JP2015213386A - Uninterruptible power supply system and interface converter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an uninterruptible power supply capable of outputting a seizure signal from a conversion board at the time of power recovery of commercial power supply, while reducing the number of external power supplies for the conversion board, and to provide an interface converter.SOLUTION: An AC input section 21 for inputting AC power from the outside, an AC output section 27 for outputting AC power to the outside, and a signal I/O section 29 outputting a signal for first power supply of negative voltage in response to the input of an AC power to the AC input section 21 are provided in an UPS2. Furthermore, a first power supply 5 for supplying an AC power, outputted from the AC output section 27, to a conversion board 4 while converting into a DC power is connected between the conversion board 4 and AC output section 27, and a first power supply 5 for supplying an AC power, outputted from the AC output section 27, to the conversion board 4 while converting into a DC power is provided. A second power supply 6 for supplying a DC power, obtained from a signal for the first power supply, to the conversion board 4 is provided on the conversion board 4.

Description

  The present invention relates to an uninterruptible power supply system in which an interface converter is interposed between an uninterruptible power supply and an information processing apparatus.

  Conventionally, an uninterruptible power supply (UPS) that is connected between a commercial power supply and an information processing device such as a workstation (hereinafter referred to as a “host device”) and supplies power to the host device without an uninterruptible power is used. (For example, see Patent Document 1 and Patent Document 2).

  UPS is a system that supplies power from a commercial power supply during normal times and supplies power from an inverter during a power failure (so-called “always commercial power supply method”), and a method that supplies power from an inverter during both normal and power failures. (So-called “constant inverter power supply method”). The UPS may have a different switch configuration and control method depending on the power supply method. Therefore, when the current UPS connected to the host device is replaced with a replacement UPS having a different power supply method by maintenance replacement, a conversion board for interface conversion may be required as follows.

  FIG. 11 is a configuration diagram in which the host apparatus 3 and the current UPS 2a are connected. Here, the UPS 2a is a UPS of a commercial power supply system at all times. The first switch 25a is ON / OFF controlled by the signal input / output unit 29b. The second switch 26a is switch-controlled according to the power failure of the commercial power supply 1 detected by the UPS 2a.

  When the commercial power source 1 fails, first, the second switch 26 a is switched to the side connecting the inverter 24 and the AC output unit 27. Next, the host device 3 performs a shutdown process using the AC power supplied from the inverter 24. Thereafter, the first switch 25a is turned OFF, and the output of AC power from the AC output unit 27 is stopped. At this time, the second switch 26 a is switched again to the side connecting the AC input unit 21 and the AC output unit 27.

  When the commercial power source 1 recovers from the power failure (hereinafter referred to as “recovery”), the second switch 26 a connects the AC input unit 21 and the AC output unit 27. Therefore, AC power supplied from the commercial power source 1 is output from the AC output unit 27. As a result, the host device 3 is activated.

  As described above, the UPS 2a controlled by the first switch 25a and the second switch 26a shown in FIG. 11 automatically starts outputting AC power when the commercial power source 1 is restored.

  On the other hand, FIG. 12 is a configuration diagram in which the current product UPS 2 a shown in FIG. 11 is replaced with the alternative product UPS 2. Here, UPS2 is a UPS of a constant inverter feeding method. The first switch 25 is ON / OFF controlled by a start signal (ON signal) and a stop signal (OFF signal) input from the outside to the signal input / output unit 29. The second switch 26 is switch-controlled according to the failure of the UPS 2 detected by the UPS 2.

  When the commercial power supply 1 fails, first, the host device 3 performs a shutdown process. Next, the conversion board 4 outputs an OFF signal to the signal input / output unit 29. As a result, the first switch 25 is turned OFF, and the output of AC power from the AC output unit 27 is stopped. At this time, the first switch 25 maintains OFF in order to prevent overdischarge of the battery 23 during a power failure.

  When the commercial power supply 1 recovers, the conversion board 4 detects the power recovery. The conversion board 4 outputs an ON signal to the signal input / output unit 29. As a result, the first switch 25 is turned on, and the AC power output from the inverter 24 is output from the AC output unit 27. As a result, the host device 3 is activated.

  As described above, the UPS 2 controlled by the first switch 25 and the second switch 26 shown in FIG. 12 starts to output AC power by inputting an ON signal from the outside when the commercial power source 1 is restored. ing.

  As described above, the conversion board 4 connected between the host device 3 and the alternative UPS 2 shown in FIG. 12 needs to output an OFF signal when the commercial power supply 1 is interrupted and an ON signal when the power is restored. There is. Therefore, the power supply means needs to supply DC power to the conversion board 4 from the start of input of AC power to the AC input unit 21 until the output of AC power from the AC output unit 27 stops. There is.

Japanese Patent Application No. 2011-515818 Japanese Patent Application No. 2007-306396

  Referring to FIG. 13 and FIG. 14, a power supply means (hereinafter, “general”) configured to use conventional general technology for supplying power to the conversion board 4 connected to the alternative UPS 2 shown in FIG. Will be described. As shown in FIG. 13, an independent first power supply unit 5 is provided between the AC output unit 27 of the UPS 2 and the conversion board 4. In addition, an independent second power supply unit 6 c is provided between the commercial power supply 1 and the conversion board 4.

  As illustrated in FIG. 14, the first power supply unit 5 includes an AC / DC conversion unit 51 that converts AC power output from the AC output unit 27 into DC power. As a result, the converted DC power is supplied to the conversion board 4. Similarly, the second power supply unit 6 c includes an AC / DC conversion unit 61 c that converts AC power input to the AC input unit 21 into DC power. As a result, the converted DC power is supplied to the conversion board 4.

  As shown in FIG. 15, when the commercial power source 1 fails at time T1, the supply of AC power to the AC input unit 21 is stopped, and the UPS 2 detects the power failure. Further, the supply of DC power from the second power supply unit 6c to the conversion board 4 is stopped. The host device 3 performs a shutdown process.

  When the shutdown process of the host device 3 is completed at time T2, the conversion board 4 outputs an OFF signal to the signal input / output unit 29 using the DC power supplied from the first power supply unit 5. As a result, the first switch 25 is turned OFF, and the output of AC power from the AC output unit 27 is stopped. Further, the supply of DC power from the first power supply unit 5 to the conversion board 4 is stopped, and the power supply to the conversion board 4 is all stopped.

  When the commercial power source 1 recovers at time T3, supply of AC power to the AC input unit 21 is started. The UPS 2 detects the power recovery and performs activation processing. In addition, supply of DC power from the second power supply unit 6c to the conversion board 4 is started, and the conversion board 4 detects power recovery.

  When the startup process of the UPS 2 ends at time T4, the conversion board 4 outputs an ON signal to the signal input / output unit 29 using the DC power supplied from the second power supply unit 6c. As a result, output of AC power from the AC output unit 27 is started, and the host device 3 is activated. In addition, supply of DC power from the first power supply unit 5 to the conversion board 4 is started.

  As described above, the conversion board 4 can output an OFF signal at the time of a power failure of the commercial power supply 1 using the DC power supplied from the first power supply unit 5. Moreover, an ON signal can be output when the commercial power supply 1 is restored using the DC power supplied from the second power supply unit 6c.

  However, the general power supply means requires two independent external power sources (the first power source unit 5 and the second power source unit 6c) and wiring for connecting the external power sources. For this reason, there is a problem that it cannot be installed at a site where the installation space for the interface conversion device is limited or at a site where the number of outlets of the commercial power supply 1 is small. Further, there is a problem that the interface conversion device is expensive.

  The present invention has been made to solve the above-described problems, and can output a start signal from the conversion board to the UPS when the commercial power is restored, and the number of external power supplies for the conversion board can be reduced. An object of the present invention is to provide an uninterruptible power supply system and an interface converter that can be reduced.

  The uninterruptible power supply system according to the present invention includes an AC input unit for inputting power from the outside, an AC output unit for outputting power to the outside, and a signal for a constant voltage power supply according to the input of power to the AC input unit. An uninterruptible power supply comprising a signal input / output unit, an information processing device connected to the AC output unit, and a conversion board (conversion substrate unit) connected between the signal input / output unit and the information processing device ), A first power supply unit connected between the conversion board and the AC output unit and supplying the power output from the AC output unit to the conversion board, and the power obtained from the power signal provided in the conversion board And a second power supply unit that supplies the conversion board.

  The interface converter according to the present invention is connected to the conversion board, converts the AC power input from the outside into DC power and supplies the DC power to the conversion board, and is provided in the conversion board and externally provided. And a second power supply unit for supplying DC power obtained from the power supply signal input to the conversion board to the conversion board, and the conversion board sends an activation signal to the outside in response to the start of power supply from the second power supply unit. It is configured to output.

  According to the uninterruptible power supply system and the interface conversion device of the present invention, it is possible to output a start signal from the conversion board to the UPS when the commercial power is restored, and to reduce the number of external power supplies for the conversion board. .

It is a block diagram of the uninterruptible power supply system of Embodiment 1 of this invention. It is a block diagram of the 1st power supply part of Embodiment 1 of this invention. It is a block diagram of the 2nd power supply part of Embodiment 1 of this invention. The state of the commercial power supply at each time of the first embodiment of the present invention, the AC power input of the AC input unit, the first power supply signal output of the signal input / output unit, the AC power output of the AC output unit, the DC of the first power supply unit It is explanatory drawing which shows operation | movement of a power output, DC power output of a 2nd power supply part, and a host apparatus. It is a block diagram of the uninterruptible power supply system of Embodiment 2 of this invention. It is a block diagram of the 1st power supply part of Embodiment 2 of this invention. It is a block diagram of the 2nd power supply part of Embodiment 2 of this invention. The state of the commercial power supply at each time of Embodiment 2 of the present invention, the AC power input of the AC input unit, the signal output for the second power source of the signal input / output unit, the AC power output of the AC output unit, the DC of the first power source unit It is explanatory drawing which shows operation | movement of a power output, DC power output of a 2nd power supply part, and a host apparatus. It is a block diagram of the uninterruptible power supply system of Embodiment 3 of this invention. It is a block diagram of the 2nd power supply part and signal detection part for power supplies of Embodiment 3 of this invention. It is the block diagram which connected the host apparatus and UPS of the present product. It is the block diagram which connected the host apparatus and UPS of the alternative. It is a block diagram of an uninterruptible power supply system using a general power supply means. It is a block diagram of a general power supply means. State of commercial power supply at each time when using a general power supply means, AC power input of AC input unit, AC power output of AC output unit, DC power output of first power supply unit, DC of second power supply unit It is explanatory drawing which shows an electric power output and driving | operation of a host apparatus.

Embodiment 1 FIG.
With reference to FIGS. 1-3, the uninterruptible power supply system of Embodiment 1 of this invention is demonstrated.
In the figure, 1 is a commercial power source. The commercial power source 1 supplies AC power (AC power) having an effective voltage value of 100 volts (V).

  An AC input unit (AC input unit) 21 is connected to the commercial power source 1. An AC / DC converter (AC / DC converter) 22 is connected to the output of the AC input unit 21. A storage battery (battery) 23 and a DC / AC converter (inverter) 24 are connected to the output of the AC / DC converter 22. An inverter 24 is connected to the output of the battery 23. A first switch 25 is connected to the output of the inverter 24. A second switch 26 is interposed between the output of the AC input unit 21, the first switch 25 and the AC output unit 27. A controller 28 is connected to the output of the AC / DC converter 22 and the output of the battery 23. A signal input / output unit 29 is connected to the control unit 28 and the first switch 25. In this way, the UPS 2 of the constant inverter power supply method is configured.

  The first switch 25 is a switch that turns on / off the connection between the inverter 24 and the AC output unit 27. The first switch 25 is ON / OFF controlled by a start signal (ON signal) and a stop signal (OFF signal) input from the outside to the signal input / output unit 29.

  The second switch 26 is a switch for switching between connecting the AC input unit 21 and the AC output unit 27 or connecting the inverter 24 and the AC output unit 27. The second switch 26 is switch-controlled according to the failure of the UPS 2 detected by the UPS 2.

The signal input / output unit 29 outputs a unique control signal including a backup operation signal, a battery low voltage output signal, and an alarm output signal. The signal input / output unit 29 outputs a communication signal of a serial transmission method (serial transmission method) based on the RS232C (Recommended Standard 232 version C) standard.
In general, most commercially available UPS use RS232C standard communication signals for UPS setting and remote control. The alternative UPS 2 has a configuration using unique control signals, and these communication signals are unused signals.

Here, when the input of AC power to the AC input unit 21 is started and the UPS 2 is activated, a communication signal in which the signal voltage in the initial state becomes a constant voltage is hereinafter referred to as a “first power supply signal”.
In general, in the UPS, signal voltages such as a transmission data (SD) signal, a data terminal ready (DTR) signal, and a transmission request (RTS) signal among communication signals of the RS232C standard are continuous in an initial state when the UPS is activated. The negative voltage is set to -4V to -15V. At least one communication signal including the transmission data (SD) signal, data terminal ready (DTR) signal, or transmission request (RTS) signal can be used as the first power supply signal.

  An information processing device (host device) 3 such as a workstation is connected to the AC output unit 27. Between the host device 3 and the signal input / output unit 29, a conversion substrate unit (conversion board) 4 for interface conversion is connected. The first power supply unit 5 is connected between the AC output unit 27 and the conversion board 4. The conversion board 4 is provided with a second power supply unit 6. The conversion board 4, the first power supply unit 5, and the second power supply unit 6 constitute an interface conversion device.

  As shown in FIG. 2, the first power supply unit 5 includes an AC / DC conversion unit (AC / DC conversion unit) 51 that converts AC power output from the AC output unit 27 into positive DC power (DC power) having a constant voltage. have. As a result, the converted DC power is supplied to the conversion board 4.

As shown in FIG. 3, the second power supply unit 6 includes a direct current direct current conversion unit (DC / DC conversion unit) 61. One input terminal 62 of the DC / DC converter 61 is connected to a signal ground (SG). The n input (n is an integer of 1 or more) first power supply signals output from the signal input / output unit 29 are input in parallel to the other input terminal 63 adjacent to each other via the diodes 64 ₁ to 64 _n. It has become so. A capacitive element (capacitor) 65 is provided between the input terminals 62 and 63 of the DC / DC converter 61. Similarly, a capacitive element (capacitor) 68 is provided between one output terminal 66 connected to the conversion board 4 and the other output terminal 67 electrically grounded.

  Here, the DC / DC conversion unit 61 is configured by, for example, an insulation type DC / DC converter or a charge pump type DC / DC converter. The second power supply unit 6 configured as described above converts the DC power obtained from the first power supply signal having a negative voltage into a DC power having a constant positive voltage (+3 V to +5 V) and supplies the DC power to the conversion board 4. To do.

  The conversion board 4 outputs an ON signal and an OFF signal to the signal input / output unit 29. The operating voltage of the conversion board 4 is a positive voltage of, for example, + 3V to + 5V. The conversion board 4 is configured to use only the DC power supplied from the first power supply unit 5 when DC power is supplied from both the first power supply unit 5 and the second power supply unit 6.

The operation of the uninterruptible power supply system configured as described above will be described with reference to FIG.
When the commercial power source 1 fails at time T1, the supply of AC power to the AC input unit 21 is stopped, and the UPS 2 detects the power failure. The host device 3 performs a shutdown process.

  When the shutdown process of the host device 3 is completed at time T2, the conversion board 4 outputs an OFF signal to the signal input / output unit 29 using the DC power supplied from the first power supply unit 5. As a result, the first switch 25 is turned OFF, and the output of AC power from the AC output unit 27 is stopped. Further, the supply of DC power from the first power supply unit 5 to the conversion board 4 is stopped.

  At this time, the output of the first power supply signal from the signal input / output unit 29 is also stopped, and the signal voltage becomes zero voltage (0 V). Thereby, the supply of DC power from the second power supply unit 6 to the conversion board 4 is also stopped. That is, all power supply to the conversion board 4 is stopped.

  When the commercial power source 1 recovers at time T3, supply of AC power to the AC input unit 21 is started. The UPS 2 detects the power recovery and performs activation processing.

  When the startup process of the UPS 2 is completed at time T4, the output of the first power supply signal from the signal input / output unit 29 is started, and the signal voltage becomes a negative voltage. Thereby, the supply of DC power from the second power supply unit 6 to the conversion board 4 is started, and the conversion board 4 detects power recovery.

  At time T <b> 5, the conversion board 4 outputs an ON signal to the signal input / output unit 29 using the DC power supplied from the second power supply unit 6. As a result, AC output from the AC output unit 27 is started, and the host device 3 is activated. In addition, supply of DC power from the first power supply unit 5 to the conversion board 4 is started.

As described above, the uninterruptible power supply system according to the first embodiment includes an AC input unit 21 that inputs AC power from the outside, an AC output unit 27 that outputs AC power to the outside, and an AC input to the AC input unit 21. The UPS 2 is provided with a signal input / output unit 29 for outputting a first power supply signal having a negative voltage to the outside in response to an input of electric power. The first power supply unit 5 is connected between the conversion board 4 and the AC output unit 27 and converts the AC power output from the AC output unit 27 into DC power and supplies the DC power to the conversion board 4. A second power supply unit 6 is provided on the conversion board 4 and supplies DC power obtained from the first power supply signal to the conversion board 4.
As a result, an OFF signal can be output from the conversion board 4 to the UPS 2 when the commercial power supply 1 is interrupted, and an ON signal can be output from the conversion board 4 to the UPS 2 when power is restored. Further, by reducing the number of external power supplies for the conversion board 4 by one, the installation space and cost of the interface conversion device can be reduced.

The conversion board 4 is configured to use only the DC power supplied from the first power supply unit 5 when DC power is supplied from both the first power supply unit 5 and the second power supply unit 6. .
Thereby, the conversion board 4 uses the DC power obtained from the first power supply signal only at the time of power recovery, so that even if the communication signal used by the UPS 2 for communication during the power recovery of the commercial power supply 1 is the first power supply. Can be used as a signal.

Embodiment 2. FIG.
An uninterruptible power supply system that obtains DC power for a conversion board from a contact driving signal of a relay will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structural member similar to Embodiment 1, and description is abbreviate | omitted.

  The signal input / output unit 29a outputs a unique control signal including a backup operation signal, a battery low voltage output signal, and an alarm output signal. The signal input / output unit 29a outputs a signal for driving a contact of a relay (relay). The signal voltage of the contact driving signal is set to + 5V. This contact driving signal is an unused signal. Here, when the input of AC power to the AC input unit 21 is started and the UPS 2 is activated, the contact driving signal in which the signal voltage in the initial state becomes a positive voltage is hereinafter referred to as “second power supply signal”.

  The conversion board 4 is provided with a second power supply unit 6a. As shown in FIG. 7, the second power supply unit 6 a includes a diode 61 a in which a second power signal is input to the anode and the cathode is connected to the conversion board 4. A capacitive element (capacitor) 62a is provided between the cathode of the diode 61a and the signal ground (SG). The second power supply unit 6 a configured as described above supplies the conversion board 4 with DC power obtained from the positive second voltage signal output from the signal input / output unit 29 a.

The uninterruptible power supply system according to the second embodiment configured as described above operates in the same manner as the uninterruptible power supply system according to the first embodiment.
That is, as shown in FIG. 8, after the commercial power supply 1 fails at time T <b> 1 and the shutdown process of the host device 3 ends at time T <b> 2, the conversion board 4 uses the DC power supplied from the first power supply unit 5. An OFF signal is output to the signal input / output unit 29a. Further, after the commercial power source 1 recovers at time T3, when the startup process of the UPS 2 ends at time T4, the conversion board 4 turns on the signal input / output unit 29a using the DC power supplied from the second power source unit 6a. Output a signal.

As described above, the uninterruptible power supply system according to the second embodiment includes an AC input unit 21 that inputs AC power from the outside, an AC output unit 27 that outputs AC power to the outside, and an AC input to the AC input unit 21. The UPS 2 is provided with a signal input / output unit 29a that outputs a second power supply signal of positive voltage to the outside in accordance with the input of electric power. The first power supply unit 5 is connected between the conversion board 4 and the AC output unit 27 and converts the AC power output from the AC output unit 27 into DC power and supplies the DC power to the conversion board 4. A second power supply unit 6 is provided on the conversion board 4 and supplies DC power obtained from the second power supply signal to the conversion board 4.
As a result, an OFF signal can be output from the conversion board 4 to the UPS 2 when the commercial power supply 1 is interrupted, and an ON signal can be output from the conversion board 4 to the UPS 2 when power is restored. Further, by reducing the number of external power supplies for the conversion board 4 by one, the installation space and cost of the interface conversion device can be reduced.

Embodiment 3 FIG.
With reference to FIGS. 9 and 10, an uninterruptible power supply system provided with a power supply signal detection unit for detecting a first power supply signal included in a communication signal will be described. In addition, the same code | symbol is attached | subjected to the structural member similar to Embodiment 1, and description is abbreviate | omitted.

  The negative voltage communication signal output from the signal input / output unit 29 is input in parallel to the input terminal 63 of the DC / DC conversion unit 61 of the second power supply unit 6b.

  A power signal detector 7 is provided on the conversion board 4. The power signal detection unit 7 is connected to the signal ground (SG) of the second power supply unit 6b and a line to which each communication signal is input. The power signal detection unit 7 detects a first power signal included in the communication signal input to the second power supply unit 6b.

The operation of the uninterruptible power supply system of the third embodiment configured as described above will be described.
When input of AC power to the AC input unit 21 is started, the signal input / output unit 29 starts outputting a communication signal. At this time, the power signal detection unit 7 detects a first power signal in which the signal voltage in the initial state is a negative voltage among all the communication signals input to the second power supply unit 6b.

  Thereby, when the commercial power supply 1 is restored after the next power failure, the second power supply unit 6b can supply the conversion board 4 with DC power obtained from an appropriate first power supply signal.

As described above, the uninterruptible power supply system according to the third embodiment is a power supply signal that is provided in the conversion board 4 and that detects the first power supply signal included in the communication signal input to the second power supply unit 6b. A detection unit 7 is provided.
Accordingly, an appropriate communication signal can be used as the first power supply signal in accordance with the settings and specifications of the UPS 2.

The input terminal 63 may receive all communication signals output from the signal input / output unit 29. Among these, the anodes and the cathodes of the diodes 64 ₁ to 64 _n corresponding to the positive voltage communication signal are connected in the opposite direction to FIG. Also, by connecting a switch in series to the diodes 64 ₁ to 64 _n, which is used for communication among the positive voltage communication signals it may be configured to prevent from being converted into electric power.

  In the present invention, within the scope of the invention, any combination of the embodiments, or any modification of any component in each embodiment, or omission of any component in each embodiment is possible. .

1 Commercial power supply 2, 2a Uninterruptible power supply (UPS)
3 Information processing device (host device)
4 Conversion board (conversion board)
5 1st power supply part 6, 6a, 6b, 6c 2nd power supply part 7 Power supply signal detection part 21 AC input part (AC input part)
22 AC / DC converter (AC / DC converter)
23 Battery
24 DC-AC converter (inverter)
25, 25a 1st switch 26, 26a 2nd switch 27 AC output part (AC output part)
28 Control Units 29, 29a, 29b Signal Input / Output Unit 51 AC / DC Converter (AC / DC Converter)
61 DC / DC converter (DC / DC converter)
62, 63 Input terminals 64 ₁ to 64 _n Diode 65, 68 Capacitance element (capacitor)
66, 67 Output terminal 61a Diode 62a Capacitance element (capacitor)
61c AC / DC converter (AC / DC converter)

Claims (7)

An AC input unit for inputting power from the outside, an AC output unit for outputting power to the outside, and a signal input / output unit for outputting a constant-voltage power supply signal to the outside according to the input of power to the AC input unit; An uninterruptible power supply comprising:
An information processing apparatus connected to the AC output unit;
A conversion board connected between the signal input / output unit and the information processing device;
A first power supply unit connected between the conversion substrate unit and the AC output unit and supplying the power output from the AC output unit to the conversion substrate unit;
A second power supply unit provided on the conversion board unit and supplying power obtained from the power supply signal to the conversion board unit;
An uninterruptible power supply system comprising: The uninterruptible power supply is configured to start output of power from the AC output unit in response to a start signal input from the outside to the signal input / output unit,
The said conversion board part is comprised so that the said start signal may be output to the said signal input / output part according to the start of supply of the electric power from a said 2nd power supply part. Power outage system.   The conversion board unit is configured to use only power supplied from the first power supply unit when power is supplied from both the first power supply unit and the second power supply unit. The uninterruptible power supply system according to claim 1 or 2. The signal input / output unit is configured to output a serial transmission communication signal including the power signal.
The said 2nd power supply part is comprised so that the electric power obtained from the said communication signal of a negative voltage may be supplied to the said conversion board part, The any one of Claims 1-3 characterized by the above-mentioned. The uninterruptible power supply system described. The signal input / output unit is configured to output a relay contact driving signal including the power signal.
The said 2nd power supply part is comprised so that the electric power obtained from the said contact drive signal of a positive voltage may be supplied to the said conversion board | substrate part, The any one of the Claims 1-3 characterized by the above-mentioned. The uninterruptible power supply system according to item 1.   5. The power supply signal detection unit according to claim 4, further comprising a power supply signal detection unit that is provided on the conversion substrate unit and detects the power supply signal included in the communication signal input to the second power supply unit. Power outage system. A first power supply unit connected to the conversion board unit and converting AC power input from the outside into DC power and supplying the converted power to the conversion board unit;
A second power supply unit that is provided in the conversion board unit and that supplies DC power obtained from a power signal input from the outside to the conversion board unit;
The conversion board unit is configured to output an activation signal to the outside in response to the start of supply of power from the second power supply unit.

Images