SU771881A1 - Ring pulse switching device - Google Patents

Description

The invention relates to a pulse technique. A switch can be used in electronic circuits for recalculating and distributing pulses. Known ring counting circuits made on photothyristor optocouplers containing a capacitor l in each bit. The presence of capacitive elements reduces the speed of the device. The closest technical solution to the invention is a ring mutator containing in each bit a photo thyristor connected to a load resistor and a capacitor, in which the connection point of the photo thyristor, load resistor and capacitor of each bit is connected to the counting needle bus through light-emitting diode 2. In this circuit, the presence of capacitors reduces the speed of the circuit. The aim of the invention is to increase the speed and stability of the device. The goal is achieved by the fact that, in each ring switch of pulses, there is an LED in each discharge, the cathode of which is connected via diodes to the trigger bus, and the anode to the resistor -. loads and a phototransfer cathode with a pre-discharge, the anode of which is connected to the common power bus and a capacitor, between the first discharge LED and the load resistor are connected in series the zener diodes, to the connection points of which are connected the corresponding discharge bits, in the last discharge a phototransistor is installed, the emitter-collector junction of which is shunted by a capacitor, and light emitters are connected in series with the LEDs. The drawing shows the principle The diagram of a ring pulse switch. The cathodes of LEDs 1, 2, and 3 of each bit are connected to the start-up bus 4, respectively, via light emitters 5, 6, 7, and diodes 8, 9, and 10, 11–13, and the LEDs of these LEDs are connected to the cathodes of the photothyristors 14, 15 and 16, anoids, which are directly connected to the common power supply bus 17. In the last discharge a phototransistor 18 is installed, shunted by a capacitor 19. The LED 20 is connected to the load resistor 21 through series-connected zener diodes 22, 23 and 24.

moreover, photo thyristors 15 and 16 are connected to the junction points of these zener diodes, respectively, via isolating diodes 25 and 26.

The device works as follows.

When the power source is turned on, the photothyristor 14 is opened. The capacitor 19 is thus charged to the value of the voltage drop across the LED 20 and the zener diodes 22, 23 and 24.

With the arrival of the first start-up pulse, the photothyristor 15 is turned on and through the diode 25 shunts the power supply circuit of the Zener diode 22, the current through the LED 20 stops. When the start-up pulse expires, the photo-thyristor 14 is turned off.

The second starting pulse turns on the photothyristor 16 and, through diode 26, shunts the power supply of Zener diode 23. The third starting pulse triggers the phototransistor 18, causing the capacitor 19 to discharge, and the Zener diode 2.4 de-energizes. At the end of the pulse, the phototransistor 18 is locked and the capacitor 19 starts discharging through the load resistor 21. The charge time constant is chosen so as to de-energize the breakdown of the threshold of the zener diode 24 after a time not shorter than the photothyristor off time 16. The circuit returns to its initial state .

Thus, the photo thyristors of the discharge, ids are locked not at the moment of switching on the next discharge, but after the termination of the trigger pulse. Consequently, a current passes through the light emitters to remove the output signals during the entire duration of operation.

starting pulse, which increases the reliability of devices controlled by the distributed pulses.

The speed is determined only by the turn-on time of the photothyristors and the duration of the starting pulse. The effect of the capacitor 19 on the speed is insignificant, since the duration of its charge is determined by the turn-off time of the photo thyristor 16.

Claims (2)

1. Gorokhov V. A., Shchedrin. M. B. Thyristors in impulse systems. M., Soviet rgschio, 1972, p. 289. 2. USSR author's certificate No. 373888, cl. H 03 K 23/12, 09/17/1970 (prototype). W -aArff ft -a / 5 B u il