SU752660A2 - Regulated power source - Google Patents

Description

6, to which a capacitor 15 and a resistor 16 are connected. The integrating capacitor 17 is connected to a common point of resistors 10 and 11. A control switch 18, the first optocoupler 19, the second optocoupler 20 and the second transistor 21 are inserted into the power supply, the base of which is through the optocoupler 19 and a voltage diode divider is connected to the output of the rectifier.

The power source works as follows.

When a high voltage level is present at the input of the control switch 18, a current flows through the LEDs of the optocouplers 19 and 20. The transistor 21 opens with a current of the light pickup of the optocoupler 19. The capacitor 5 of the GUI is at the same time discharged, the thyristor 2 is turned off. The light receiver of the optocoupler 20 does not conduct current, since the integrating capacitor 17 is discharged. There is no current in electromagnet 3.

When a low-voltage switch 18 is applied to the input, the optocouplers do not power down the LEDs and do not conduct current receivers. Since the capacitor 17 is discharged, both transistors 21 and 6 are closed and the capacitor is charged through the resistor 4 after switching on. After 2-3 ms the voltage on the capacitor 5 reaches the value of the breakdown of the Zener diode 8, the thyristor 2 is turned on and the capacitor 17 starts charging. In each half-period when the power thyristor is turned on through diode 13 and the resistor 14 turns on the transistor 6 and discharges the capacitor 5. Since the capacitor 5 is charged at the very beginning of each half-period, then the thyristor 2 is almost completely open for a predetermined forcing time, determined by the time constant of the integrating circuit from resistor 11 and capacitor 17. When capacitor 17 is charged until the voltage of the Zener diode 9 voltage goes through the base of the transistor begins to pass the negative feedback signal and the 5-capacitor capacitor charges more slowly. There is a sharp decrease in the current in the load to the value given by the resistor

16 (holding current of an electromagnet). A high voltage level is applied to the key 18, the transistor 21 is opened, and the thyristor 2 is turned off at the end of the half period. A capacitor 17 is discharged through the light sensor of the optocoupler 20. Using a transistor optocoupler, the discharge time can be reduced to a few microseconds. Selection of resistance of resistors 11 and 16 of capacitor capacitance 17

allows you to set the required values

time, degree of forcing current and current

hold.

The proposed power source makes it possible to effectively control the electromagnetic valves directly from the computer during frequent switching of the electromagnets by forcing the turn-on current. With the same weight and dimensions of

In comparison with the known source, the traction force of an electromagnet increases by 5–7 times. The increased speed of the source and its convenient combination with a computer eliminates the need to develop special matching devices between computers and executive electromagnetic devices of various automatic systems.

Claims (1)

Invention Formula Stable power supply auth. St. N ° 340033, from the fact that, in order to increase speed when the load is powered by a pulse voltage, a control switch, two optocouplers and a second transistor, connected in parallel, are inserted into it, the base of the second transistor is connected to the resistor through to the emitter of the first optocoupler and the additionally inserted divider of the emitter to the output of the rectifier, the light of the second optocoupler is connected in parallel to the integrating source capacitor, and the LEDs of the optocouplers are connected to the output of the control key.