SU985880A1 - Power supply source - Google Patents

Description

(5) POWER SUPPLY

one

The invention relates to electrical engineering and may find application in power supply systems of devices, automation and computer technology.

A power supply is known that contains a transformer, rectifier and stabilizer t1}

A disadvantage of the known device is that, at alternating voltage frequencies below the nominal value, the transformer is overloaded, which can lead to its failure.

Closest to the invention is a power supply containing a power transformer, the primary winding of which through a regulator is connected to the input terminals of a rectifier connected by a variable input through a capacitor to the input terminals, a capacitor connected to a constant output of the rectifier, a zener diode whose cathode is connected with a positive output bus rectifier, a relay, the first winding terminal of which is connected to the negative output bus rectifier, and the closing contacts are connected to the regulator uyuschemu body C2.

5 The disadvantage of this power source is that when an alternating voltage is applied to its input, the nominal frequency but significantly greater than the junctional voltage (for example, 220 V with a frequency of tOO Hz at a nominal voltage of .115 V with a frequency of 400 Hz) A power transformer t of the regulator, a load of 15 ki will fail.

The purpose of the invention is to improve the reliability of the device.

The goal is achieved by introducing into the power supply

Claims (2)

20 thyristor, a capacitor connected in parallel with the anode – cathode of the thyristor, and two resistors; thyristor and one of the terminals of the second resistor, the other terminal of which is connected to the cathode of the thyristor and the first terminal of the relay winding. The drawing shows a functional power supply diagram. The device contains a power transformer 1, the primary winding of which through the regulator 2 is connected to the input network, the load 3 connected to the secondary winding of the transformer, rectifier k connected by a variable input through the capacitor 5 to the input network, to a permanent input of the rectifier k the capacitor is connected 6, Zener diode 7 connected through a resistor 8 parallel to capacitor b, thyristor 9, resistor 1 o, relay P, the winding of which is bypassed with capacitor 12, and normally open contacts 13 are connected to the regulator 2. The power supply operates as follows. When voltage is applied to the source input, the regulator 2 is in the disconnected state, since the contacts 13 of the relay 11 are normally open and no voltage is supplied to the primary winding of the transformer 1. If the magnitude and frequency of the input voltage are within acceptable limits, then the input of rectifier C through the capacitor 5 receives a voltage of a certain value, which is rectified and filtered by the capacitor 6 and the operation relay 11. Then, the xentacts 13 are closed, the regulator 2 is turned on, and the normal operation of the power source begins. Zener diode 7 and thyristor 9 are in a disconnected state. In emergency mode, when the frequency of the input voltage is significantly underestimated, and its value is nominal, the voltage goes to the rectifier input significantly, because the capacitance resistance of the capacitor 5 increases significantly and the voltage on the winding of the relay 11 is insufficient for its operation. The contacts 13 of the relay 11 are not closed and the power source is not turned on. When a constant voltage is supplied to the input of a power source at the relay 11, the voltage does not flow at all. When a voltage source is supplied to the input with a nominal software value, a low voltage is applied to the winding of the relay 11 and it is not turned on. When the power source is turned on in a network of alternating voltage of nominal frequency, but significantly larger in magnitude than the nominal one (for example, in a network with a voltage of 220 V and a frequency of 400 Hz, if the device is designed to connect to the network with a voltage of 115 V and a frequency of kOQ Hz, or to a network with a voltage of 220 V and a frequency of 50 Hz, if it is designed to be connected to the Network 127. B and a frequency of 50 Hz), a voltage appears on the capacitor 6 that is sufficient for a breakdown of the Zener diode 7 and on the resistor 8, a voltage appears that includes a thyristor 9. Tiri switched on The strut 9 shunts the winding of the relay 11 and it does not turn on. The resistor 10 and the capacitor 12 provide a turn-on delay for the relay 11, and in the emergency mode described above, the thyristor 9 first turns on, not the relay 11; In addition, if the power supply is working and there is a sharp jump in the input voltage, then it turns off, as this turns on the thyristor 9 and turns off the relay 11. To turn on again, the power supply must be briefly disconnected from the mains and then turned on. The erroneous switching on of the source in the power supply, designed for connection only to the 115 V network and a frequency of 00 Hz, to the network with a voltage of 220 V and a frequency of 00 Hz or power sources designed to be connected only to the network with a voltage of 127 V and a frequency of 50 Hz, A network with a voltage of 220 V and a frequency of 50 Hz is often encountered during adjustment, testing, maintenance and repair work. At the same time, in a known power source, the transformer i enters the saturation mode and the current of its primary winding increases sharply, which leads to the failure of the regulator, which can be performed on transistors or thyristors windings. In addition, it is possible to increase the voltage on the load and its further failure. All this testifies to the low reliability of the known device in an emergency. In the proposed power supply, in the emergency situations described above, all of its elements remain operable since the power supply is not turned on. The invention The power supply source containing a power transformer, the primary winding of which is connected to input terminals through a regulator, a rectifier connected by a variable input through a capacitor to the input terminals, a capacitor connected to a constant output of a Zener diode, whose cathode is connected by a positive output bus cf The switch, the relay whose first output winding is connected to the negative output bus of the rectifier, and the closing contacts are connected to the regulator, excl In order to increase reliability, a thyristor is inserted into it, a capacitor, an anode is connected parallel to the cathode of the thyristor, and two resistors, and the anode of the thyristor is connected to the second output of the relay coil and one of the outputs of the first resistor, the other output of which is connected to the cathode of the zener diode, the anode of which is connected to the control electrode of the thyristor and one of the terminals of the second resistor, the other terminal of which is connected to the thyristor cathode by the first terminal of the relay winding. h Sources of information taken into account in the examination 1. USSR author's certificate number iil8847, cl. G 05 F / 6k, 1972. 2. USSR author's certificate number 62if219, cl. G 05 F 1/10, 1977. pkOOOk