SU1665475A1 - D c/d c voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used, in particular, in network sources of secondary power supply. The purpose of the invention is to increase the reliability of the device by providing protection against uneven distribution of voltages between cells. The device contains converter cells 1 and 2, a control unit 4, a voltage divider 9, a rectifier 10, a first threshold node 11, an optocoupler 15, a second threshold node 16, and an LED 20. When the voltages are unevenly distributed between the cells of the output of the rectifier 10 Wits voltage that will trigger the first threshold node 11, the optocoupler 15 and the second threshold node 16, which, through the control unit 4, locks the keys in the cells, and by means of the LED 20 signals a fault. 1 hp f-ly, 1 ill.

Description

The invention relates to electrical engineering and can be used to convert DC voltage, in particular, in network sources of secondary power supply with increased reliability.

The purpose of the invention is to increase the reliability of the device by providing protection against uneven distribution of voltages between cells.

The drawing shows a functional diagram of the proposed DC / DC converter.

The device contains converter cells 1 and 2 connected in series at the input and parallel at the output, an output voltage sensor 3 connected to the input of control unit 4 including a comparator 5, a reference voltage source 6 and a preamplifier 7. The device includes also load 8,

a voltage divider 9, a rectifier 10, the output of which is connected to the input of the threshold node 11. including a comparator 12 (its power supply is not shown) and a source 13 of the reference voltage, and a constant voltage source 14 through which the output of the optocoupler 15 is connected to the input of the second reference node 16 containing the comparator 17, the source 18 of the reference voltage and the diode 19. It should be noted that another source of voltage can be used as the source 14 of the constant voltage, for example pita source and the comparator 17.

To the output of the threshold node 16 can be connected to the led 20.

The converter voltage is as follows.

oh oh ate

four

but

With a uniform distribution of voltages between the converter cells 1 and 2, the input voltage of the rectifier 10 is zero. In case of uneven distribution of these voltages at the input of the rectifier 10 across the voltage of one or another polarity, since the potential of the junction point of the input terminals of the converter cells 1 and 2 will change and the midpoint potential of the voltage divider 9 will remain unchanged. After rectification, this voltage is applied to the input of the threshold node 11 and, if its value exceeds the threshold level specified by the source 13 of the reference voltage, then the comparator 12 is activated, the polarity of the voltage changes at the output of the threshold node 11.

Next on Vits current in the input circuit

the optocoupler 15 and after opening its output circuit, the voltage of the source 14 enters the input of the threshold node 16. Since

source 14 is greater than source 18, then at

This will change the polarity of the voltage at the output of the comparator 17, which will lead to the opening of the diode 19 and the appearance of a voltage at the output of the threshold node 16. From the output

the threshold node 16, the voltage is fed to the input of the control unit 4 and by changing the potential at the input of the comparator 5 provides the locking voltage to the control inputs of the converter cells 1 and 2. It should be noted that the formation of the locking voltage can be made

in a known manner, for example, by disconnecting the supply voltage of the control circuits,

disruption of generator oscillations, etc.

When a voltage appears at the output of the threshold node 16, the LED 20 lights up, indicating an uneven distribution of voltages between the converter cells 1 and 2. Due to this

troubleshooting is simplified and device repair time is reduced.

Thus, introducing a voltage divider, a rectifier, two threshold nodes, an optocoupler, and a constant voltage source into the circuit ensures protection of the converter cells from the uneven distribution of voltages between them and thereby increases the reliability of the device.

Claims (2)

Claim 1. Permanent voltage converter containing two converter cells, which are connected in a circuit power supply in series with each other and connected to the input terminals, and a control unit, the output of which is connected to the control inputs of the converter cells, and the input to the output voltage sensor, characterized in that, in order to increase the reliability of the device by providing non-uniform distribution protection voltage between cells, a voltage divider is inserted into it, the rectifier, the first and second threshold nodes, the optocoupler and the constant voltage source, the voltage divider connected to the specified input terminals, the rectifier input is connected between the average the voltage divider point and the junction point of the converter cells, the output of the rectifier is connected to the input of the first threshold node, the input circuit of the optocoupler is connected to the output of the first threshold node, A constant voltage source through the output circuit of the optocoupler is connected to the input of the second threshold node, and the output of the second threshold node is connected to the input of the control unit. 2. The converter according to claim 1, characterized in that, in order to increase maintainability, an LED is inserted into it, which is connected to the output of the second threshold node. ,