SU913609A1 - Device for converting telegraphic single polar to bipolar signals - Google Patents

Description

The invention relates to communication and can be used on the lines of the reception and transmission of telegraph signals.

A device is known for converting telegraphic unipolar signals into bipolar signals containing the first ⁵ torus, one output of which is connected to the collector of the first η-p-η transistor, the emitter of which is connected to the anode of the first diode, the cathode of which is connected to the base of the first p-p transistor and one vodom You are a second resistor ^10, the other terminal of which is connected to the collector of the second n-p-n transistor, as well as two power supply [1].

However, the known device has a relatively low conversion accuracy.

The goal of iaofetenia is to increase the accuracy of conversion. 20

To achieve sang in the device for converting telegraphic unipolar ¹ signals into bipolar, two optics are entered * 2

rona, three resistors, a second and a third capacitor diodes and a zener diode whose cathode is connected to the collector of the photodetector of the first optocoupler and to one output of the third resistor, the other output of which is connected to the anode of the second optics LED and the positive pole of the first power supply, the negative pole of which connected to the positive pole of the second power source and to the collector of the photodetector of the second optocoupler, the emitter of which is connected to the emitter of the second η - p - η transistor and the anode of the second diode, the cathode of which o is connected to the negative pole of the second power source and to one output of the fourth resistor, the other output of which is connected to the emitter of the photodetector of the first optocoupler, to one output of the fifth resistor and to one output of the capacitor, the other output of which is connected to the other output of the fifth resistor and The base of the second pnp transistor, the cathode of the LED of the first optocoupler is connected to the anode

913609

the third diode, the cathode of which is connected to the anode of the LED of the first optocoupler, and the other output of the first resistor is connected to the cathode of the LED of the second optocoupler.

The drawing shows the principal. 5 is an electric circuit of the proposed device.

A device for converting telegraph unipolar signals into bipolar contains first and second pnp transistors 1 and 2, respectively, first and second resistors 3 and 4, respectively, two power sources 5 and 6, zener diode 7, two optocoupler 8 and 9, the first diode 10, the second and third diodes 11 and 55 12, resistors 13, 14 and 15 and the capacitor 16.

The drawing also indicates the input 17 and the output terminals 18.

The device works as follows.

In the initial state, with an open circuit of input 17, the LED of the optocoupler 8 is de-energized, the photodetector of the optocoupler is closed, and therefore, the second npp transistor 25 2 is closed. The base of the first pr-p transistor 1 current flows: plus power supply 5, resistor 13, zener diode 7, base emitter of the first np-p transistor 1, output terminals 18 (load-3 ©

ka) ^ minus power supply 5.

The first η — p — η transistor 1 is open and a positive current flows through the load connected to the output terminals 18: plus a power supply 35 5, the LED of the optocoupler 9, the first resistor 3, the first η.-p- to transistor 1, the output terminals 18 (load), minus power supply 5.

In this case, the opt * LED of the rhod.9 is excited, and through the photodetector of the optocoupler 9 the diode 11 power supply circuit is closed: plus the power supply 6, the photoreceiver of the optocoupler 9, the diode 11, the power supply minus 6, the voltage that occurs on diode ^45, 11, closes the second rr transistor 2.

When a signal is received from the telegraph unit (not shown) at input 17 (current parcels), the LED ^{30 of the} optocoupler 8 is excited, and the photoreceiver of the optocoupler 8 is opened. In this case, the power supply circuit of the base of the first pnp transistor 1 is shunted through the photodetector of the optocoupler 8 and the resistor 14, since the voltage drop ⁵⁵ on these elements is less than the breakdown voltage of the zener diode 7. The first solution of the transistor 1 is closed *

At the same time, the base supply circuit of the second "-p-p transistor 2 is closed: plus the power supply 5, the resistor 13, the photoreceiver of the optocoupler 8, the PC-circuit from the resistor 15 and the capacitor 16, the base-emitter junction of the second pnp transistor 2, diode 11, power supply 6, minus power supply 5. However, the second npp transistor 2 opens only after the voltage across the resistor 14 becomes approximately 2V (the initial voltage of the base-emitter transition of the second η –p-p transistor 2 and diode 11).

At the same time through the load connected to the output terminals 18, the current flows in the opposite direction along the circuit: plus power supply 6, output terminals 18 (load), the first diode 10, the second resistor 4, the second η -r- η transistor 2, diode 11, minus power supply 6. The voltage falling on the first diode 10, podtiraya first P-p-η transistor 1, i.e. unipolar parcels arriving at input 17 are converted into bilar parcels at a load connected to output terminals 18. ί

The proposed device allows with high reliability to interface unipolar start-stop telegraph devices with bipolar communication channels and at the same time ensures their galvanic isolation.

Claims (1)

Claim A device for converting tele-. graphical unipolar, bipolar signals containing the first resistor, one output of which is connected to the collector of the first Bp transistor, the emitter of which is connected to the anode of the first diode, the cathode of which is connected to the base of the first Npp transistor and one output of the second a resistor, the other output of which is connected to the collector of the second pnp transistor, as well as two power sources, characterized in that, in order to improve the accuracy of the conversion, two optocouplers, three resistors, a capacitor, a second and a third diodes, and a stabilizer a throne whose cathode is connected to the collector of the photodetector of the first optocoupler and with one output of the third resistor, the other output of which is connected to the anode of the LED of the second optocoupler and with the positive pole of the first power source, the negative pole of which 5 913609 6 It is connected to the positive pole of the second power source and to the collector of the photoreceiver of the second optocoupler, the emitter of which is connected to the emitter of the second η-p-η transistor and to the anode of the second diode, the cathode of which is connected to the negative pole of the second power source and one terminal of the fourth resistor, the other the pin of which is connected to the emitter of the photodetector of the first, 0th optocoupler, with one pin of the fifth resistor and with one pin of the capacitor, the other pin of which is connected to another the output of the fifth resistor.and the base of the second ppd transistor, the cathode of the LED of the first optocoupler connected to the anode of the third diode, the cathode of which 5 is connected to the anode of the LED of the first optocoupler, and the other output of the first optocoupler.