SU807253A1 - Secondary power supply system - Google Patents

Description

The invention relates to electrical power engineering and can be used in secondary power supply systems. A known secondary power supply system comprising n secondary power sources with stabilized inverters and threshold elements, a control circuit l. However, in a known system, when turned on, the voltage from all sources goes to the consumer almost simultaneously, which creates a large starting current in the input circuit. Closest to the present invention is a minimum voltage level control device comprising a voltage control divider, a delay element, a level driver (threshold device) 2. The disadvantage of this device lies in the fact that it does not eliminate overloads during start-up and does not provide the necessary reliability. The purpose of the invention is to increase the reliability of protection and stability on the yarn in start-up modes. The goal is achieved by the fact that the secondary power supply system contains a power input unit with protection elements, an output connected to the input terminals and secondary power sources, each of which consists of a stabilized converter and a starting and switching off element and has remote start and shutdown input terminals, as well as the minimum voltage level control node with the forma- tion of levels with direct and inverse outputs, n start-up nodes were introduced, with the first and second inputs of the subsequent the start node is connected to the direct and inverse outputs of the previous one, respectively, and its start output is connected to the remote start input, and the second input is connected to the remote shutdown input of the corresponding power source, with the first and second inputs of the first start node being connected to the direct and inverse outputs of the node control In addition, each starting node contains a delay element connected to a shaper with direct and inverse outputs / generators of the output outputs of the node, and the inverse output is connected to one of the inputs of the logic element 2I, the second input of which is connected to the input of the delay node and forms the first input node, the output of the logic element 2I forms the starting output of the node, and the anode of the diode, the cathode of which is connected to the inverse output, forms the second input of the node.

The drawing shows a structural diagram of the proposed device.

The secondary power supply system contains a power input unit 1, which includes element 2 overcurrent protection {for example, circuit breakers), secondary sources 3 and 4 of the power supply (in general, n sources or groups of sources), each of which consists of a stabilized converter 5 and a start-disconnecting node with remote start 7 and disconnect 8, a minimum voltage level control node 9 with a 19-level driver with direct and inverse outputs that make up the output pins of the node an ontrol, whose input terminals are connected to the output of the input node, the starting nodes 11 and 12 (generally starting devices), consisting of a delay element 13 connected to the level 14 driver, whose forward and inverse outputs form the outputs of the node, the logical element 2I 15 one of the inputs of which is connected to the inverter output of the imager, and the other to the first input of the node and the input of the delay element, and the output of logic element 2I forms the starting output of the node, and the second input of the node forms the anode of the diode 16, the capacitor of which is connected to the inverse But the output of the imaging unit, the inputs of the secondary sources 3 and 4 are connected to the outputs of the input unit 1, which is connected to the mains supply by the input. The direct output of the control unit 9 is connected to the ground 4 input of the first start node 11, and its inverse is connected to the second input of the first start node 11 and disconnect input 8 of the first power source 3, and the start 11 output terminal is connected to the remote start input 7 of the power source 3 . The first input of the subsequent start node 12 is connected to the direct one, and the second input is connected with the inverse outputs of the previous start node 11.

The system works as follows.

When the Ugy input reaches the minimum permissible level (set by a potentiometer on the input of the control device 9), after the system is switched on and the network is restored, the shaper of the 10th level is triggered, on the inverse

the output of which is set to low potential, thereby removing the off signal from the input of the starting and switching off device 6 of the first power source 3, and from the direct output the low potential is fed to the input of element 2 and 15 of the first starting device 11. At the same time, the output of this element is high the potential that goes to the starting input 7 of the start-up switch of his device 6 of the first secondary source 3, the latter starts up, and the converter 5 enters the steady state of stabilization of the output voltage. After the delay time of the element 13 of the first starter 11 at the input of the shaper 14, the voltage reaches the operating threshold, the shaper 14 is activated and a high potential is established at its direct output, which is fed to the input of the delay element 13 of the second starter 12, which {4th works similarly first. From the inverse output of the shaper 14 of the first starting device, a low potential is fed to the input of element 2I 15, the output of which also sets a low potential, thereby stopping the starting control signal to the starting input 7 of the starting and switching off device 6 of the first secondary source 3 (parameters of elements 13 Delays are selected based on the duration of the starting mode of the secondary sources 3 and 4). In addition, the low potential from the inverter output of the former 14 of the first starting device 11 is fed to the turn-off input 8 of the start-up device 6 of the secondary power supply 4, which removes the turn-off signal. Simultaneously from the output of element 2I 15 of the starter 12, a high potential arrives at the start input of the second power source 4, the latter starts and enters the established operating mode, after which the start signal is removed from the start input.

When the input voltage is removed (reduced) at the inverted output of the driver 10, a high potential is established, which goes directly to the input 8 of the first source 3 turning off and through the diodes 16 in the starting devices to subsequent sources, which leads to their B11a {interruption converters 5).

The proposed system ensures the sequential start-up of all (in general, n) secondary power sources, which makes it possible to reduce the inrush current by almost n times, the transient oscillations (the amount of drops and overvoltages) of the input supply voltage and, consequently, increase the accuracy of the installation ( to the nominal value of the input current of the power supply system) and the speed of the automatic extractors of the input device, to increase the reliability of the operation of the radio radio elements, a given sequence is provided in for prison secondary power sources.

Claims (2)

1. A secondary power supply system containing a power input unit with protection elements, output connected to the input terminals of the n-secondary power sources, each of which consists of a stabilized converter and a starting and switching off element and has remote start and shutdown input terminals, as well as a control unit A minimum voltage level with a level generator with DF1F1m and inverse outputs, characterized in that, in order to improve the reliability of the protection and stability of the voltage in the starting modes in its first starting nodes are introduced, the first and second inputs of the subsequent starting node are connected to the direct and inverse outputs of the primary, respectively, and its starting output is connected to the remote start input, and the second input is connected to the remote power off input of the corresponding power source, the first and the second inputs of the first start-up node are connected respectively to the direct and inverse outputs of the control node. 2. Pop-up system 1, characterized in that each of the start nodes consists of a delay element connected to a level former with direct and inverse outputs forming the output outputs of the node, the inverse output being connected to one of the inputs of logic element 2I, the second input of which is connected to the input of the delay node and forms the first input of the node, the output of the logical element 2I forms the starting output of the node, and the anode of the diode, the cathode of which is connected to the inverse output, forms the second input of the node. Sources of information taken into account in the examination 1. USSR author's certificate in application K 2548020 / 24-07, cl. G 05 F- 1/56, 1976. 2. US patent number 3670246, CL. 324-133, 1975.