SU862302A1 - Device for automatic limitation of power - Google Patents

Description

The invention relates to electrical engineering and can be used in limiters of electrical power. A device for limiting the voltage ^e for industrial lighting networks TON-3-220, consisting of two counter-parallel connected thyristors, designed for serial connection with a load ^{and a} power supply to the transformer, the first rectifier diode bridge connected by the output to the serial circuit from the first, a second resistor and a discharge capacitor, to the positive pole of which an anode is connected to the dynistor, connected to a single terminal of the primary winding of the pulse transformer by a cathode, the second terminal d which is connected to the negative pole 20 nym discharge capacitor, a first zener diode connected to the negative pole ano'dom said discharge capacitor to the common cathode connection point of the first minutes. ”Of the second resistors, the second rectifier diode bridge. The positive pole of the output of which is connected to one terminal of the third resistor, the second zener diode connected by the anode to the negative output pole of the second rectifier diode bridge [1].

The known device is characterized by low accuracy control and low reliability.

The aim of the invention is to increase the reliability and accuracy of regulation.

The goal is achieved by the fact that the known device is equipped with two phase-shifting capacitors and four additional resistors, the first and second additional resistors connected by one terminal to the terminals of the first phase-shifting capacitor and the inputs of the first diode bridge, the other terminals with two terminals of the secondary winding of the supply transformer, respectively, the primary winding which is designed to connect to the terminals of the voltage source, the second phase-shifting capacitor is connected by leads to one the terminals of the third and fourth additional resistors and with the output of the second diode bridge, the second terminals of these resistors are connected to the terminals of the primary winding of the supply transformer, respectively, the second terminal of the third resistor is connected to the negative pole of the discharge capacitor, to the positive pole of which is connected the cathode of the second zener diode, secondary windings pulse transformer connected with the control transitions of the indicated thyristors, respectively.

The drawing shows a schematic diagram of a device for automatic power limitation.

The device contains two antiparallel connected circulators 1 and 2, a supply transformer 3, a first phase-shifting capacitor 4, connected through resistors 5 and 6 to the secondary winding of the transformer 3, a first diode bridge 7, connected to the input of the first phase-shifting capacitor 4, and the output to a circuit from the discharge capacitor 8 and resistors 9 and 10, a zener diode 11 connected by an anode to the negative pole, a cathode through a resistor 10 - to the positive pole of capacitor 8, dynistor 12, anode connected to the positive pole of capacitor 8, to an atom with one output of the primary winding of the pulse transformer 13, the second terminal of which is connected to the negative pole of the capacitor 8, The secondary windings of the pulse transformer 13 through resistors 14 and 15 are connected to the control transitions of thyristors 1 and 2.

The second phase-shifting capacitor 16 is connected through resistors 17 and 18 to the terminals of the primary winding of the supply transformer 3. The second diode bridge 19 is connected to the input by a capacitor 16. The negative pole of the bridge 19 is connected to the anode of the zener diode 20, the cathode of which is connected to the positive pole of the capacitor 8 , the positive pole of the output of the bridge 19 is connected through a resistor 21 to the negative pole of the capacitor in '.

The device operates as follows.

When the supply voltage is turned on, thyristors 1 and 2 are locked. The capacitor 4 through the resistors 5 and 6 is charged with voltage, and the voltage across the capacitor outpaces the supply voltage in phase. The diode bridge 7 converts this capacitor voltage and a rectified voltage appears at its output. The rectified voltage of the bridge 7 charges the capacitor 8 to the switching voltage of the dinistor 12, the dinistor 12 switches. The capacitor 8 is discharged through the dinistor 12 and the primary winding of the transformer 13. At the control electrodes of the thyristors 1 and 2, a control voltage appears, one of the thyristors turns on and a current begins to flow through the load. Each half-cycle ^v ! Of the supply voltage, this process is repeated. The moment of switching of the dynistor 12 relative to the transition through zero of the supply sinusoidal voltage determines the turn-on phase of thyristors 1 and 2 and thereby the power supplied to the load. The switching time of the dinistor is determined by the duration of the charge time of the capacitor 8 to the switching level of the dinistor 12.

If the voltage exceeds a value higher than the set, the zener diode 20 will switch earlier than the dynistor 12, and this will limit the voltage increase across the capacitor 8. After the supply voltage is reduced to the rated level, the zener diode 20 will be closed and it will be possible to increase the voltage across the capacitor 8 to the switching voltage of the dynistor 12.

'As a result, thyristors 1 and 2 remain closed most of the time, if there is a positive voltage on their anodes, the greater the voltage increase exceeds the nominal value. Thus, the power supplied to the load remains unchanged and independent of the excess of the supply voltage of the nominal value.

The use of this invention allows to increase the accuracy of regulation and increase the reliability of the device to limit power.

Claims (3)

(54) AUTOMATIC LIMITING DEVICE The invention relates to electrical engineering and can be used in electrical power limiters. A voltage limiting device is known for the TON-3-220 open-circuit lighting networks, consisting of two anti-parallel-connected thyristors designed for series connection with the load supplying the transformer, the first rectifying diode bridge connected to the serial output of the first , the second resistor and the discharge capacitor, to the floor pole of which the anode is connected to a dynistor, the connection cathode. with one output of the primary winding of an impulse transformer, the second output of which is connected to the negative pole of the discharge capacitor, the first zener diode connected to the negative pole decree; the discharge of the capacitor, a cathode to the common connection point of the first and second resistors, the second rectifier diode the bridge, the positive pole of the output of which is connected to a single output of the third resistor, the second zener diode connected by an anode to the neutrality of the output pole of the second rectifying diode bridge that 1. The known device is characterized by low control accuracy and low reliability. The aim of the invention is to increase the reliability and accuracy of the adjustment. The goal is achieved by the fact that the known device is equipped with two phase-shifting condensates and four additional resistors, the first and second additional resistors being connected by one pins to the pins of the first phase-shifting condisatra and the inputs of the first diode bridge, and the other pins from the two terminals F of the secondary winding of the supply transformer, respectively, primary the winding is designed to be connected to the terminals of the voltage source; in the meantime, the phase-shifting capacitor is connected to one output The third and fourth additional resistors and with the output of a diode bridge, the second terminals of these resistors are connected to the primary terminals of the supply transformer, respectively. Actually, the second terminal of the third resistor is connected to the negative pole of the discharge capacitor, to the positive-1 pole of which the cathode of the second Zener diode is connected, the secondary windings of the pulse transformer are connected to the control transitions of the indicated thyristor, respectively. The drawing is a schematic diagram of an apparatus for automatic power limiting. The device contains two anti-parallel connected tyriptora 1 and 2, a supply transformer 3, the first phase-shifting capacitor 4 connected via resistors 5 and b to the secondary winding of the transformer 3, the first diode bridge 7 connected by the input It to the phase-shifting capacitor 4 and the output to a chain of discharge capacitor 8 and resistors 9 and 10, a zener diode 11 connected by an anode c to a negative pole, a cathode through a resistor 10 to a positive pole of a capacitor 8, a dynistor 12, an anode connected to the positive pole of a capacitor 8, a cathode with one output of the primary winding of the pulse transformer 13, the second terminal of which is connected to the negative pole of the capacitor 8. The secondary windings of the pulse transformer 13 through the resistors 14 and 15 are connected to the control transformers of the thyristors 1 and 2. The second Phase-shifting capacitor 16 through the resistors 17 and 18 is connected to the terminals of the primary winding of the supply transformer 3. The second diode bridge 19 is connected to the input, a capacitor 16, the negative pole of the bridge 19 is connected to the anode of the Zener diode 20, the cathode of which is connected to the positive pole of the capacitor 8, the positive pole of the output of the bridge 19 is connected to the negative pole of the capacitor 8 The device works as follows in a way. When the supply voltage is turned on, the thyristors 1 and 2 are locked. The capacitor 4 through the resistors 5 and 6 is charged by braking, and the voltage on the capacitor is ahead in phase of the supply voltage. The diode bridge 7 converts this capacitor voltage and a rectified voltage appears at its output. By rectifying the voltage of the bridge 7, the capacitor 8 is charged up to the switching voltage of the dynistor 12, the distor 12 is switched. The capacitor 8 is discharged by the black dio nistor 12 and the primary winding of the Tra foror 13. The control voltage appears on the control electrodes of the thyristors 1 and 2, one of the thyristors turns on and a current flows through the load. Each half-cycle of the supply voltage, this process is repeated. The moment of switching of the Inistor 12 with respect to the zero crossing of the supplying sinusoidal voltage determines the unlocking phase of thyristors 1 and 2, and thus the power supplied to the load. The switching time of the dynistor is determined by the duration of the charging time of the capacitor 8 to the switching level of the dynistor 12.. If the voltage exceeds a value higher than the set, Zener diode 20 switches earlier than dynistor 12, and this will limit the growth of the voltage on the capacitor 8. After reducing the supply voltage to the nominal level, Zener diode 20 is prohibited and will allow the voltage on the capacitor 8 to increase to switches of the dynistor 12. As a result, the thyristors 1 and 2 remain closed most of the time, if there is a positive voltage on their anodes, the greater the voltage gain exceeds the nominal value. Thus, the power supplied to the load remains unchanged and independent of the overvoltage of the supply voltage of a nominal value. The application of this invention allows to increase the control accuracy and increase the reliability of the device for power limiting. Apparatus of the Invention A device for automatic power limiting, consisting of two anti-parallel-connected thyristors intended for series connection with a load, supplying a transformer, a first rectifying diode bridge connected by an output to a series circuit of the first, second resistors and a discharge capacitor, a positive pole of which is connected to the anode by a dynistor, the cathode connected to one output of the primary winding of a pulse transformer, the second output of which is dinene with a negative pole of a discharge capacitor, the first hundred: bilitron, connected by an anode to a negative POLES of the specified discharge capacitor, the cathode to a common connection point of the first and second resistors, the second rectifying diode bridge, the positive pole of the output connected to one output terminal. a resistor, a second zener diode connected by an anode with a negative pole of the output of a second impulse diode bridge, which is such that, in order to increase the reliability of the control accuracy It is equipped with a bottom