CS211602B1 - Connection of an electronic telegraph polarized relay - Google Patents

Abstract

By subject. of the invention is the connection of an electronic* telegraph polarized relay for use in telegraph and telephone technology. The purpose of the invention is to solve the general replacement of the electromechanical polarized relay with an electronic relay. 2. The mentioned type of operation enables the transmission of even very distorted input information.

Description

1 21 1601

The invention relates to the connection of an electronic telegraph polarized relay.

So far known wiring of an electronic telegraph polarized relay operates on a complex principle and with considerable inherent distortion.

The aforementioned drawback removes the involvement of electronic telegraph polarized burners, the essence of which is that the input of the first optocoupler is coupled antiparallel to the input of the fourth optocoupler, the input of the second optocoupler is connected to the first electronic unit, the input optocoupler is connected to the second electronic unit, the output of the first optocoupler is connected between the emitter and the base of the first transistor, the output of the second optocoupler is connected between the co-collector and the base of the first transistor, the collector of the first transistor is connected via the first resistor, the next electronic unit, then directly to the first electronic unit, hopping through the second resistor to the second transistor, the base of the first transistor is connected via a third resistor to the emitter of the second transistor, the fourth resistor is connected between the base and the emitter of the first transistor, the first capacitor is connected between the base of the second transistor and the emitter of the first transistor, the base of the third transistor is connected to the base of the first transistor, the collector of the third transistor is connected to the second transistor, the emitter of the first transistor is connected to the emitter of the third transistor and the first electronic unit, the collector of the second transistor is connected to the first electronic cell, the output of the fourth optic is connected between the emitter and the fourth base the transistor, the output of the third optical element is connected between the emitter and the base of the fourth transistor, the collector of the fourth transistor is connected via a fifth resistor to the second electronic unit, further the second electronic unit, further through the sixth resistor on the base of the fifth transistor, the base of the fourth transistor is connected via the seventh resistor to the fifth transistor emitter, the eighth transistor is connected between the base and the emitter of the fourth transistor, the second capacitor is coupled from the fifth transistor to the fourth transistor emitter, the sixth transistor base is connected to the fourth transistor, round wherein the sixth transistor is connected to the transistor, the emitter of the fourth transistor is connected to the emitter of the sixth transistor and the second electronic unit, the collector of the fifth transistor is connected to the second electronic cell, the first terminal and the second terminal being the input, the third terminal and the fourth terminal, the fifth and the second terminal are output.

The overall concept of handling an electronic polarized telegraph relay enables operation in all kinds of telegraph operations. Another advantage is the ability to work at higher telegraph speeds and almost zero distortion. The switching method allows for proper operation even when selecting very distorted telegraph pulse information with a minimum time shift from the beginning. It is a versatile wiring that generally replaces an electromechanical polarized relay that does not need maintenance and has an unlimited lifetime.

In the accompanying drawings, an example of the connection of an electronic telegraph polarized relay is illustrated in FIG. 1, a representation of the operation of this circuit in FIG. 2, and a block diagram of the electronic circuit in FIG.

The first terminal 14 is connected to the anode of the second optic element 2 and to the cathode of the fourth optic element 16. The second terminal 15 is connected to the cathode of the second optic element 2 and to the anode of the fourth optic element 16. The collector of the first optical element 8 is connected to one side of the first resistor 7 ', to the base of the fourth resistor 18, to the collector of the first transistor 3 and to one side of the second resistor 8. The second side of the second resistor 8 is connected to the base of the second transistorana collector of the third transistor, 5 and to one side of the first condenser 11; The emitter of the second transistor is connected to one side of the third resistor, 9. The other side of the third resistance j? is coupled to a first transistor base on the third transistor 5 and to the fourth resistor 10 to the first optical element emitter i and to the second optic element collector 2. The second transistor collector is coupled to the emitter of the fourth transistor 18 and to the fifth transistor 1 of the Emitorpiate the transistor 19 is connected to the base of the sixth transistor 20 and to the anode of the first diode 37. The cathode of the first diode 37 is connected to the emitter of the sixth transistor 20 and to the anode of the third optic 17. 2116 $ 2 2

The third terminal 12 is connected to the cathode of the second diode 38, to the collector of the sixth transistor 20, to the collector of the fifth transistor 19, to the collector of the fourth transistor 18, and to the second level of the first resistor 11, the fourth terminal 13 is connected to the anode of the second diode 38; katodutretieho optoprv. 17, to the third transistor emitter, and to the other side of the first condenser 11, to the fourth resistor side, to the first transistor emitter and 3 to the second transistor emitter 2. The third optic element collector 17 is connected to one side of the fifth resistor 22 ' the transistor 44 ' to the collector of the seventh transistor 41 and to one side of the opposite resistor 23 " The other side of the sixth resistor 23 is coupled to a given transistor 42 to a collector of ninth transistor 43 and to one side of the second condenser 26 " Emitter Transistor 42 " 24 «The second side of the seventh resistor 24 is connected to the base of the seventh transistor 41» to one side of the thrust resistor 25 »to the ninth 'transistor 43' emitter of the third optic element 17 and to the collector of the fourth opto element 16«

The collector of the eighth transistor 42 is connected to the emitter of the tenth transistor 44 and the ahase of the eleventh transistor 45. The emitter of the 11th transistor 45 is coupled to the two-transistor 46 and the third diode anode 47 «. The emitter of the sixth transistor 46 is connected to the cathode of the third diode 47 and to the anode of the first optic element. The fifth terminal 23 is "connected by the cathode of the fourth diode 48" to the collector of the twelve transistor 46 "to the collector of the one-transistor 45, to the collector of the tenth transistor 44 and to the one side of the fifth resistance 22 ·

The Siesta clamp 28 is connected to the anode of the fourth diode * 48 at the cathode of the first optic element 1, the emitter of the ninth transistor. 43, on the other hand, of the second capacitor 26, on the other side of the emitter resistor 25 ' to the emitter of the transistor 41 and on the emitter of the fourth optical element 16.

The total wiring works and the electronic telegraph-polarized relay »1 which switches the starting edge of the pulse edge. the operation is shown in Fig. 2. By connecting the telegraph line to the third terminal 12, the fourth terminal 13 and the terminal terminal 27, the Siest terminal 28 in operation, the polar signal in the telegraph link is always switched on one electronic contact, because the connection operates in hiatable mode »

When contact is made with the output terminal 12 and the output terminal 13f4, the first transistor 3 is closed and the fourth transistor 18 ' is the transistor 15, the sixth transistor 20 is open. The third " transistor " The third transistor 5 and thus the first transistor 6 are closed by passing through the input portion of the third opto element 17 ' which is embedded in the emitter of the transistor 20 to output the SasC of this element which forms the transistor 41 »This open transistor closes the deaiate transistor 44, eleventh transistor 45 »twelve transistor 46». This time the electronic contact is closed and thus the fifth terminal 27 is disconnected from the sixth terminal 28. The electronic contact is disconnected · By connecting the telegraph line to the first terminal 14, the terminal 15 is ready to operate all the circuit control in operation - the polar signal in the telegraph line. Fig. 2 shows the pulse information on a long telegraph line. The coupling allows prizes to be won by the A and Β ca and is at the beginning of the distorted telegraph pulse.

Shaded sections illustrate the ability to set work hours in & and B and the same time delay setting C, I>. Adjustment of these points is given by the size of the passage that flows through the exit portion of the second optical element 2 and 4 of the optic element 16 «. this setting.

Starting from the foregoing description, where the electronic contact is turned on, the third terminal 12, the fourth terminal 13 - and, upon connection to the telegraph line, the second element 2 is excited will not track this activity. The transistor 3 is closed, which allows the fourth transistor 18 ' of the fifth transistor 15 ' The intermediate element 17 is driven through the transistor through the transistor 20 and is thus also the open seventh transistor 41 "Tenth transistor 44, eleventh transistor 45" twelve transistor 46

Claims (1)

3, 211602 is opened in the region of FIG. The first transistor 2 opens, the open second transistor 4 opens. The first transistor 3 closes the fourth transistor 18, the fifth transistor 19, the Siestytransistor. 2Ό. The electronic contact of the third terminal 12 and the fourth terminal 13 is disengaged. The Siedray transistor 41 closes and opens the path for the sixth transistor 44, the eleventh transistor 4.5, the twelfth transistor 46. The electronic contact-fifth terminal 27 and the sixth terminal 28 are closed. The first optical element 1 is energized by the flow of the twelfth transistor 46 and provides a bistab-free state. This is done in area B when the circuit is misspelled, the operation is as follows. The fourth optocoupler 16 is energized at the time of the OI, but does not participate in this phase of co-operation. After the elapsed time TB, the eighth transistor 42 opens, through which the current flows through the fourth optic element 16, This increased current allows for a sharp response to the closing edge of the pulse where the transient occurs. The ninth transistor 43 provides a bistable state when the wiring line is disconnected. At the closing pulse in area A, the event is repeated in the opposite wiring part, that is, closing the fourth optical element 16 opens the seventh transistor 41 which closes the tenth The transistor 44, the eleventh transistor 45, the twelfth transistor 46 is the first transistor. the transistor 2 is energized and the first transistor 2 is closed through the fourth resistor 10, and the fourth transistor of the fifth transistor 19, siesta transistor 20 is open. The third optical element 17 is raised. The first capacitor 11 starts charging through the fourth resistor 10. The second element 2 is excited at point AB on the leading edge of the distorted pulse. Upon expiration of the time constituent TA, the second optocoupler 2 begins to cooperate on the closing pulse in the area B. The activity is repeated. The electronic telegraph-polarized relay of the present invention fully replaces the electromechanical polarized relay used so far and is designed to be used in telegraph technology and allows the transmission of all types of operation. More applications can be found in various fields where galvanic isolation of input from output is required and a heavier transfer rate is required. The great advantage of this engagement is the ability to make selections and very distorted information at higher transmission speeds than are used to date. OBJECT OF THE INVENTION The connection of an electronic telegraph polarized relay, characterized in that the first optical element (1) is connected antiparallel to the input of the fourth optical element (16), the second optical element (2) is connected to the first electronic element (6), the third optical element (17) is input is connected to the second electronic unit (21), the output of the first optical element (1) is connected to the emitter and the base of the first transistor (3), the output of the second optical element (2) is connected to the intercolector and the base of the first transistor (3), the collector of the first transistor (3) is connected via a first conductor (7) to a first electronic unit ((> 1, falsely directly to the first electronic unit (6), furthermore a second resistor (8) to the base of the second transistor (4), a base of the first transistor (3) is connected via a third resistor (9) to the emitter of the second transistor (4), a fourth resistor (10) is connected to the base base and the emitter of the first transistor (3), the first capacitor (11) is connected to the second base the transistor (4) and the emitter of the first transistor (3), the base of the third transistor (5) is connected to the base of the first transistor (3), the collector of the third transistor (5) is connected to the second transistor (4), the emitter of the first transistor (3) / is connected to the emitter of the third transistor (5) and the first electronic unit (6), the collector of the second transistor (4) is connected to the first electronic unit (6), the output of the fourth optical element (16) is connected to the emitter of the fourth transistor (18), output the third optical element IMf is connected between the emitter and the fourth transistor (18), the collector of the fourth transistor (18) is connected via the fifth 211602 4 resistor (22) to the second electronic unit (21), via a Siest resistor (23) to the base of the transistor / 19 /, the base of the fourth transistor (18) is connected via a seventh resistor (24) to the emitter transistor (19), the ssmy resistor (25) is connected between the base and the emitter of the fourth transistor (18), the second condenser (26) is p connected between the base of the fifth transistor (19) and the emitter fourth transistor (18), the base of the transistor (20) is connected to the base of the fourth transistor (18), the collector of the sixth transistor (20) is connected to the base of the fifth transistor (19), the emitter of the fourth transistor (18) is connected to the emitter of the transistor (20) and the second electronic unit (21), the collector of the fifth transistor (19) is connected to the second electronic unit (21), through the first terminal (14) and the second terminal / 15 / are the input, the third terminal (12), the fourth terminal (13), the fifth terminal (27) and the Siesta terminal (28) are output. 3 sheets of drawings of Scveropafia, n. PM elements 7. Moat