SU1488964A2 - Bipolar code generator - Google Patents

Description

The invention relates to a pulse technique, can be used in telecommunication systems for transmitting three-level bipolar codes, and is an improvement of the device by author, St. Number 1290534 »

The aim of the invention is to increase the speed and accuracy of the shaper. YU

The drawing shows a functional diagram of the proposed shaper of bipolar codes.

The bipolar code generator has first 1 and second 2 information channels, each of which includes switch 3, first 4 and second 5 keys and an isolation element made on transformer 6, first 7 and second 8 rectifiers, each 20 of which includes the first 9 and 10 second transistors, the first 11 and second 12 resistors and a capacitor 13, diodes 14, a power bus 15, a zero potential bus 16, a direct 17 and an inverse 25 version 18 control inputs (pumping), the first 19 and second 20 control (information ) inputs, first 21 and second 22 outputs, element OR 23, form there are 24 pulses, a decoupling element made on transformer 25, and a discharge unit 26, including first 27 and second 28 diodes, first 29, third 30, second 31 and fourth 32 resistors, first 33 and second 34 35 transistors, third 35 and fourth 36 Schottky diodes.

The generator of bipolar codes works as follows. before

If there is a logic level at the information input 19 or 20 through the switch 3 of channel 1, or a high-frequency pump signal is supplied to keys 4 and 5. The duty cycle of the pump pulses is two. Upon receipt of pump pulses in the channel to the transformer 6 (from the outputs of the keys 4 and 5), the rectifier 7 generates a positive polarity voltage through the diode 14 between the outputs 21 and 22. When the pump pulses in the channel 2 arrive to the transformer 6 (from the outputs of the keys 4 and 5) the rectifier 7 generates a negative polarity voltage through the diode 14 between the outputs 21 and 22. At the moment the level of the logic unit goes to zero at one of the information inputs 19 or 20 (at the same time, the logic zero level), the pump pulses cease and to transformer 6 of channel 1 or 2 and a level difference occurs at the output of the OR 23 element. According to the difference from the level of the logical unit to the zero level at the output of the OR 23 element, the former 24 generates a short pulse at the terminals of the primary winding of the transformer 25. The voltage at the secondary winding of the transformer 25 transistors 33 and 34 open and discharge the capacity of the communication line. ”Schottky diodes 35 and 36 prevent the inverse mode of turning on transistors 33 and 34, respectively, with positive and negative voltage polarities at the outputs 21 and 22.

Schottky diodes 35 and 36 provide discharge to a minimum residual voltage between the wires of the communication line. Diodes 27 and 28 exclude the supply of a inhibitory signal from the terminals of transformer 25 based on transistors 33 and 34. Thus, transistors 33 and 34 are quickly switched on by current through diodes 27 and 28, resistors 31 and 32, and after the voltage drop across the secondary winding of transformer 25 are locked small the discharge current through the resistors 29, 31 and 30, 32. Since the collector current of the discharge transistor (33 and 34) decreases from the maximum · ^ · value to zero when the load capacitance is discharged, then the base current does not need to be kept constant. ”Using diodes 27 and 28 provides a slow resorption of excess carriers in the base of transistors 33 and 34, which allows you to completely discharge the communication line without additional power costs in block 26.

The bipolar code generator provides high speed with the possibility of generating signals of unlimited duration and has no distortion of the generated signal. Active line discharge by a special discharge unit 26 allows to increase the speed of the device to the pump frequency, i.e. about an order of magnitude.

Claims (1)

Shaper of bipolar codes for avtosv. No. 1290534, t l and δ, characterized in that, in order to increase the speed and accuracy of the shaper, an OR element, a pulse shaper, an isolation element made on a transformer, and a discharge block made on four diodes, four resistors and two are introduced into it transistors, ka-. the method of the first and the anode of the second diode are connected to the first terminals of the first, second, third and fourth resistors respectively, the second terminals of the second and fourth resistors are connected to the bases of the first and second transistors respectively, the cathodes of which are connected to the cathode of the third and the anode of the fourth diodes, respectively the first and second inputs of the OR element are connected respectively to the first and second driving inputs of the shaper, the output of the OR element is connected to the input of the pulse shaper, the outputs of which are connected to the corresponding the corresponding terminals of the transformer primary winding, the first and second terminals of the transformer secondary winding are connected respectively to the anode of the first and cathode of the second diodes of the discharge unit, the second outputs of the first, third resistors and emitters of the first and second transistors of the discharge unit are combined and connected to the third terminal of the transformer and the second output the shaper, the anode of the third and the cathode of the fourth diodes of the discharge unit are combined and connected to the first output 20 'of the shaper.