SU1728855A1 - Secondary power supply system - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to secondary power supply systems (BEP), and can be used to power various electronic products. The goal is to increase reliability. The device contains p parallel connected stabilized transducers 1, a node 2 of the operability control (n + 2) two-input elements OR 3-5, p inverting elements 6, coincidence element 7, comparator 8, threshold voltage source 9, integrator 10, external control input 11 . An indicator 12 of the health of voltage converters and a prohibition element is entered into the device. The goal is achieved due to the reduction of the pause in the output voltage of the SVEP in the event of a short-term loss of the input network voltage by eliminating the erroneous operation of the overload protection. 1 il. (Ls

Description

The invention relates to electrical engineering, in particular, to secondary power supply systems (BEP), and can be used to power various electronic products.

The purpose of the invention is to increase the reliability of SVEP.

The drawing shows a block diagram of the proposed SVED.

The system works as follows.

Under normal load of the SVEP of n stabilized voltage converters 1 (PN), there are m loaded up to current limit (GT) and k underloaded, where. At the same time, one of the k underloaded PN sets the value of the output voltage of the BEP. The rest (k-ch) are in a hot reserve. Underloaded monitors indicate good condition, loaded ones indicate good condition and load current limiting. The node 2 of the control of health indicates the good condition of the BEP.

In the event of malfunction or shutdown of at least one of the monitors, node 2 of the control indicates the presence of a malfunction in the SVEP, however, the output parameters of the SVR are normal. Due to the presence of a reserve, the output voltage of the system remains nominal in the event of failure of any (k-1) PN from among

However, in case of failure of k PN 1, the remaining intact m converters, which are in GT mode, cannot provide the rated output voltage of the SVED at rated load. With the help of inverting element 6 and element OR 3, for each PN 1, one generalized signal of the PN limit state (high level) is generated, displaying the PN dying either in the GT mode (maximum load) or in a faulty state. With simultaneous receipt of the limit state signals of the PN 1 to all p inputs of the element 7, it generates the signal of the state limit of the BEP (low level), the output signal of the element 7 coincidence through the open element 13 and the element OR 4 is fed to the input of the integrator 10, at the output of which the voltage begins to increase. After a predetermined time, the output voltage of the integrator 10 reaches the threshold voltage of source 9, and the comparator 8 switches. The low level of its output signal through the elements OR 4 is fed to the input of the integrator 10 and keeps the state of the comparator 8 unchanged, and through the elements OR 5 is fed to the PS 1 off inputs. The latter are turned off

and the voltage at the output of the BEP becomes zero.

If all monitors are intact, SVEP is switched off when overloaded, when all monitors are in GT mode.

To turn on the SVED after its emergency shutdown, it is necessary to input the external control 11 to the input 11 of the external control.

state (low level). In this case, the integrator 10 and the comparator 8 occupy the initial state, and the PN 1 is kept switched off by the external control signal through the element OR 5. After being supplied to input 11

The external control of the high level SVEP signal is switched on again and, if it is not overloaded, it functions normally. Otherwise, the shutdown process is repeated.

In case of a short-term loss of the input network voltage, the n-input element 7 of the coincidence also fixes the limit of the BEP, since all FS 1 indicate a faulty state. The fault indicator 12 of all converters 1 selects this state of the BEP from all other limit states and generates a low level signal at its output.

This signal arrives at the control input of prohibition element 13 and locks it. As a result, the output signal of the n-input element 7 coincidence (low level) does not pass to the input of the (n + 1) -th element OR 4,

and integrator 10 and comparator 8 remain in the initial state.

At the same time, the shutdown signal is not received at the shutdown inputs of the PN 1. Therefore, when restoring the input network voltage

all mon 1 start working again. At the output of the coincidence element 7, the signal of the limit state of the BEP disappears, the output signal of the malfunction indicator 12 of all monitors 1 again takes a high level and opens the prohibition element 13. SVEP continues to function normally.

Claims (1)

Claims of the invention A secondary power supply system comprising n connected in parallel stabilized voltage converters with limiting load currents, a health monitoring node, the n inputs of which are connected to the output terminals of the health indication of the corresponding voltage converters, (n + 2) two-input OR elements, and the first input terminals of n elements OR are connected to the output terminals of the indication of limiting the load currents of the corresponding voltage converters, n inverting elements, input pins connected to the output pins of the display of the health of voltage converters, and output pins to the second input pins of the OR elements, the n-input matching element, whose input pins are connected to the output pins of the OR elements, comparator, threshold voltage source, integrator, connected between the output pin (n + 1) of the OR element and the first input pin of the comparator, the second input pin of which is connected to the source of the threshold voltage, and the output pin to the second input pin (n + 1) of the OR element and the first input terminal of the (n + 2) -th element OR, and the input terminal of the external control connected to the input terminal of the integrator installation 0 five 0 the initial state and the second input terminal of the (n + 2) -th element OR, the output terminal of which is connected to the input terminals of switching off the voltage converters, so that, in order to increase the reliability, the fault indicator of all voltage transducers, whose input terminals are connected to the output terminals of the health indication of the corresponding voltage converters, and a prohibition element, whose information input terminal is connected to the output terminal of the n-input matching element, controlling the input to the output terminal of the fault indicator converters voltage output terminal and - a first input terminal (n + 1) -th OR element.