SU1267269A1 - Device for checking voltage - Google Patents

Abstract

This invention relates to electrical measuring technology. It can be used to control the voltage of power sources in computing systems and automatic control systems. The purpose of the invention is to expand the functionality. A multichannel voltage amplifier 12, voltage divider 13, indicator lamps 14, 15 and, respectively, are introduced into the device containing logic elements 1-10 coincidences, which are used as AND-NES elements, inverter 11, power source. connection. The device provides control of voltages of all sources, including its own power source, as well as simultaneous indication of the number of the failed power source, which reduces the search time for a faulty power source. The use of devices for controlling the voltage of power sources in you (L numeral systems and automatic control systems increases the reliability and uninterrupted operation of their operation. 1 Il.

Description

1 The invention relates to electrical measuring equipment and can be used to control the voltage of sources, power supply in computer systems and automatic control. The purpose of the invention is to expand the functionality by providing an indication of the number of the failed source of the monitored voltage and controlling the presence of the voltage of the power source of the device. The drawing shows a block diagram of the device. The device contains logic elements 1-10 coincidence, in which the elements used are IS-NOT, inverter 11, multichannel amplifier 12 voltage, divider 13 voltage and indicator lamps 14 and 1 All inputs of logic elements 1-10 IS-NOT and input inverter 11 connected to the outputs of sources of controlled voltage U | - U ,, (not quotations), with the outputs of monitored voltage sources U (- Ug connected to the first inputs of the logical elements AND-NOT 1-9, and the outputs of the sources connected to the second inputs of the same logical elements AND-NOT U,. ,, which are simultaneously connected to the inputs of the logical element IS-NOT 10, another input of which is simultaneously connected to the output of the source 10 of the monitored voltage and the input of the inverter 11. The inputs of the multichannel voltage amplifier 12 are connected to the outputs of the logic elements And NOT 1-10 and you 11 and its outputs are connected to the inputs of digital symbols O 9 of indicator lamp 14 and to the input of digital symbol 1 of indicator light 15. To control the presence of voltage and power source of the device (not shown) its output through a divider 13 the voltage is connected to the input of the symbol (Point) of the indicator lamp 14. The device operates as follows: When the power source of the device is turned on, the symbol of the Point of the indicator lamp 14 starts, indicating the presence of power to the voltage monitoring device itself, while rer 13 is9 polzuets voltage for lowering the voltage Uy device power source to a level sufficient for emitting the symbol occurrence point. When there are monitored voltages and - and 9, the outputs of the monitored voltage sources at the inputs and outputs of the multichannel amplifier 12 are set to low signal levels corresponding to O, which causes the digital symbols of the indicator lamps 14 and 15 to not glow, and on the indicator lamp 14 Point symbol. When one of the monitored voltages U disappears at the output of the corresponding logic element AND-NOT, a high signal level is established corresponding to 1. When amplified by the voltage amplifier 12, it enters the input of one of the digital symbols of the indicator lamp 14, as a result of which the latter starts to shine, indicating the number failed source of counter-voltage. If one of the monitored voltages U ,, disappears, then digital symbol 1 on the indicator lamp 15 starts to glow, because the input of this digital symbol through one of the channels of the multichannel amplifier 12 passes the signal corresponding to level 1 from the output of the NAND gate 10. With the disappearance of the monitored voltage on the indicator lamp 14, the digital symbol O lights up, as the input of this digital symbol through one of the channels of the multichannel amplifier 12 receives a signal corresponding to the level heed it. 1, from the output of the inverter 11. When the voltage U of the power source of the device disappears, the symbol Point on the indicator lamp 14 stops to light, indicating that this source is faulty. Thus, the proposed device provides control of the voltages of all sources, including its own power source, as well as simultaneous indication of the number of the failed power source, which reduces the search time for the faulty power source. The use of the proposed device for controlling the voltage of power sources in computing systems and automatic systems

management improves the reliability and continuity of their work.

Claims (1)

Invention Formula A device for controlling the voltage, containing a power source, logical elements of coincidence, the inputs of which are connected to the inputs of the device, and an inverter, which, in order to extend the functionality, the first inputs of the first nine matching elements are connected separately to nine device inputs, the inverter input is connected to the device's tenth input and one of the inputs to the tenth logic matching element. the other inputs of which are separately connected to the second inputs of the first nine logic elements of coincidence, to which the second nine inputs of the device are separately connected and a multi-channel voltage amplifier, indicator lamps and a voltage divider are added, the outputs of the logic elements of the coincidence and the output of the inverter are separately connected to the inputs of a multichannel voltage amplifier, to the outputs of which the inputs of the corresponding digital symbols of indicator lamps are connected, and the output of the power source of devices through said voltage divider is connected to the input of one symbol point indykatornyh lamps.