JP2001255946A - Power source monitor circuit and power source monitor method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power source monitor circuit and method for preventing damages to equipment, even if an AC voltage other than a rated frequency is inputted. SOLUTION: A power source monitor circuit is provided with a monitor circuit 12 for detecting the AC voltage of an AC power source 2 for supplying an AC voltage to a transformer 4, and for determining whether the frequency of the AC voltage is a rated frequency and a relay 11 arranged on a main line 3 for supplying the AC voltage from the AC power source 2 to the transformer 4, whose opening and closing is controlled by the monitor circuit 12. Even through when the AC voltage is the rated frequency, the monitor circuit 12 closes the relay 11 so that the AC voltage can be supplied to the transformer 4, when the AC voltage other than the rated frequency, the monitor circuit 12 opens the relay 11, and an AC voltage will not be supplied to the transformer 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply monitoring circuit and a power supply monitoring method, and more particularly to a novel improvement for suppressing damage to a transformer or the like even when power supplies having different frequencies are supplied by mistake. About.

[0002]

2. Description of the Related Art As a general power supply circuit, there is a configuration as shown in FIG. That is, in the figure, reference numeral 1 denotes a power input terminal, to which the AC power supply 2 is connected. The AC voltage supplied from the AC power supply 2 is supplied to the transformer 4 via the main line 3.
And is used as the power source 5 in the next stage. Since this power supply circuit is used in the defense industry, unlike the commercial power supply circuit, the AC power supply 2 having a frequency of 400 Hz is widely used.

[0003]

Since the conventional power supply circuit is configured as described above, the following problems exist. That is, in a bench test or the like, a low-frequency voltage (for example, a frequency of 50 Hz or 60H
z) may be input and the power supply circuit may be damaged. Further, it is possible to increase the capacity of the transformer 4 so as not to damage the power supply circuit even when the low-frequency voltage is input as described above, but an increase in the size and cost of the circuit is unavoidable. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and in particular, provides a power supply monitoring circuit and a power supply monitoring method capable of preventing a power supply circuit from being damaged even if a low-frequency voltage is input by mistake. The purpose is to do.

[0005]

A power supply monitoring circuit according to the present invention detects an AC voltage of an AC power supply for supplying an AC voltage to a transformer, and determines whether or not the frequency of the AC voltage is a rated frequency. And a relay provided on a main line for supplying the AC voltage from the AC power supply to the transformer and controlled to be opened and closed by the monitor circuit, wherein the monitor circuit has a rated AC voltage. When the frequency is the frequency, the relay is closed and the AC voltage is supplied to the transformer, but when the AC voltage is other than the rated frequency, the relay is opened and the AC voltage is not supplied to the transformer. And the monitor circuit includes a comparator, a monostable multivibrator, an RS-flip-flop, and switching means. When the frequency is the rated frequency, the output of the monostable multivibrator changes based on the output of the comparator, and the RS-flip-flop outputs the first signal, whereby the switching means is turned on and the switching means is turned on. The relay is closed, but when the AC voltage is at a frequency other than the rated frequency, the output of the monostable multivibrator changes based on the output of the comparator, thereby causing the RS-flip-flop to connect to the first signal. By outputting a different second signal, the switching means is turned off and the relay is opened, and the monitor circuit further comprises the monitor circuit on the main line on the AC power supply side than the relay. This is a configuration for detecting an AC voltage. Further, the power supply monitoring method of the present invention includes a monitor circuit that detects an AC voltage of an AC power supply for supplying an AC voltage to a transformer, and determines whether or not the frequency of the AC voltage is a rated frequency. A power supply monitor circuit provided on a main line for supplying the AC voltage from a power supply to the transformer, and a relay controlled to be opened and closed by the monitor circuit,
When the AC voltage is at the rated frequency, the monitor circuit closes the relay to supply the AC voltage to the transformer, but when the AC voltage is at a frequency other than the rated frequency, the monitor circuit switches the relay. The AC voltage is not supplied to the transformer when opened.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of a power supply monitoring circuit and a power supply monitoring method according to the present invention will be described below in detail with reference to the drawings. The same or equivalent parts as those of the conventional device are denoted by the same reference numerals, and description thereof will be omitted.

As shown in FIG. 1, the power supply monitor circuit of the present invention includes a relay 11 provided between a power supply input terminal 1 and a transformer 4, a monitor circuit 12 for driving the relay 11, and a monitor power supply stage. 13, an initialization stage 14, and a relay coil 15.

The monitor circuit 12 detects the AC voltage from the main line 3 between the AC power supply 2 and the relay 11, that is, detects the AC voltage on the AC power supply 2 side of the relay 11 on the main line 3. It is connected so as to be detectable, and includes a rectifier 20, a comparator 21, a retriggerable monostable multivibrator 22, an RS-flip-flop 23, and a transistor 24 as switching means. Each of these elements 21 to 24 is supplied with power from the monitor power supply stage 13, the output of the comparator 21 is input to a monostable multivibrator 22, and the output of the monostable multivibrator 22 is an RS-flip-flop 23. , And the output of the initialization stage 14 is input to the R terminal of the RS-flip-flop 23.

Therefore, the AC voltage supplied from the AC power supply 2 is half-wave rectified by the rectifier 20, input to the inverting input terminal of the comparator 21, and the comparison result is supplied to the monostable multivibrator 22. At this time, the rated frequency (400H
z) When an AC voltage other than z) is input, the output of the monostable multivibrator 22 becomes L level, and when an AC voltage of the rated frequency (400 Hz) is input, H
Set it to be the level. Also, the initialization stage 14
Is set so as to output an L level when the AC power supply 2 is connected to the power input terminal 1 (that is, a power-on reset to the L level).

As described above, when the AC power supply 2 having a frequency other than the rated frequency is connected to the power supply input terminal 1, the output of the monostable multivibrator 22 becomes L level and the initialization stage 1
4 goes low, the output of the RS flip-flop 23 goes low indicating the first signal. As a result, the transistor 24 is turned off, the relay coil 15 remains demagnetized, and the relay 11 remains open, so that no AC voltage is supplied to the transformer 4.

On the other hand, when the AC power supply 2 of the rated frequency is connected to the power supply input terminal 1, the output of the monostable multivibrator 22 becomes H level, and the output of the RS flip-flop 23 becomes the second signal. H level indicating As a result, the transistor 24 is turned on and the relay coil 15 is excited, so that the AC voltage of the AC power supply 2 is supplied to the transformer 4 by closing the relay 11. As a result, a desired AC voltage can be obtained in the power supply 5 in the next stage.

As described above, according to the power supply monitor circuit of the present invention, the AC voltage is supplied to the transformer 4 when the AC voltage having the rated frequency is supplied, and the transformer is supplied when the AC voltage having a frequency other than the rated frequency is supplied. Since no AC voltage is supplied to the power supply circuit 4, it is possible to provide a power supply monitor circuit that can be reduced in size and cost with a simple configuration without taking measures such as increasing the capacity of the transformer. Note that the operation of each element in the above description is an example, and it is possible to operate at any of the H level and the L level by a simple design change. The present invention is not limited to the case where the AC voltage is detected from the main line 3 but may be directly detected from the AC power supply 2 to implement the present invention.

[0013]

The power supply monitor circuit of the present invention detects an AC voltage of an AC power supply for supplying an AC voltage to a transformer, and determines whether or not the frequency of the AC voltage is a rated frequency. A relay provided on a main line for supplying the AC voltage from the AC power supply to the transformer and controlled to be opened and closed by the monitor circuit. Closing the relay and supplying the AC voltage to the transformer, but when the AC voltage is at a frequency other than the rated frequency, the relay is opened and the AC voltage is not supplied to the transformer; A power supply monitor circuit that can prevent the transformer from being damaged by the supply of the AC voltage to the transformer can be provided. The monitor circuit includes a comparator, a monostable multivibrator, an RS-flip-flop, and switching means. When the AC voltage is at a rated frequency, the output of the monostable multivibrator is output based on the output of the comparator. Change, and thereby the RS
The flip-flop outputs the first signal,
When the switching means is turned on and the relay is closed, when the AC voltage is at a frequency other than the rated frequency, the output of the monostable multivibrator changes based on the output of the comparator, whereby the RS The flip-flop outputs a second signal different from the first signal, so that the switching means is turned off and the relay is opened; A power supply monitor circuit that can surely prevent damage can be supplied. Further, since the monitor circuit is configured to detect the AC voltage on the AC power supply side of the main line rather than the relay, the AC voltage having a frequency other than the rated frequency is supplied to the transformer with a simple configuration. Thus, a power supply monitor circuit that can prevent the transformer from being damaged can be supplied. Further, the power supply monitoring method of the present invention includes:
A monitor circuit that detects an AC voltage of an AC power supply for supplying an AC voltage to a transformer and determines whether the frequency of the AC voltage is a rated frequency, and supplies the AC voltage from the AC power supply to the transformer. A power supply monitor circuit provided on a main line for performing the switching operation, and a relay controlled to be opened and closed by the monitor circuit. Supply voltage to the transformer,
When the AC voltage is at a frequency other than the rated frequency, the monitor circuit opens the relay and does not supply the AC voltage to the transformer. It is possible to provide a power supply monitoring method capable of preventing the occurrence of a power failure.

[Brief description of the drawings]

FIG. 1 is a configuration diagram schematically showing a power supply monitoring circuit according to the present invention.

FIG. 2 is a configuration diagram schematically showing a conventional power supply circuit.

[Explanation of symbols]

 Reference Signs List 1 power supply input terminal 2 AC power supply 3 main line 4 transformer 5 next-stage power supply 11 relay 12 monitor circuit 13 monitor power supply stage 14 initialization stage 15 relay coil 20 rectifier 21 comparator 22 monostable multivibrator 23 RS-flip-flop 24 transistor (Switching means)

Claims (4)

[Claims] A monitor circuit (1) for detecting an AC voltage of an AC power supply (2) for supplying an AC voltage to a transformer (4) and determining whether or not the frequency of the AC voltage is a rated frequency.
2) and a relay (11) provided on a main line (3) for supplying the AC voltage from the AC power supply (2) to the transformer (4) and controlled to be opened and closed by the monitor circuit (12). When the AC voltage is at the rated frequency, the monitor circuit (12) closes the relay (11) and supplies the AC voltage to the transformer (4). A power supply monitoring circuit characterized in that, when the frequency is other than the rated frequency, the relay (11) is opened and the AC voltage is not supplied to the transformer (4). 2. The monitor circuit (12) includes a comparator (21), a monostable multivibrator (22), and an RS-flip-flop.
(23) and switching means (24), and when the AC voltage is at the rated frequency, the output of the monostable multivibrator (22) changes based on the output of the comparator (21). RS-flip-flop (23)
Outputs the first signal, the switching means (24) is turned on and the relay (11) is closed, but when the AC voltage is other than the rated frequency, the comparator
(21) The monostable multivibrator (2
As the output of 2) changes, the RS-flip-flop (23) outputs a second signal different from the first signal, whereby the switching means (24) is turned off and the relay (11) is turned off. 2. The power supply monitoring circuit according to claim 1, wherein the power supply monitoring circuit is opened. 3. The monitor circuit (12) is connected to the main line.
The power supply monitoring circuit according to claim 1 or 2, wherein the AC voltage is detected on the side of the AC power supply (2) relative to the relay (11). A monitor circuit (1) for detecting an AC voltage of an AC power supply (2) for supplying an AC voltage to a transformer (4) and determining whether or not the frequency of the AC voltage is a rated frequency.
2) and a relay (11) provided on a main line (3) for supplying the AC voltage from the AC power supply (2) to the transformer (4) and controlled to be opened and closed by the monitor circuit (12). In the power supply monitoring circuit including the above, when the AC voltage is at the rated frequency, the monitor circuit (12)
1) is closed to supply the AC voltage to the transformer (4), but when the AC voltage is other than the rated frequency,
A power supply monitoring method, wherein the monitor circuit (12) opens the relay (11) and does not supply the AC voltage to the transformer (4).