the input optical separation blocks combined at the input of the first and second, while the third output is according to the matching unit is connected to the first output input bus, as well as the second output input bus, characterized in that the input matching unit, the driver of the control signals, the limiter, the coincidence unit, the storage unit, the conversion and time selection unit, the first and second comparators and the output unit are introduced wherein the input of the interfacing telegraph device is the input of the input matching unit, the output of which is connected to the input of the driver of the control signals, the first and second outputs of which are connected to the inputs according to the first and second optical separation blocks, the fourth output of the matching block is connected to the limiter connected to the second output input bus, the output of the limiter is connected to the inputs of the first and second input optical separation blocks, the output of the first input optical separation block through the first comparator and coincidence block connected in series connected to the first input of the conversion and time selection unit, the output of which is connected to the input of the output unit, the output of which is is the output of the interfacing telegraph device, the output of the second input optical separation unit through the second comparator and the storage unit connected in series, the second input of which is connected to the output of the first comparator, is connected to the second input of the conversion and temporary selection unit, the output of the second comparator is also connected to the second input of the coincidence unit and the third input of the conversion and temporal selection unit is connected to the second output of the control signal generator.  2. The device according to claim 1, characterized in that the conversion and temporal selection unit contains the first and second elements EXCLUSIVE OR, D - trigger, first, second and third elements NOT, first, second, third and fourth elements AND NOT, while R is the input D of the trigger, the input of the first element is NOT and the first input of the third element AND is NOT the first input of the conversion and time selection block, the output of the first element is NOT connected to the first input of the first element AND NOT, the output of which is connected to the first input of the second element AND NOT, the second and the third entrances to of which are connected respectively to the outputs of the third and fourth elements AND NOT, the output of the second AND element is NOT the output of the conversion and time selection unit, the direct output of the D-trigger through the second element EXCLUSIVE OR is connected to the input of the second element NOT, the output of which is connected to the second input of the first element AND NOT, the direct output D of the trigger is connected to the first input of the fourth element AND NOT and to the input of the third element NOT, the second inputs of the second element EXCLUSIVE OR, the third and fourth elements AND are NOT combined and are with the second input of the conversion and temporary selection block, the third input of the third AND element is NOT connected to the output of the third NOT element, the third input of the conversion and temporary selection block is the first input of the first EXCLUSIVE OR element, the output of which is connected to the S input of the D - trigger, D and C the inputs of which are combined with the second input of the first element EXCLUSIVE OR and connected to the power bus.

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