SU960775A2 - Multi-channel device for dc voltage stabilizing - Google Patents

Description

The invention relates to STT technology and electronics and can be used in power supply devices for automation, computing, communication facilities.

According to the main auth. No. 817688 a multichannel device for stabilizing a constant voltage is known, comprising at least two voltage channels, a common source of reference voltages, a common reference node, a switch and voltage dividers connected to the corresponding output pins of the voltage channels, a time distribution block, connected to the address inputs of the switch, the key element connected to the output of the comparison node, to one input of which a common source of voltage is connected, and to the input through the switch are voltage dividers Parallel .registr dynamic, the total data input of which is connected to the output of the key element, the address inputs of said register coupled to the time distribution unit regulyrukntsie transistors included in sootvetstvuyutsy channel voltage together with filters, the outputs

register, the number of which corresponds to the number of voltage channels, are similar: c. respective managers 5. the inputs of the control transistors Cl.

The known device has no protection, which reduces its reliability.

The aim of the invention is to improve the reliability and noise immunity, and the expansion of functional

10 possibilities.

The goal is achieved by the fact that a multichannel device for stabilizing a constant voltage is equipped with a protection unit consisting of

Claims (2)

15 comparison node, reference voltage source, key element, analyzing and indicating state and summing logic node, with one input of the comparison node being the input of the protection unit connected to the switch output, the other input of the comparison node is connected to to the source of the reference voltage, the output of the comparison node is connected via a key element to the input of the analysis and indication node of the state, the corresponding outputs of which are connected to the corresponding inputs of the summing logic node, the outputs of which are the outputs of the block a, are connected to the corresponding setting inputs of the dynamic register of the device, and the control inputs of the analysis and display unit are connected to the corresponding outputs of the time of the distribution unit. In addition to the Kremlin, the state analysis and indinction unit consists of cells of the same type in terms of the number of stabilization channels, each of which contains the first and second AND – NE elements with the combined first inputs, which are the corresponding control inputs of the analysis and indication node, the counter, the counting and The installation inputs of which are connected separately from the outputs of the first and second elements NAND, respectively, the decoder to the installation and information inputs, the latter connected to the output of the counter, an amplifier with an indicator, It is connected to the second inputs of the NAND elements and the output of the decoder, which is the corresponding output of the analysis and indication node, and the inverter connected by the output to the third input of the second NAND element and input to the third input of the first NAND element, which is combined with anoshoic the inputs of other cells and. is the input of the analysis and indication node. Fig. 1 shows a functional diagram of a multi-channel device for stabilizing a constant voltage; Fig. 2 shows the same, single cell, node analysis and state indication. The device contains in each channel transistor switches 1-3 for adjusting the voltage and filters 4-6i The outputs of the channels of the device through large-scale dividers 7-9 are connected to the inputs of switch 10. The output of switch 10 is connected to the second input of common comparison node 11, and the first input Comparison circuits are connected to a common reference voltage source 12. The output of the comparison circuit is connected to the key element 13. Parallel dynamic register 14 is assembled from tactable 1) triggers according to the number of channels and whose information input is combined and connected to the output of the key element 13, and the outputs of the register 14 are connected to the basic inputs of transistor switches 1-3 of the corresponding channels, the address inputs of the register and the switch are connected to the distribution unit 15 at the time. The output of the switch 10 is also connected to the first input of the protection comparison node 16, and its second input is connected to the source 17 of the reference voltage. The output of the key element 18 is connected to the input of the analysis and indication display unit 19, the outputs of which are connected to the inputs of the summing logic node 20. The corresponding outputs of the summing logic node 20 are connected to the corresponding setup inputs of the register 14. The analysis and display block consists of cells of the same type (FIG. 2) by the number of stabilization channels, and each cell contains a three-input element AND-HE 21, the output of which is connected to the counting input of the counter 22, counting up to four, and the contents of which are controlled by the decoder 23, which made on the three-input element AND-NOT, the output of which is connected to the input of the corresponding element OR Wela 20 and through the amplifier 24 with the indicator 25. Inverter 26 is also connected to the three-input element AND-NOT 27, the output of which is connected to the input O of the counter 22. Node 20 is a group of logical OR cells. Each OR cell has a number of inputs equal to the number of and: power supply sources operating on a given total load, and the number of .fOB elements OR is NUMBER of loads. The output of the OR cells is connected to the set-in inputs of the dynamic register triggers, which correspond to the stabilization channels controlled by this element OR. The device works as follows. The switch 10, through the scale dividers 7-9, alternately for a certain time simultaneously connects to the corresponding inputs of the common comparison node 11 and the protection comparison node 16 the output of a specific channel of the device. The switched signal simultaneously arrives at the input of the protection comparison node 16, where it is compared with the reference voltage of the protection supplied at the second input of the protection comparison node. At the output of node 16, a mismatch signal arises, which is fed to the input of the key element 18. The key element, depending on the polarity of the error signal,. interrunner forms it into a logical O signal (if the parameter is normal) or logical 1 (if the parameter has gone out of the norm), which is fed to the inputs of the element 21 and inverter 26 of the analysis and display node 19. Simultaneously with the impulse signal impulse signal, from the time of distribution unit 15 a clock pulse of positive polarity arrives at elements 21 and 27 when connected to the circuit of the channel node that controls this cell of the analysis and display node. In the case of the arrival of the error signal in the form of a logical 1, element 21 is triggered and a unit is recorded in counter 22. If such a signal (logical 1) when the channel is connected comes four times a second, then counter 22, counting up to four, is blocked by decoder 23, which turns on the indicator 25 through amplifier 24, signaling the activation of the sensor. Along with switching on the indicator 25, the signal enters the input of the corresponding OR element of node 20, which sets the corresponding trigger of the dynamic register 14 to the zero state, thus turning off certain channels of stabilization. If the signal comes in the form of a logical O (parameter is normal), then element 27 is triggered through inverter 26, giving a signal of Setup O to counter 22 and, thus, setting it to the zero initial state regardless of its content other than four. To reset Zadat on each cell of the decoder 23 provides the installation input. To activate the stabilization channels, after the protection has been triggered, a logical O signal is sent to the decoder 23, which triggers to unlock the counter 22. In the proposed multi-channel device, two channels operate for each load. Accordingly, the logic node consists of two-input OR elements. The inputs of the OR elements are connected to the outputs of the corresponding cells of the analysis and display unit. In the event of an accident in either of the two Channels, both are switched off immediately, i.e. the output of the OR element is connected to the installation inputs of the two corresponding dynamic register trigger. Since the multichannel device operates under conditions of an increased level of various interferences, the presence of a four-fold demand of stabilization channels with a strictly defined frequency eliminates false triggering at different spectrum of interference frequencies, and the period of a four-time interrogation of the stabilization channel exceeds the maximum duration of interference. The invention allows to expand the functionality of the device, increase the noise immunity and reliability of the power supply system, which specifically achieves the introduction of noise immunity of each channel, but with a general comparison circuit, and the inclusion of a unit of logic, which is built depending on the type and number of loads, on the device. which works multichannel device. It is possible to build a protection that fixes not only the maximum voltage or current, but also the minimum of these parameters, or the protection controlling any combination at the indicated above output parameters of the power supply. To do this, it is necessary to connect in parallel the existing chain from the source of the protection voltage, the comparator and the analysis and indication node, the outputs of which are connected to the additional inputs of the OR elements of the logic node. Claim 2. A multichannel device for stabilizing a constant voltage according to the author. No. 817688, distinguished by the fact that, in order to increase reliability and noise immunity, and enhance functionality, it is equipped with a protection unit consisting of a comparison node, a reference voltage source, a key element, a state analysis and indication node, and a summing node logic, while one input of the comparison node, which is the input of the protection unit, is connected to the output of the switch, the other input of the comparison node is connected to the reference voltage source, the output of the comparison node is connected through the key element to the input of the analysis node for the status indications, the corresponding outputs of which are connected to the corresponding INPUTS1MI of the summing logic node, the outputs of which, being the outputs of the block, are connected to the corresponding installation. to the secondary inputs of the dynamic register of the device, the a.-control inputs of the analysis and indication node are connected to the corresponding outputs of the distribution unit time. , 2. The device according to claim 1, of tl and 7, which is that the analysis and indication node consists of the same type of cells according to the number of stabilization channels, each of which contains the first and second AND – NES elements, with combined first inputs, -, corresponding to the corresponding control inputs of the analysis and indication node, the counter, the counting and installation inputs of which are connected separately to the outputs of the first and second elements, AND-NO, the decoder with the installation, and information inputs, the latter being connected to the output of the counter , an amplifier with an indicator connected to the second inputs of the INE elements and the output of the decoder, which corresponds to the output of the angles and indication node, and an inverter connected by the output to the third input of the second AND-NOT element, and the input to the third input of the first I element NOT, which is combined with similar inputs from other cells and is the input to the analysis and display node. Sources of information taken into account in the examination 1. USSR author's certificate L 817688, class, C 05 F 1/56, 1979. Yti // 6-Signal AevaFu node P 13 yy IS