JP2537992Y2 - Power supply - Google Patents

Description

[Detailed description of the invention] [Purpose of the invention] (Industrial application field) The present invention relates to a power supply device used for a terminal or the like of a communication system.

(Prior Art) In a communication system, a terminal may turn off the power when not in use for the purpose of energy saving or the like.
It is necessary to notify the center of the system that the power has been turned off so that it is not mistaken for a failure. Therefore, this type of power supply device is configured to hold output power for a while after being turned off, and to use this power to issue an alarm to the center of the system.

FIG. 3 shows a general configuration of a conventional power supply device of this kind. Usually, such a device inputs AC power from a commercial power source, converts it into DC power of a constant voltage, and outputs the DC power.
A main switch 2 connected to an AC input terminal 1, an AC / DC converter 3 for converting input AC power into DC power,
A DC / DC converter 5 is provided for converting the DC power to a desired voltage level, amplifying the current, and supplying the amplified DC power from a DC output terminal 4 to a load. In a conventional device, for example, a power holding capacitor 7 is connected to the primary input line of the DC / DC converter 5.
And the input disconnection detection circuit 8 for generating an alarm, and when the main switch 2 is opened, the DC / D
The C converter 5 and the input disconnection detection circuit 7 are driven to generate an alarm.

(Problems to be Solved by the Invention) Disadvantages of the conventional configuration are that the generation of the alarm after the input is cut off is delayed, the time for generating the alarm is not sufficient, and there is no guarantee that the center can receive the alarm reliably. . That is, as can be seen with reference to FIG. 3, since the capacitor 7 is directly connected to the detection input of the detection circuit 8, even if the input is cut off, the detection input is held at the high level by the holding voltage of the capacitor 7, Only after the holding power in the capacitor 7 is consumed and the holding voltage drops to some extent, the input disconnection is detected and an alarm is issued. At this time, since the electric power in the capacitor 7 has already been consumed considerably, only a small amount of electric power for normally driving the DC / DC converter 5 and the input disconnection detecting circuit 8 remains, and the alarm is immediately stopped. Will be reached.

In order to solve such a problem, as shown in FIG. 4, a battery 10 is connected to the secondary side of the DC / DC converter 5 via a backflow prevention diode 9, and the input disconnection detection circuit is operated by the power of the battery 10. A device for ensuring the operation of E.8 has also been proposed.

However, this device requires the use of the battery 10 and further requires a battery protection circuit and the like, so that there is a problem that it is difficult to reduce the size of the device.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a power supply device capable of quickly detecting an input disconnection and immediately issuing an alarm, and sufficiently securing an alarm generation time without using a battery.

[Structure of device]

(Means for Solving the Problems) The present invention provides a power converter that converts input power into a desired power and supplies it to a load, and a power converter that is connected to an input line of the power converter and is connected after the input power is cut off. Input disconnection detection, which is driven by a power holding capacitor that supplies the holding power to the power supply and the output power of the power converter, has a detection input connected to the input line of the power converter, and detects that the input power has been cut off and issues an alarm The circuit is inserted between the connection point of the input line of the power converter and the power holding capacitor and the connection point of the input disconnection detection circuit, and electrically connects the capacitor and the detection input of the input disconnection detection circuit when the input is disconnected. The input disconnection detection circuit is provided with a photodiode driven by the input power and power from an output line of the power converter. A photocoupler including a phototransistor to be biased, a time constant circuit including a resistor inserted in a bias line of the phototransistor and a capacitor connected in parallel to the phototransistor, and an output signal of the time constant circuit. , And an output amplifier that generates the shaped signal as the alarm.

(Operation) According to the above configuration, when the input is disconnected, the power holding capacitor and the detection input of the input disconnection detection circuit are electrically disconnected by the operation of the backflow prevention diode, so that the detection input level is immediately changed. Lowered and an alarm is generated. Since this alarm generates the output of the time constant circuit through the conversion processing of the output amplifier, the influence of the pulsating noise of the output of the time constant circuit is removed by adjusting the threshold level of the output amplifier, and the alarm is generated as early as possible. Can be emitted. The alarm stops when the power in the power holding capacitor is consumed and the power converter and the detection circuit cannot operate normally. As described above, since the alarm is issued immediately after the input is cut off, it is possible to continue to issue the alarm over almost the entire power consumption time in the power holding capacitor. In addition, since an alarm can be issued by the power stored in the power holding capacitor, an external battery is not required, and the device can be easily downsized.

(Example) Hereinafter, an example will be described.

FIG. 1 shows a configuration of an embodiment of the power supply device according to the present invention. This device is designed so that either an AC power supply or a DC power supply can be used as an input power supply.An AC input terminal 20 connected to the AC power supply is connected to an AC / DC converter via an AC main switch 21 and an isolation transformer 22. One of the DC side + terminals of the converter 23 is connected to one fixed contact 24a of the input switch 24. The DC input terminal 25 connected to the DC power supply is connected via a DC main switch 26 to the + terminal of the input switch 24.
Is connected to the other fixed contact 24b of the
It is connected to the ground with the DC side terminal of 3. The movable contact 24c of the input switch 24 is connected to the primary terminal of the DC / DC converter 27. This DC / DC converter 27 converts the primary-side DC power to a desired voltage level, amplifies the current, and outputs it to the secondary side.The secondary terminal is connected to a load (not shown) via a DC output terminal 28. It is connected.

A photodiode 29 of a photocoupler 29 for detecting an input disconnection between the primary input line of the DC / DC converter 27 and the ground.
a is connected in the forward direction. In addition, DC / DC converter
A power holding capacitor 30 is connected between the primary input line 27 and the ground. Then, the connection point of the input line of the DC / DC converter 27 with the photodiode 29 and the capacitor 30
The backflow preventing diode 31 is inserted between the connection points of the two. The secondary terminal of the DC / DC converter 27 is connected to the capacitor 33 via the resistor 32, and the other end of the capacitor 33 is grounded. The phototransistor 29b of the photocoupler 29 is connected to both ends of the capacitor 33. Resistor 32 and the capacitor 33 constitute a time constant circuit, the charging voltage V _c2 is output by the amplifier 34 is converted into an alarm signal V _alm alarm output terminal 35 of the output that is capacitor 33
From the center of the system (not shown).

FIG. 2 shows the operation of this embodiment. The input power supply is selected by the input changeover switch 24. In FIG. 2, the case where the AC power supply is selected is indicated by a solid line, and the case where the DC power supply is selected is indicated by the chain line. Taking the case where the AC power supply is selected as an example, the current i _in flowing through the photodiode 29a has a pulsating waveform of rectification, and accordingly, the conduction resistance of the phototransistor 29b pulsates.
And the time constant of the capacitor 33, the charging voltage V _c2 of the capacitor 33 is suppressed to below the threshold level V _th2 of the output amplifier 34. Therefore, the alarm signal _Valm is not output during energization.

When the main switch 21 is opened input interruption at time T _1,
Input selector switch by the action of backflow prevention diode 31
Since the capacitor 24 and the capacitor 30 are electrically disconnected, the current i _{in of the} photodiode 29a immediately becomes 0, and the phototransistor 29b is turned off. At this time, the operation of the DC / DC converter 27 is maintained by the retained power in the capacitor 30, and D
The output of the C / DC converter 27 charges the capacitor 33 through the resistor 32. Since the charging time constant is for suppressing the charging of the capacitor 33 due to the pulsation of the rectification as described above, it is a very small value as compared with the discharging time constant of the capacitor 30. Therefore, the capacitor 3
The charge voltage V _c2 of exceeding the threshold level V _th2 rise quickly, the alarm signal V _alm is output.

As the power in the capacitor 30 is consumed, its holding voltage V
_{When c1} gradually decreases and falls below the threshold level _Vth1 , the output of the DC / DC converter 27 stops. Thus, the capacitor 33 is shifted from charge to discharge, the charging voltage V _c2 is the output of an alarm signal V _alm below the threshold level V _th2 is stopped.

Thus, the alarm signal _Valm is _output from the power holding capacitor.
Will be the power of 30 is output over a substantially whole t ₁ of time to exhaust almost consumed, it is possible to secure a sufficient alarm time.

In the above embodiment, the terminal power supply of the communication system has been described as an example, but it is needless to say that the present invention is not limited to such a use.

[Effect of the invention]

As described above, according to the present invention, when the input is disconnected, the detection input of the input disconnection detection circuit is configured to be electrically disconnected from the power holding capacitor. An alarm can be issued, and a sufficient time for generating an alarm can be secured. Since this alarm generates the output of the time constant circuit through the conversion processing of the output amplifier, the influence of the pulsating noise of the output of the time constant circuit is removed by adjusting the threshold level of the output amplifier, and the alarm is issued as early as possible. Can be emitted. In addition, since an alarm can be issued by the power stored in the power holding capacitor, an external battery is not required, and the device can be easily downsized.

[Brief description of the drawings]

1 is a block diagram of an embodiment of a power supply device according to the present invention, FIG. 2 is a signal waveform diagram showing the operation of the embodiment of FIG. 1, and FIG. 3 is a general configuration of a conventional power supply device. FIG. 4 is a block diagram showing another conventional configuration example. 20 AC input terminal, 21 AC main switch, 24
…… Changeover switch, 25 …… DC input terminal, 26 …… DC input terminal, 27 …… DC / DC converter, 29 …… Photocoupler, 3
0: Power holding capacitor, 31: Backflow prevention diode, 32: Resistor, 33: Capacitor, 34: Output amplifier.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hideo Shimoda 3-1-1 Asahigaoka, Hino-shi, Tokyo Toshiba Communication Systems Engineering Co., Ltd. (56) References Showa 57-78241 (JP, U)

Claims (2)

(57) [Scope of request for utility model registration] 1. A power converter for converting input power into desired power and supplying the power to a load, and connected to an input line of the power converter and supplying holding power to the power converter after the input power is cut off. A power holding capacitor, driven by power from an output line of the power converter, a detection input is connected to an input line of the power converter, and an input disconnection detection that detects that the input power has been disconnected and issues an alarm And a circuit, which is inserted between a connection point of the input line of the power converter and the power holding capacitor and a connection point of the input disconnection detection circuit, and detects the capacitor and the detection input of the input disconnection detection circuit when the input is disconnected. A backflow preventing diode for electrically separating the power supply from the power supply, wherein the input disconnection detection circuit comprises a photodiode driven by the input power and the power converter. A photocoupler consisting of a phototransistor biased by the power from the output line of the phototransistor, and a time constant circuit consisting of a resistor inserted in the bias line of the phototransistor and a capacitor connected in parallel to the phototransistor, The alarm is not output when the output signal of the time constant circuit is lower than a predetermined threshold level, and the alarm is output when the output signal of the time constant circuit is higher than the predetermined threshold level. A power supply device comprising: an output amplifier. 2. The system according to claim 1, wherein the predetermined threshold level is higher than a peak value of an output signal of the time constant circuit when an AC signal is supplied as the input power. Item 7. The power supply according to Item 1.