SU845011A1 - Dc voltage source protection device - Google Patents

Description

one

The invention relates to the field of electronic and computer equipment, in particular, to devices, which are stabilized power sources of computer equipment.

A device for protecting multi-channel stabilizers is known, which contains blocks for isolating maximum and minimum voltages, each of which is made on diodes by the number of connectors connected to the outputs of the stabilizers and connected to the input of a differential amplifier connected to an emitter follower whose output circuit is connected to the input of a switching block, the output connected via decoupling diodes to the inputs of the regulator blocks of stabilizers, PE "this is the connection of the emitter follower to the output of the differential device The cell is made by inserting an additional transistor into the device, the emitter of which is connected to one input of a differential amplifier through the first additional emitter follower, the base through a second additional emitter follower to a different output of the differential amplifier, and the collector to the input of an emitter follower fl.

The device does not provide protection that produces a current limit at the initial moment of switching on. It lacks a circuit solution, which excludes the possibility of a false triggering of a short-term noise protection device.

10 The device also does not provide for the control of ripple output voltages of controlled 1x stabilizers. In addition, this device has a low accuracy of response, caused by the scatter of the parameters of the input zener diodes.

The closest in technical essence to the proposed device

20 is a DC voltage source protection device comprising at least two different polarized DC voltage stabilizers, to the output terminals of which

Claims (2)

25, negative and positive polarity output voltage sensors are connected, the outputs of which are connected to the inputs of the maximum and minimum voltage isolation units, respectively, negative and positive polarities, current sensors, connected by inputs to the outputs of controlled stabilizers, and the outputs connected to the max. the current signal, and the outputs of all the allocation of the maximum and minimum signals are connected through the corresponding first and second isolation diodes to the input The differential amplifier, and the outputs of the minimum signal isolation units are connected to the corresponding specified separation diodes via the first and second relay contacts, the potentiating variable resistors are connected by midpoints to the differential inputs of the bodies, and the other outputs from the common ground voltage source connected to the output of negative polarity voltage sensors, the output of the differential amplifier through a new interference suppressor unit and a zener diode connected on the input of the first switching unit, the output of which is connected to the combined input of the first block of separation diodes, connected by outputs to the inputs of controlled stabilizers to the input of the second switching unit and through the second interference suppression unit and the third separation diode to the output of the minimum voltage selection unit polarity, while the output of the second switching unit is connected through the second block of separation diodes with controlled negative polarity stabilizers G2. In such a device, there is no control of one of the main parameters of the power sources — the maximum value of the output voltage ripple. Over time, the parameters of the elec- trographs change, and at a certain frequency of the effect of the load, the impulse voltage regulators can suddenly be drawn into resonance, as a result of which the emission amplitude becomes several times greater than with a sudden connection (disconnection) of the load resonance, as well as engaging in resonance, occurs suddenly, as it were. This mode of voltage regulators causes malfunctions in the logic blocks of a digital computer and thus makes it difficult to solve the problem. Finding the true cause of such failures without controlling the magnitude of the pulsations is almost impossible due to the short duration of the generation mode. The aim of the invention is to expand the functionality of the device, which allows to produce pulsations of output voltages of controlled stabilizers, as well as to produce an indication of exceeding the permissible value of pulsations. This is achieved by introducing pulsation sensors, a maximum variable component block, a third group of relay contacts, a display cell, and a fourth isolating diode into the device for protecting the source of the direct voltage G2, and the pulsation sensors are connected to the outputs of controlled stabilizers, and the outputs are to the inputs of the allocation unit of the maximum variable component, the output of which through the third group of contacts of the relay is connected to the input of the memory cell, the output connected to the display cell, is connected to the second output of the voltage source, and through an isolating diode to the anode with the output of the selection unit of the minimum signal of positive polarity. The drawing shows a circuit diagram of a power source protection device. The protection device of the DC power supply source contains at least two DC voltage stabilizer 1, the output terminals of which are connected to the positive voltage sensors 2 and negative 3 polarities, the outputs of which are connected to the inputs of the selection blocks of maximum 4 and minimum 5 positive polarity voltages and outputs of the extraction blocks of the maximum b and minimum 7 voltages of the negative polarity, current sensors 8, outputs connected to the allocation block 9, the maximum o current signal. Moreover, the outputs of all allocation units of maximal and minimum signals are connected via separation diodes 10 and 11 to inputs 12, 13 of differential amplifier 14, and the outputs of blocks 5, 7 of selection of minimum signals are connected to separation diodes 10, 11 through a group of contacts 15, 16 relays, 17 . The potentiating variable resistors 18, 19 are connected by midpoints to the inputs 12, 13 of the differential amplifier 14, and the other terminals are connected to the common bus and the output of the source 20 of the reference voltage connected by the output to the sensors of the negative polarity 3. The output of the differential amplifier 14 through the first noise suppressor unit 21 and the zener diode 22 is connected to the input of the first switching unit 23, the output of which is connected to the combined input of the first block of separation diodes 24, to the input of the second switching unit 25 and through the second suppressor unit 2b and the separating diode 27 - to the output of the minimum-voltage-positive-voltage isolation unit 5; the output of the second switching unit 25 is connected via the second block of separating diodes 28 to the controlled stabilizers negatively polarity. The device is additionally equipped with pulsation sensors 29, a unit for maximizing the change of the HOif component, a group of contacts 31 (designed to prevent false triggering at the initial moment of switching on), a cell 32, whose. The display 33 and the separation diode 34, the pulsation sensors 29 are connected to the outputs of controlled stabilizers, and the outputs to the inputs of the selection block 30 for the maximum variable component of the output of which, through the contact group 31, is connected to the input of the memory cell 32, the output connected to the cell the display 33 connected to the source 20 of the reference voltage and through the separation diode 34 by the anode - with the output of the block 5 to select the minimum signal of positive polarity. Offered, the device works as follows. A voltage supply is applied to the source 20 of the reference voltage and the power supply terminals of the switching unit 23, 25, and the differential amplifier 14 is set with the help of potential-giving resistors 18, 19 to its initial state, in which the output signal has a low level and block 23, the co1 mutation has a high potential at the output, as a result of which the separation diodes 24 are under reverse voltage. The output of the switching unit 25 at this time is low, and the diodes 28 are also under reverse voltage. from its output does not affect the controlled voltage regulators. When controlled stabilized sources are switched on, at the moment of switching on, the power elements (transistors, diodes without limitation) develop currents much higher than the nominal ones, but this phenomenon does not occur that the error signal from the current sensors 8 to the input 12 of the differential amplifier 14 transfers the differential amplifier 14 and the switching blocks 23, 25 to a state where the signal is and the output of these blocks is reduced and, with a strong mismatch, becomes equal to the potential of the common point of the circuit. There is a blocking of the transistors of the protected sources and, consequently, the current is limited at the moment of switching on. The contacts 15, 16 of the relay 17 are switched on at the moment of switching on, therefore the current is limited without false triggering of the protection device. Relay 17 is connected to the output of a stabilized power source that is switched on last in the protected group or, taking into account the inertia of the relay, to the input of that source / whose turn-on delay time together with the turn-on time of the relay would ensure guaranteed setting of the output ratings. At the end of the moment of switching on the relay 17, its contacts 15, 16 are closed and the protection device is transferred from the Restriction mode to the discrete mode of operation. In the discrete mode of operation, in the presence of any error signal (the output of the monitored parameters for the norms of the technical specifications) coming from current sensors 8 or voltage 2, 3 through blocks 4-7 and 9 V1, by splitting the maximum and minimum signals, the error is minimized and the output nominal values of the protected sources. The mismatch is memorized by a memory cell consisting of elements 14, 21, 22, 23, 26, 27, 15, 11 when the contacts 15 of relay 17 are closed. Thus, in the proposed device, the protection operates in the limiting mode at the moment of activation and in -off mode (in discrete mode) at the end of the moment of activation. When the ripple of the output voltages of monitored sources rises above the permissible standard, the pulsation sensors 29 through the selection of the maximum variable component 30 give the output signal to the output of the memory cell 32. Thus, when the pulsation of the norms of the TU is triggered, the memory cell 32, the low potential from the output of which leads to the operation of the protection and the display cell 33. To eliminate the false operation of the protection at the moment when the memory cell 32 is turned on at the time of activation, the contacts 31 of the relay 17 are disconnected. The operation of the proposed device expands the functionality of the protection, allowing control of the variable component of the output voltage of the control voltage ux stabilizers. The invention The protection device of a constant voltage source, containing at least two different polarized voltage regulator, to the output terminals of which are connected sensors of positive and negative polarity, the outputs of which are connected to the inputs of the selection blocks of the maximum and minimum voltages positive polarity and the inputs of the discharge units of the minute minimum and minimum voltages of negative polarity, current sensors connected by inputs to the outputs monitored, stabilizers and outputs connected to a maximum current signal extraction unit, the outputs of all the maximum and minimum signal extraction units are connected through the corresponding first and second isolation diodes to the inputs of the differential amplifier, and the outputs of the minimum signal allocation units are connected to the corresponding specified separation diodes through the first and second groups the end of the relay, potential-changing variable resistors are connected by midpoints to the differential amplitude inputs and the other terminals are with a common bus and with the first output of a voltage source connected to a negative polarity sensor, the output of the differential amplifier through the first interference suppression unit and the zener diode is connected to the input of the first switching unit, the output of which is connected to the combined input the first block of the RS13 separation diodes, connected by outputs to the inputs of controlled stabilizers, to the input of the second switching unit, and through the second interference suppression unit and the third separation diode to the output of the A minimum voltage positive polarity isolation, while the output of the second switching unit is connected via a second power separation diode unit to controllable negative polarity stabilizers, characterized in that, in order to minimize the functionality, the pulsation sensors are introduced, the maximum variable selection unit component, the third group of contacts of the relay, the memory cell, the indication cell and the fourth dividing diode, with the pulsation sensors being connected to the outputs monitored stabilizers, and outputs to the inputs of the allocation unit of the maximum variable component, the output of which is connected to the input of the memory cell through the third contact group, the output connected to the display cell connected to the second output of the reference voltage source and through the fourth isolation diode anode - with the output of the minimum polarity selection signal unit. Sources of information taken into account in the examination 1. The author's certificate of the USSR in Ssshvke 546872, cl. G 05 F 1/58, 1974, 2. USSR author's certificate according to the application No. 2554756, cl. G 05 F 1/58, 1978.