RU2042277C1 - Electronic transmitter of telegraph adapter - Google Patents

Abstract

FIELD: organization of information systems. SUBSTANCE: electronic transmitter of telegraph adapter provides for conversion of level and polarity of personal computer (fro "minus", "plus" 12 V) into telegraph messages of level "minus", "plus" 30 V. It has input matching unit composed of normalizing unit 1, resistive dividers 2 and 3, keys 4 and 5, optical decouplers 6 and 7, controlled current generators 8 and 9, output matching unit 10 properly interconnected, two power supply sources - sources of bipolar supply 11 and 12 and sources of additional bipolar supply 14 and 15. Invention is designed to interface output of personal computer with telegraph network with provision of it against short-circuit in line and in case of emergence of opposite voltage. In addition peculiarity of electronic transmitter of telegraph adapter lies in design of controlled current generator in the of interconnected transistor 18 of p-n-p type, stabilizer diode 10 and resistor 20 and in insertion of controlling unit 17 built on light-emitting diode placed across output of generator. EFFECT: enhanced operational reliability of electronic transmitter. 2 cl, 1 dwg

Description

 The invention relates to telecommunications and can be used to organize information networks using personal computers and a telegraph network with a four-wire communication line, in particular AT-50.

 Known devices for ensuring the coordination of information sources forming digital electrical signals with communication lines.

 The disadvantage of these devices is the low reliability during short circuits in the communication lines and when the oncoming voltage appears.

 In the device for transmitting a binary signal to the communication channel, the above useful result is largely provided, however, this device also has insufficient reliability, because It requires increased requirements for the transmission coefficients of current generators when using a telegraph network with a four-wire communication line, in particular the AT-50. In addition, the known device cannot be directly used to connect the original computer, because has two functional inputs and, therefore, requires the formation of two output signals from the information source to ensure the matching mode. Using one of the service outputs of a personal computer to form a second output signal complicates the exchange program between the personal computer (s) and standard subscriber telegraph installations, if they are connected to the AT-50 switched network.

 The closest solution to the proposed device is an electronic transmitter containing an input matching unit, the input of which is the input of the device, and the first and second outputs, respectively, through the first and second optical decoupling units are connected to the inputs of the first and second controlled current generators, a bipolar power source, the first and the second outputs of which are connected to the corresponding power inputs of the first and second optical decoupling units and the first and second controlled current generators, the outputs of the first and second controlled current generators through the output matching node are connected to the output of the device, while the output of the common bus of the matching node is connected to the output of the common bus of the bipolar power source.

 The known device also does not provide high reliability when coordinating the output of a personal computer with a telegraph network, in particular, when a counter voltage occurs.

 The aim of the invention is to coordinate the output of a personal computer with a telegraph network while providing protection against short circuit in the line and when the oncoming voltage appears.

 The electronic transmitter contains an input matching unit made in the form of a normalizing unit 1, a resistive divider 2, 3, key units 4, 5, as well as optical decoupling units 6, 7, controlled current generators 8, 9, output matching unit 10, source 11, 12 bipolar power supply, a common bus 13, a source 14, 15 of additional bipolar power supply, a common bus 16, the control unit 17.

 Controlled current generators consist of a transistor 18 p-n-p (n-p-n) type, a zener diode 19 and a resistor 20.

 Electronic transmitter telegraph adapter operates as follows.

 The output signal of the personal computer is fed to the input of the normalizing unit 1, which performs the functions of the key element, and through resistive dividers 2, 3 it controls the state of the key blocks 4, 5, which in turn, depending on the output signal of the personal computer, diode the optocouplers incoming to the input circuit of the optical decoupling units 6, 8. To maintain the starting polarity at the output of the electronic transmitter of the telegraph adapter, the third output of the resistive divider 3 is connected to the power input of the key unit 5 , which can be performed, for example, in the form of an npn type transistor with a limiting resistor connected to the transistor collector, while at the output of the auxiliary power supply 15 there is a positive (positive) voltage level relative to the emitter of the above transistor, which is connected to the output of the common bus of the key unit 5. At the output of the additional power supply 14, there is a negative (minus) voltage level relative to the output of the common bus of the key unit 4, which may be olnen, e.g., in the form of transistor p-n-p type transistor connected to the emitter of the limiting resistor. In this case, the output of the common bus of the key block 4 is connected to the collector of a p-n-p-type transistor, which is part of this node. The operation mode of the key blocks 4, 5 is determined by the signals taken from the middle (second) terminals of the resistive dividers 2, 3, which are supplied to the base transistor circuits of the corresponding key blocks, the output signals of which are respectively the signals taken from the emitter of the transistor of the key block 4 and key block transistor collector 5.

 The output signals of the optical decoupling blocks 6, 7 (generated by the optocoupler at the transistor outputs included in the optical decoupling blocks) in turn bypass the zener diodes 19, which with resistors 20 and transistors 18 form circuits of controlled current generators 8, 9. In accordance with the output signals of the optical decoupling units, a controlled current generator 8, 9 is operated.

 As a result, either a start or a stop package is transmitted at the output of the device.

 In fact, the proposed device provides the conversion of the level and polarity of the signal from a personal computer (from "minus", "plus" 12 V) to telegraphic packages of the level "minus", "plus" 30 V. In this case, a bipolar power source "minus", " plus "30 V and an additional bipolar power supply" minus "," plus "15 V.

 To control the operation of the device at the output of the device, a control unit 17 is included.

Claims (2)

 1. ELECTRONIC TELEGRAPHIC ADAPTER TRANSMITTER, comprising an input matching unit, the input of which is an input of an electronic transmitter, and the first and second outputs are connected through the first and second optical decoupling units to the inputs of the first and second controlled current generators, a bipolar power source, the first and second outputs which are connected to the corresponding power inputs of the first and second optical decoupling units and the first and second controlled current generators, the outputs of the first and second adjustable current generators are connected to the inputs of the output matching unit, the output of which is the output of the electronic transmitter, while the output "common bus" of the output matching unit is connected to the output "common bus" of the bipolar power supply, characterized in that the additional bipolar power supply is introduced, and the input the matching unit is made in the form of a normalizing unit, the output of which through the first and second resistive dividers is connected respectively to the inputs of the first and second key blocks, the outputs of which x are respectively the first and second outputs of the input matching unit, the input of which is the input of the normalizing unit, and the first and second outputs of the additional bipolar power source are connected to the corresponding power inputs of the normalizing unit, the first and second key blocks, the power input of the second key block is connected to the third output the second resistive divider, and the output "common bus" of the additional bipolar power supply is connected to the output "common bus" of the normalizing unit, the outputs are "common I am the bus of the "first and second key blocks, the third output of the first resistive divider and with the outputs" common input bus "of the first and second optical decoupling blocks, the common bus outputs of which are connected to the common bus output of the output matching block.  2. The electronic transmitter according to claim 1, characterized in that the controlled current generators are made in the form of a pnp (npn) type transistor, between the base and emitter of which a circuit is connected from the zener diode and the first resistor connected in series, while the input, output and power input controlled current generators are connected respectively to the base, the collector of the transistor pnp (npn) type and the output of the first resistor connected to the corresponding output of the zener diode, and the output matching unit, made in the form of a second resistor.