SU1576895A1 - Dc power supply source with protection - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the power supply circuits of various radio equipment. The goal is to increase reliability. The goal is achieved by the fact that in case of overcurrent or short circuit. on the secondary windings of the transformer 3, rectifier 5 or stabilizers 6.34, the current through the primary winding of the transformer 4 increases. The voltage at the output of the rectifier increases. Thyristor 17 turns on and short-circuits the voltage supplying the generator 13. The converter 2 stops working. The output voltage of the power supply is reduced to zero. It turns off for a short time. If the accident is resolved, the power source is turned on automatically. If the voltage at the output of one or several stabilizers 6 becomes lower or higher than the permissible value, then the voltage control unit 29 is triggered. The malfunction signal is amplified by amplifier 30 and through block 31 enters the input of block 32. There the signal is delayed for a time that is slightly longer than is necessary to switch on a source in which there is no emergency mode. The delayed fault signal is amplified by the amplifier 33 and through the diode 27 is supplied to the control electrode of the thyristor 17 and it is turned on. The power supply is disconnected. 1 il.

Description

The invention relates to electrical engineering and can be used in power circuits of various radio equipment.

The purpose of the invention is to increase reliability.

The drawing shows a functional diagram of a DC voltage source with protection.

The power source contains a rectifier 1 of the mains voltage with a filter, the output of which is connected to a DC-to-HV converter 2, the output of which is connected to the primary windings of a high-frequency transformer 3 and a current transformer 4 connected in series, high-frequency voltage rectifiers 5 with 20 filters, connected to the secondary windings of the power high-frequency transformer 3, stabilizers 6 of opposite polarity voltages, one output of which the output is connected to ground ennoy bus, and inputs connected to the outputs 5 sootvetstvuyuschih'vypryamiteley high voltage transformer 7 whose primary winding via the first resistor 8 below. is connected to the input of the rectifier 1 of the mains voltage, and the secondary to the input of the rectifier 9, the output of which is connected to the first capacitor 10 and the input of the relaxation generator 11, the outputs of which are connected to the cathode and the control electrode of the first thyristor 12, the anode of which is connected to a grounded bus. a generator 13, the input of which is connected to a zener diode 14, the anode of which is connected to a grounded bus, and the output is connected to a converter 2, a rectifier 15 with a filter and a voltage level regulator, the input of which is connected to the secondary winding transformer 4 current, and the outputs to the collector and emitter of the first transistor 16, the second thyristor 17, the cathode of which is connected to the ground bus and the emitter of the first transistor 50 16, the first diode 18, the cathode of which is connected to the cathode of the zener diode 14, and the anode to the anode the second thyristor! 7 and one of the terminals of the second resistor 19, the other terminal of which 55 is connected to the cathode of the second diode

20, the anode of which is connected to the positive terminal of the capacitor 10 and the collector of the second transistor 21, the emitter of which is connected to the ground bus, and the base to the first terminal of the third resistor 22, the fourth resistor 23, the first terminal of which is connected to the cathode of the first thyristor 12, the fifth resistor 24, the first terminal of which is connected to the base of the first transistor 16, the sixth resistor 25, the first terminal of which is connected to the positive terminal of the capacitor 10, the second terminal is connected to the second terminal of the fifth resistor 24 and the first terminal of the second capacitor 26, second a swarm terminal of which is connected to the negative terminal of the capacitor 10, third 27 and fourth 28 diodes, a voltage control unit 29 for the upper and lower levels, one terminal of which is connected to a grounded bus, the inputs are connected to the outputs of the stabilizer 6 of different polarity direct voltage, the amplifier 30 of the fault signal, one output of which is connected to a grounded bus, the input is connected to the output of the voltage control unit 29 at the upper and lower levels, the voltage limiting unit 31, the input of which is connected to the output of the signal amplifier 30 of equality, block 32 delay of the passage of the fault signal, one output of which is connected to the grounded bus, · the path is connected to the output of the voltage limiting block 31, the amplifier 33 of the delayed signal of the fault, one output of which is connected to the grounded bus, the input is connected to the output of the block of the delay 32 of the signal faults, the output is connected to the anode of the third diode 27, the cathode of which is connected to the control electrode of the second thyristor 17 and the cathode of the fourth diode 28, the anode of which is connected to the collector of the first transistor 16, an additional constant voltage regulator 34, one output of which is connected to a grounded bus, the output is connected to the terminals of the voltage control unit 29 at the upper and lower levels, a fault signal amplifier 30, a delayed fault signal amplifier 33, a fifth diode 35, the anode of which is connected to the output one of the rectifiers 5 supplying one of. stabilizers 6 positive polarity, the second output of the third resistor 22, the input of the additional

1576895 6 DC stabilizer 34, the cathode with the cathode of the second diode 20, the third capacitor 36 connected between the cathode and the control electrode of the second thyristor 17, while the second output of the fourth resistor 23 is connected to the output of one of the rectifiers 5, which is connected to one of the stabilizers negative polarity.

The shutdown trigger circuit. The power source is turned on. <

At the moment the power source is turned on, the stabilizer 34 begins to supply voltage control unit 29, amplifiers 30 and 33. The latter can be powered from the input of the stabilizer 34. In addition, the outputs of the bipolar stabilizers 6 receive voltage at the inputs

A DC voltage power supply with protection operates as follows.

The voltage of the supply network is supplied to the rectifier 1, rectified, filtered and fed to the input of the voltage converter 2, which does not turn on, since the master oscillator 13 does not work. The voltage of the supply network through resistor 8 is also supplied to the primary winding of the transformer 7, the secondary winding of the transformer 7, the voltage is rectified by the rectifier 9 and the charge of the capacitors 10 and 26 begins. When the capacitors 10 and 26 are charged to the desired voltage, the relaxation generator 11 and the thyristor 12 are turned on. ue to the condenser 10, θ through diodes 20 and 18, a resistor 19 is supplied to the zener diode 14 and the clock 13 which starts operating.

The voltage from the capacitor 26 through the resistor 24 is supplied to the base of the transistor 16. It briefly opens 35 and shorts the protection of the converter 2. Converter 2 is turned on and starts to work. The voltages removed from the secondary windings of the transformer 3 are rectified by rectifiers 5, filtered and supplied to voltage stabilizers 6 and 34. Stabilizers begin work. At the same time, the voltage from the output of one of the rectifiers 5 of negative polarity through the resistor 23 is supplied to the thyristor 12 and holds it in the on state, and the voltage from the output of one of the rectifiers 5 of positive polarity through the diodes 5C and 35 and 18, the resistors 19 and the zener diode 14 is fed to master oscillator 13, providing its stationary power. The same voltage from the output of one of the rectifiers 5 of positive 55 polarity through the resistor 22 enters the base of the transistor 21 and opens it. The capacitor 10 shunt block 29 voltage control. Since the voltage at the outputs of the stabilizers 6 does not reach the nominal values simultaneously and not instantly, and since the nominal voltage at the output of the stabilizer 34 is also not instantaneous, the voltage control unit 29, which has a high speed, perceives this as a malfunction, and its output for a short time a fault signal appears. However, the disconnection of the source, the power does not occur, since the unit 32 delays the passage of the fault signal for the time that is necessary for the stable inclusion of the power source, which is not operating in emergency mode. As soon as the voltage at the outputs of the stabilizers 6 and 34 become within acceptable limits, a fault signal is reset. Amplifier 33 Delay. During this time, a malfunction signal is not involved.

If the power source is operating and there is a significant current overload or short circuit on the secondary windings of the transformer 3 or in the rectifiers 5, or at the outputs of the stabilizers 6 and 34 (if they do not have overload protection or if their protection is faulty), then the current through the primary the winding of the transformer 4 and the voltage at the output of the rectifier 15 which, through the diode 28, is supplied to the control electrode of the thyristor 17, which turns on and shorts the voltage supplying the master oscillator 18. The pre-voltage generator 2 is stopped AET operation, the output power source voltage is reduced to zero. The power supply is turned off for a short time. Thyristor 12 is turned off, transistor 2! closes. The charge of capacitors 10 and 26 starts and the power source starts up again.

If the accident .. is eliminated, the power supply turns on automatically. If the accident is not resolved, then at the time

I Starting the power supply transistor 16 opens. Converter protection is disabled for a time sufficient to start a normally working voltage converter 2 ^, i.e. briefly. During this time, which can be adjusted by changing the resistance of the resistor 24 and the savagery of the capacitor 26, the latter is discharged and the transistor 16 closes. The discharge time of the capacitor 10 is significantly longer than that of the capacitor 26. The capacitor 26 cannot be charged until the next start-up cycle, since the thyristor 12 is turned on and the resistor 25 has been selected to be very high resistance. After the transistor 16 turns on, an emergency current continues to flow through the transformer 4.

X

D thyristor 17 is turned on. The power supply is charged through a 20 t diode 11 diode. The capacitor discharge 10 pN is switched off. The capacitor 10 times, the resistor 19, the Iristors 17 and 12, the relaxation HER25 comes faster than its recharge, the Iristors 12 and 17 are turned off. A new charge-discharge cycle of the capacitors 10 and 26 and the start-up of the power supply, which continue ^! As long as there is an accident and mains voltage is applied.

If the emergency mode is present in the power source at the moment of supplying the mains voltage to it, then start-up / shutdown occur ”as described;”

If the voltage at the output of one or more stabilizers 6 for some reason has become lower or higher than the permissible value (breakdown of the regulating transistor of the stabilizer, overload at the output of the stabilizer, which is not enough to operate the protection described above, an open in the power supply circuits of the stabilizers, etc. d.), then at the output of the voltage monitoring unit 29 a longer fault signal appears than at the moment of switching on the power supply, in which there is no emergency mode. The fault signal is amplified by the amplifier 30 and, through the voltage limiting block 31, is fed to the input of the fault signal delay block 32, the purpose of which is to delay the passage of the fault signal for a time that is slightly longer than necessary to turn on the power source, in which there is no emergency mode. The delayed fault signal is amplified by the amplifier 33 and through the diode 27 is fed to the control electrode of the thyristor 17, which is turned on. The power supply is disconnected. After some time, which can be regulated over a wide range, changing the turn-on time of the relaxation generator 11, a trial inclusion of the power source will occur. If the alarm is cleared, the power supply turns on automatically. If the accident persists, then the power supply periodically turns on and off. Since there may be a small voltage at the output of the amplifier 30 of the fault signal, and in the absence of an emergency mode, which can cause the amplifier 33 to turn on, a voltage limiting unit 31 is used to eliminate false operation. To eliminate false alarms, capacitor 36 also serves.

Compared with the known in the proposed power supply, power losses in emergency mode are reduced by tens of times. In addition, they are many times lower in emergency mode than in a normal power source. This is because the on-time of a power source operating in emergency mode is much shorter than the time of its off-state.

In addition, the proposed power source in case of overloads or short circuits at the outputs of the stabilizers 6 (if the stabilizers are protected against overloads and short circuits or the general current protection does not occur at the same time) there is practically no power loss, since the power supply is disconnected for a long time time and therefore there is no need to count radiators for emergency power dissipation, i.e. increase their dimensions or use a fan.

Compared with the known reliability of the proposed power source is significantly increased, since in the event of a failure of one stabilizer, all stabilizers are turned off. When increasing the voltage at the output of one or more stabilizers 6 in excess of the permissible level, the power supply is switched off, the source and loads are protected.

Claims (1)

Claim Protected DC voltage source containing a rectifier, θ mains voltage reducer with a filter, the output of which is connected to a DC to AC high-frequency converter, the output of which is connected to the primary windings of a high-frequency voltage transformer and a current transformer connected in series, high-frequency voltage rectifiers with filters connected to the burn-in jg windings of a power high-frequency voltage transformer, stabilizers of bipolar voltage one of the output terminals of each of which is connected by a grounded bus, and the inputs are connected to the outputs of the corresponding high-frequency voltage rectifiers, a transformer whose primary winding is connected through the first resistor to the input of the mains voltage rectifier, and the secondary to the input of the rectifier, the output of which It is connected to the first capacitor and the input of the relaxation generator, the outputs of which are connected respectively to the cathode and control electrode of the first thyristor, the anode of which is connected to the ground the second bus, the master oscillator, the input of which is connected to a zener diode, the anode of which is connected to a grounded bus, and the output to the aforementioned converter, the rectifier with a filter and a voltage level regulator, the input of which is connected to the secondary winding of the current transformer, and the outputs, respectively, to the collector and emitter of the first transistor, the second thyristor, the cathode of which is connected to the ground bus and the emitter of the first transistor, the first diode, the cathode of which is connected to the zener diode cathode, and the anode to the anode of the second thyristor one of the terminals of the second resistor, the other terminal of which is connected to the cathode of the second diode, the anode of which is connected to the positive terminal of the first capacitor and the collector of the second transistor, the emitter of which is connected to the grounded bus, and the base is connected to the first terminal of the third resistor, the fourth a resistor, the first terminal of which is connected to the cathode of the first thyristor, a fifth resistor, the first terminal of which is connected to the base of the first transistor, a sixth resistor, the first terminal of which is connected to the positive terminal of the first the capacitor, the second terminal is connected to the second terminal of the fifth resistor and the first terminal of the second capacitor, the second terminal of which is connected, p. negative, the output of the first capacitor, the third and fourth diodes, with the exception of heat, which, in order to increase reliability, a voltage control unit is introduced into it at the upper and lower levels, an error signal amplifier, a voltage limiting block, a fault delay passage block, a delayed delay signal amplifier, an additional constant voltage stabilizer, a fifth diode and a third capacitor, the voltage control unit at the upper and lower levels connected to the grounded bus, one , from its inputs are connected to the outputs of the stabilizers of bipolar DC voltages, and the output through the amplifier of the fault signal connected to the grounded bus is connected to the input of the voltage limiting unit, the output of which through the delay block of the passage of the fault signal connected to the grounded bus is connected to one of the amplifier inputs delayed fault signal connected to a grounded bus, the output of the specified amplifier is connected to the anode of the third diode, the cathode of which is connected to the control electrode m of the second thyristor and the cathode of the fourth diode, the anode of which is connected to the collector of the first transistor, an additional DC voltage regulator is connected to the grounded bus and the output is connected to other inputs of the voltage control unit at the upper and lower levels of the fault signal amplifier and delayed signal amplifier, and the fifth diode is the anode connected to the output of the rectifier stabilizer'a positive polarity, the second output of the third resistor and input) 1 additional stabilizer constant first voltage and a cathode connected to the cathode of the second diode, the third capacitor is connected between the gate and cathode electro house the second thyristor, and Auto swarm terminal of the fourth resistor coupled to the output of the rectifier stabilizer negative polarity.