SU758555A1 - Telegraphy intermediate device - Google Patents

Description

The invention relates to a communication technique, in particular to telegraphy, and is intended for interfacing start-stop telegraph devices operating in half-duplex mode via a two-wire circuit with equipment or communication channels operating on a four-wire bipolar DC package. Telegraphic junction is known j containing a telegraph unit, a converter of unipolar signals into bipolar, two power sources l. However, the known telegraph transition device has large telegraph distortion signals. The purpose of the invention is to reduce the telegraph distortion of signals. To do this, a voltage stabilizer, two, was inserted into a telegraph junction device containing a telegraph device, a converter of unipolar signals into two-pole signals, two power sources. Zener diode, transistor, receiving, transmitting and blocking optocouplers, as well as an OR element and a circuit consisting of series-connected resistor and capacitor, with the photoreceiver of the receiving optocoupler connected to the base and collector of the transistor, the emitter of which is connected to the negative pole of the first power source The positive pole of which is connected to the capacitor and one of the inputs of the telegraph apparatus, to the other input of which is connected through a series-connected first Zener diode and LED the transmitting optocoupler is connected to the collector of the transistor and the resistor, the LEDs of the receiving and blocking optocouplers are connected counter-parallelly and through a voltage regulator connected to the inputs of the device, while the corresponding outputs of the photodetectors of the blocking and transmitting optocouplers are connected to the first and second inputs of the converter of unipolar signals to bipolar through the OR element and directly to the third input of the converter of unipolar signals into bipolar, the negative pole of the second and source of power, the positive pole of which is connected to the second input transducer signals in a unipolar dvuhpol molecular weight and a second zener diode connected to the collector and emitter of the transistor.

The drawing shows the electrical circuit of the proposed device.

A telegraph adapter contains input 1, a tereraphic device 2 consisting of transmitter 3, receiver 4, inputs 5, a converter of unipolar signals into two-polar signals, a receiving optocoupler 7, a transmitting optocoupler 8, a blocking optocoupler 9, a first power supply 10, the second a power supply 11, a voltage regulator 12, an OR element 13, a first zener diode 14, a transistor 15, a second zener diode 16, a circuit 17 consisting of a resistor 18 and a capacitor 19.

The device works as follows.

In the initial state, in the absence of signals at input 1, the LED of the optocoupler 7 is not excited, the transistor 15 is closed and the telegraph unit 2 is de-energized. The LEDs of the optocouplers 8, 9 are not excited, and the signals from the output of these optocouplers are not transmitted to the element OR13; The converter of bipolar signals into bipolar signals from the source 11 sends a negative polarity to the transmitting communication channel.

When a positive polarity arrives at the input 1, the LED of the optocoupler 7 is energized. Transistor 15 opens and closes the power supply network of the telegraph unit 2, the pole of the power supply source 10, the telegraph unit 2, the optocoupler LED 8, the zener diode 14, the transistor 15, minus the power supply source 10. Zener diode 14 pierces and current flows through the apparatus circuit. At the same time, the LED of the optocoupler 8 is energized and from the output of the optocoupler through the OR element 13 a signal is fed to the input of the converter 6. From the output of the latter, a positive signal is sent to the transmitting communication channel.

When a negative polarity arrives at the input 1, the LED of the optocoupler 7 is locked and the LED of the optocoupler 9 is energized. At that, the transistor 15 is closed and the electromagnet circuit of the device 2 is broken (current-free parcel). and from its output, despite the off state of the optocoupler 8, the sending of the positive polarity continues to flow into the communication channel. Thus, bipolar parcels arriving at input 1 are converted into unipolar PROSETS to manipulate the telegraph, while, despite the change of polarity of the parcels at input 1, the converter b is held in the position where a positive parcel arrives, t.

the package from input 1 is not broadcast to the output of converter b.

It should be noted that at the beginning of the positive signal at the input 1, the circuit of the apparatus is closed, but due to the inductance of the electromagnet, the current in its circuit increases to the magnitude of the excitation of the LED of the optocoupler 8 during 0.5-0.6 ms. During this time, no signal comes from the output of the optocoupler 8 to the input of the converter b and a negative polarity can be sent to the communication channel for a short time. To eliminate this phenomenon, a circuit 17 consisting of a resistor 18 and a capacitor 19, a charging current, is installed parallel to the inputs 5 the LED of the optocoupler 8 is energized at the beginning of the current sending.

As mentioned above, in the quiescent state, the positive signal of the stop position of the telegraph apparatus continuously arrives from the communication channel to the input 1.

If the transmission from apparatus 2 is now being conducted, then its circuit by the contacts of transmitter 3 is closed and opened in accordance with the transmitted code combinations. This closes and opens the power supply circuit of the LED of the optocoupler 8 and, accordingly, manipulates the input of converter b. With the current parcels from the device, from the output of the converter, a positive polarity is sent to the communication channel, and without polarization, the polarity is sent.

Thus, unipolar parcels, arriving from a telegraph transmitter, are converted into two-pole parcels.

At the same time, work is monitored at the receiver 4 of the telegraph apparatus, connected in series with the transmitter. Upon termination of operation on the keyboard of apparatus 2, the reception of the parcels arriving at input 1 begins. In this way, the telegraph apparatus operates in half duplex mode.

When an electromagnet circuit is opened, a self-induction EMF occurs, which is added to the voltage of the power supply 10 and is attached to the closed transistor 15. To protect the latter from breakdown, the zener diodes 14 and 16 are provided. Under the action of self-induction EMF, the electromagnet opens the current of the electromagnet and closes along the circuit: plus the source power supply, zener diodes 14 and 16, an optocoupler LED 8, an electromagnet of the apparatus, minus the power source. At Zener diode 16, the voltage drops, in magnitude smaller than the maximum allowable Utf-e transistor 15, protected from breakdown. This inclusion of zener diodes allows the use of

Claims (1)

Claim A telegraph adapter containing a telegraph apparatus, a 3Q converter of unipolar signals into bipolar, two power sources, characterized in that, in order to reduce telegraph distortion of the signals, a voltage stabilizer, two zener diodes, a transistor, a receiving, transmitting and blocking optocouplers, as well as the first a power source, the positive pole of which is connected to a capacitor and one of the inputs of the telegraph apparatus, to the other input of which through the first zener diode and the LED of the transmitting optocoupler is connected to the collector of the transistor and the resistor, the LEDs of the receiving and blocking optocouplers are connected counter-parallel and connected to the device inputs through a voltage stabilizer, while the corresponding outputs of the photodetectors of the blocking and transmitting optocouplers are connected to the first and second inputs of the converter of unipolar signals into bipolar through an OR element and directly to the third input of the converter of unipolar signals into bipolar connected negative pole a power source, the positive pole of which is connected to the second input transducer signals in bipolar monopolar, and the second zener diode connected to the collector and emitter of the transistor.