JP2013126332A - Power control system, power supply unit device, and power control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power control system capable of maintaining power at a threshold or lower, the power supplied to a power supply destination device from a power supply unit device.SOLUTION: A power control method includes: detecting a power volume supplied to a power supply destination device on the basis of input power; controlling start of power supply to the power supply destination device from a battery unit device in a case where the power volume supplied to the power supply destination device exceeds a predetermined threshold; and controlling the power volume to be supplied to the power supply destination device from the power supply unit device and the power volume to be supplied to the power supply destination device from the battery unit device so that the power volume supplied to the power supply destination device falls within the predetermined threshold.

Description

  The present invention relates to a power control system, a power supply unit device, and a power control method for controlling power supply to a power supply destination device.

  In the information processing apparatus constituting the information processing system, when the processing amount of the information processing system increases, the power consumption of devices such as CPU and HDD used inside increases. This also increases the power consumption of the entire information system. By the way, when the power consumption increases in each of a plurality of information processing devices constituting the information system, the sum of the amount of power input from the power supply unit that supplies power to these information processing devices and the amount of power supplied to each information processing device Increase. Therefore, it is necessary to reduce the load on the power supply unit due to such a temporary increase in the amount of information processing. Here, a mechanism is used in which a battery unit device is provided in the information processing system to prepare for an increase in power consumption in the temporary information processing device.

For example, Patent Document 1 describes a technology that includes a main power supply unit and a UPS power supply unit, and controls the power supplied from these power supply units to a load at a predetermined ratio.
Patent Document 2 describes a technology that includes a battery for storing electric power and temporarily supplies electric power from the battery.

JP-A-9-322433 JP 11-337148 A

  However, in the techniques of Patent Document 1 and Patent Document 2 described above, the power supplied by the power supply unit to the information processing apparatus serving as a load when the power consumption of the load such as the information processing system increases is less than or equal to the threshold value. It was not possible to perform control to keep the

  Therefore, an object of the present invention is to provide a power control system, a power supply unit device, and a power control method that can solve the above-described problems.

  In order to achieve the above object, the present invention provides a power supply amount detection unit that detects the amount of power supplied to a power supply destination device using input power, and supplies power to the power supply destination device. A power control unit that controls start of power supply from the battery unit device to the power supply destination device when the amount of power exceeds a predetermined threshold, and the power unit device includes: An amount of power supplied from the own device to the power supply destination device so that the amount of power supplied to the power supply destination device by the power control unit does not exceed a predetermined threshold; A power control system that controls an amount of power supplied to a power supply destination device.

  The present invention also provides a supply power amount detection unit that detects the amount of power supplied to the power supply destination device using the input power, and the amount of power supplied to the power supply destination device is a predetermined threshold value. A power control unit that controls the start of power supply from the battery unit device to the power supply destination device when the power supply unit device exceeds the power supply unit, and the power control unit has an amount of power supplied to the power supply destination device. Controlling the amount of power supplied from the own device to the power supply destination device and the amount of power supplied from the battery unit device to the power supply destination device so as not to exceed a predetermined threshold. It is a power supply unit device.

  The present invention is also a power control method for a power control system, wherein the amount of power supplied to a power supply destination device using the input power is detected, and the power supplied to the power supply destination device is detected. When the amount exceeds a predetermined threshold, the start of power supply from the battery unit device to the power supply destination device is controlled, so that the amount of power supplied to the power supply destination device does not exceed the predetermined threshold. It is a control method characterized by controlling the amount of power supplied from its own device to the power supply destination device and the amount of power supplied from the battery unit device to the power supply destination device.

  ADVANTAGE OF THE INVENTION According to this invention, control which keeps the electric power supplied from a power supply unit apparatus with respect to a power supply destination apparatus below a threshold value can be performed.

It is a 1st figure which shows the structure of an electric power control system. It is a 2nd figure which shows the structure of an electric power control system. It is a figure which shows the processing flow of an electric power control system.

Hereinafter, a power control system according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a first diagram showing a configuration of a power control system according to the embodiment.
As shown in this figure, the power control system includes a power supply unit device 1, an information processing device 2 that is a power supply destination device, and a battery unit device 3.
In addition, the power supply unit device 1 includes a supplied power amount detection unit 11 that detects the amount of power supplied to the information processing device 2 using the input power, and the amount of power supplied to the information processing device 2. And a power control unit 12 configured to control power supply from the battery unit device 3 to the information processing device 2 when a predetermined threshold value is exceeded. The power supply unit device 1 is assumed to have a function of converting input power into output power necessary for the information processing device 2.

In such a power control system, the power control unit 12 of the power supply unit device 1 controls the information processing device 2 from its own device so that the amount of power supplied to the information processing device 2 does not exceed a predetermined threshold. The amount of power to be supplied and the amount of power to be supplied from the battery unit device 3 to the power supply destination device are controlled.
Through such control, the power control system according to the present embodiment performs control to keep the power supplied from the power supply unit device 1 to the information processing device 2 serving as a load below a threshold value.

FIG. 2 is a second diagram showing the configuration of the power control system according to the embodiment.
Next, details of the power control system will be described.
As shown in FIG. 2, the power supply unit device 1 constituting the power control system includes a current detection circuit 13 and a voltage detection circuit 14 in addition to the supply power amount detection unit 11 and the power control unit 12 described in FIG. 1. . The current detection circuit 13 detects the value of the current flowing through the power line connecting the power supply unit device 1 and the information processing device 2. Further, the current detection circuit 13 outputs the detected current value to the supply power amount detection unit 11. The voltage detection circuit 14 detects the voltage value of the power line connecting the power supply unit device 1 and the information processing device 2. Further, the voltage detection circuit 14 outputs the detected voltage value to the supply power amount detection unit 11.

  The information processing apparatus 2 includes a control unit 21 and an information processing unit 22. The control unit 21 is a processing unit that controls the information processing apparatus 2, and the information processing unit 22 is controlled by the control unit 21. The information processing unit 22 is a processing unit that performs main processing of the information processing device 2. For example, if the information processing device 2 is a router that constitutes an information system, the information processing unit 22 performs processing for realizing the function as the router. Moreover, if the information processing apparatus 2 is a web server which comprises an information system, the process for implement | achieving the function as the said web server will be performed.

The battery unit device 3 includes a battery control unit 30, a charge amount detection unit 31, a charge amount lower limit reaching notification unit 32, and a battery 33.
The battery control unit 30 controls the power output of the battery 33. The battery 33 is configured by a storage battery that accumulates power supplied from a commercial power source. The charge amount detection unit 31 detects the charge amount of the battery 33. The charge amount lower limit arrival notification unit 32 inputs the value of the charge amount detected from the charge amount detection unit 31, and when the charge amount reaches the lower limit value, the charge indicating that the charge amount has reached the lower limit An amount lower limit reaching signal is transmitted to the information processing device 2.

  In FIG. 2, solid arrows indicate the flow of electric power, and broken arrows indicate the flow of control signals.

FIG. 3 is a diagram showing a processing flow of the power control system.
Next, details of the processing of the power control system will be described in order.
First, the power supply unit device 1 supplies power obtained from a commercial power supply to the information processing device 2. Thereby, the information processing apparatus 2 performs predetermined information processing. In such a situation, the current detection circuit 13 of the power supply unit device 1 detects the value of the current flowing through the power line connecting the power supply unit device 1 and the information processing device 2 and outputs the value to the supply power amount detection unit 11. Further, the voltage detection circuit 14 of the power supply unit device 1 detects the value of the voltage of the power line connecting the power supply unit device 1 and the information processing device 2 and outputs it to the supplied power amount detection unit 11.

  The supplied power amount detection unit 11 inputs a current value and a voltage value, and calculates a power value from the product of them. Then, the supplied power amount detection unit 11 repeatedly calculates the power value at a predetermined timing, and calculates the power amount supplied to the information processing device 2 per unit time by the integration in the unit time (step S101). Then, the supplied power amount detection unit 11 outputs the calculated power amount per unit time to the power control unit 12. When the power amount per unit time supplied to the information processing device 2 is input, the power control unit 12 determines whether the power amount has exceeded a threshold value (step S102). And when it determines with the electric energy per unit time supplied exceeding the threshold value, the electric power control part 12 determines the electric energy per unit time which the battery unit apparatus 3 should output (step S103). Next, the power control unit 12 is a signal that instructs the battery unit device 3 to output power, and a power supply start signal that indicates the amount of power per unit time that the battery unit device 3 should output. It outputs to the battery unit apparatus 3 (step S104). If the amount of power supplied per unit time does not exceed the threshold value in step S102, the process in step S101 is repeated.

  Here, in the above-described step S103, when the power control unit 12 first detects that the power amount per unit time to be supplied exceeds the threshold value, for example, the power amount indicated by the threshold value + the power amount 50 of α is 50. % Is determined to be supplied by the power supply unit device 1 to the information processing device 2 per unit time. Then, the power control unit 12 performs control for supplying 50% of the threshold power amount + α to the information processing apparatus 2 per unit time. That is, in step S104, the power control unit 12 outputs to the battery unit device 3 a power supply start signal that instructs to supply 50% of the threshold power amount + α to the information processing device 2 per unit time.

  The value α is set to be a large value every time it is determined that the power amount per unit time detected by the supplied power amount detection unit 11 exceeds the threshold value. Thereby, whenever the power amount per unit time detected by the supplied power amount detection unit 11 exceeds the threshold, the sum of the power supplied by the power supply unit device 1 and the power amount per unit time supplied by the battery unit device 3 Can be increased. Here, the power control unit 12 may output to the battery unit device 3 a power supply start signal instructing to supply only the amount of power indicated by α. That is, the power control unit 12 determines the power supplied by the power supply unit device 1 and the battery unit device 3 so that the amount of power per unit time supplied to the information processing device 2 by the power supply unit device 1 does not exceed the threshold value. To do.

  Next, in the battery unit device 3, the battery control unit 30 inputs a power supply start signal. Then, the battery control unit 30 turns on a switch that controls power supply from the battery 33 and starts power supply to the information processing apparatus 2 (step S105). At this time, the battery control unit 30 supplies power to the information processing apparatus 2 with the amount of power per unit time indicated by the power supply start signal. After starting the power supply to the information processing apparatus 2, the battery control unit 30 determines whether or not a power supply stop signal has been input (step S106), and if not input, proceeds to the next process.

  Then, the charge amount detection unit 31 of the battery unit device 3 detects the charge amount of the battery 33 and outputs it to the charge amount lower limit notification unit 32. The charge amount lower limit notification unit 32 determines whether the charge amount input from the charge amount detection unit 31 has reached the lower limit (step S107). When the charge amount of the battery 33 reaches the lower limit, the charge amount lower limit notification unit 32 transmits a charge amount lower limit reach signal to the information processing device 2 (step S108). Further, the battery control unit 30 turns off the switch that controls the power supply from the battery 33, and stops the power supply to the information processing apparatus 2 (step S109).

  Next, in the information processing apparatus 2, the control unit 21 detects the input of the charge amount lower limit reaching signal. Then, the control unit 21 performs a process for reducing the power consumption of the information processing apparatus 2. Alternatively, a signal that instructs the power supply unit device 1 to increase the threshold value may be output. Note that the process of reducing the power consumption of the information processing apparatus 2 is, for example, a setting change process for stopping a predetermined function.

  The process of reducing the power consumption of the information processing apparatus 2 by the control unit 21 and the process of outputting a signal for instructing the power supply unit apparatus 1 to increase the threshold value do not reduce the power consumption per unit time of the information processing apparatus 2 and This is the final means when the amount of charge of the battery unit 3 reaches the lower limit. That is, if the amount of power per unit time supplied by the power supply unit device 1 falls below the threshold before the amount of charge of the battery unit device 3 reaches the lower limit, the power supply from the battery unit device 3 stops. The amount of charge of the battery 33 increases. In performing such processing, the power control unit 12 of the power supply unit device 1 determines whether the amount of power per unit time supplied to the information processing device 2 falls below the threshold after outputting the power supply start signal ( Step S110). When the amount of power per unit time supplied to the information processing device 2 falls below the threshold, the power control unit 12 outputs a power supply stop signal to the battery unit device 3 (step S111). Then, the battery control unit 30 turns off the switch that controls the power supply from the battery 33 and stops the power supply to the information processing apparatus 2.

  As mentioned above, although embodiment of this invention was described, according to the above-mentioned electric power control system, control which keeps the electric power supplied from the power supply unit apparatus 1 with respect to the information processing apparatus 2 used as load below a threshold value can be performed. .

  In addition, each apparatus of the above-mentioned power supply unit apparatus 1, the information processing apparatus 2, and the battery unit apparatus 3 may have a computer system inside. Each process described above is stored in a computer-readable recording medium in the form of a program, and the above process may be performed by the computer reading and executing the program. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.

  The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, what is called a difference file (difference program) may be sufficient.

  A part or all of the above embodiment is described as in the following supplementary notes, but is not limited thereto.

(Supplementary Note 1) A supply power amount detection unit that detects the amount of power supplied to the power supply destination device using the input power;
A power control unit that controls a start of power supply from the battery unit device to the power supply destination device when an amount of power supplied to the power supply destination device exceeds a predetermined threshold value. Have
The amount of power supplied from the own device to the power supply destination device so that the amount of power supplied to the power supply destination device by the power control unit of the power supply unit device does not exceed a predetermined threshold; A power control system that controls the amount of power supplied from the battery unit device to the power supply destination device.

(Appendix 2) The battery unit device is:
A charge amount lower limit arrival notification unit that transmits a charge amount lower limit reaching signal indicating that the charge amount has reached the lower limit to the power supply destination device when the charge amount has reached a lower limit;
The power control system according to claim 1, further comprising:

(Additional remark 3) The electric power control part of the said battery unit apparatus is the electric energy supplied with respect to the said electric power supply destination apparatus from an own apparatus, and the electric energy supplied with respect to the said electric power supply destination apparatus from the said battery unit apparatus. Controlling the amount of power supplied from the own device to the power supply destination device and the amount of power supplied from the battery unit device to the power supply destination device so that the same amount of power is obtained. The power control system according to Supplementary Note 1 or Supplementary Note 2.

(Supplementary Note 4) A supply power amount detection unit that detects the amount of power supplied to the power supply destination device using the input power;
A power control unit that controls start of power supply from a battery unit device to the power supply destination device when an amount of power supplied to the power supply destination device exceeds a predetermined threshold;
The power control unit includes an amount of power supplied from the own device to the power supply destination device so that an amount of power supplied to the power supply destination device does not exceed a predetermined threshold, and from the battery unit device. A power supply unit device that controls the amount of power supplied to the power supply destination device.

(Supplementary Note 5) The power control unit is configured such that the amount of power supplied from the own device to the power supply destination device is the same as the amount of power supplied from the battery unit device to the power supply destination device. The supplementary note 4 controls the amount of power supplied from the own device to the power supply destination device and the amount of power supplied from the battery unit device to the power supply destination device. Power supply unit device.

(Appendix 6) A power control method for a power control system,
Detect the amount of power supplied to the power supply destination device using the input power,
Controlling the start of power supply from the battery unit device to the power supply destination device when the amount of power supplied to the power supply destination device exceeds a predetermined threshold;
The amount of power supplied from the own device to the power supply destination device so that the amount of power supplied to the power supply destination device does not exceed a predetermined threshold, and the battery unit device to the power supply destination device And controlling the amount of electric power to be supplied.

(Supplementary Note 7) From the own device, the power amount supplied from the own device to the power supply destination device and the power amount supplied from the battery unit device to the power supply destination device are the same. The power control method according to appendix 6, wherein the amount of power supplied to the power supply destination device and the amount of power supplied from the battery unit device to the power supply destination device are controlled.

DESCRIPTION OF SYMBOLS 1 ... Power supply unit apparatus 11 ... Supply electric energy detection part 12 ... Power control part 2 ... Information processing apparatus 21 ... Control part 22 ... Information processing part 3 ... Battery unit apparatus 30 ... Battery control unit 31 ... Charge amount detection unit 32 ... Charge amount lower limit notification unit 33 ... Battery

Claims (7)

A supply power amount detection unit that detects the amount of power supplied to the power supply destination device using the input power; and
A power control unit that controls a start of power supply from the battery unit device to the power supply destination device when an amount of power supplied to the power supply destination device exceeds a predetermined threshold value. Have
The amount of power supplied from the own device to the power supply destination device so that the amount of power supplied to the power supply destination device by the power control unit of the power supply unit device does not exceed a predetermined threshold; A power control system that controls the amount of power supplied from the battery unit device to the power supply destination device. The battery unit device is:
A charge amount lower limit arrival notification unit that transmits a charge amount lower limit reaching signal indicating that the charge amount has reached the lower limit to the power supply destination device when the charge amount has reached a lower limit;
The power control system according to claim 1, further comprising: The power control unit of the battery unit device has the same amount of power as the amount of power supplied from the own device to the power supply destination device and the amount of power supplied from the battery unit device to the power supply destination device. The amount of power supplied from the own device to the power supply destination device and the amount of power supplied from the battery unit device to the power supply destination device are controlled. The power control system according to claim 2. A supply power amount detection unit that detects the amount of power supplied to the power supply destination device using the input power; and
A power control unit that controls start of power supply from a battery unit device to the power supply destination device when an amount of power supplied to the power supply destination device exceeds a predetermined threshold;
The power control unit includes an amount of power supplied from the own device to the power supply destination device so that an amount of power supplied to the power supply destination device does not exceed a predetermined threshold, and from the battery unit device. A power supply unit device that controls the amount of power supplied to the power supply destination device. The power control unit is configured so that the amount of power supplied from its own device to the power supply destination device is the same as the amount of power supplied from the battery unit device to the power supply destination device. 5. The power supply unit according to claim 4, wherein a power amount supplied from the device to the power supply destination device and a power amount supplied from the battery unit device to the power supply destination device are controlled. apparatus. A power control method for a power control system, comprising:
Detect the amount of power supplied to the power supply destination device using the input power,
Controlling the start of power supply from the battery unit device to the power supply destination device when the amount of power supplied to the power supply destination device exceeds a predetermined threshold;
The amount of power supplied from the own device to the power supply destination device so that the amount of power supplied to the power supply destination device does not exceed a predetermined threshold, and the battery unit device to the power supply destination device And controlling the amount of power supplied to the power control method. The power supply destination from the own device so that the amount of power supplied from the own device to the power supply destination device is the same as the amount of power supplied from the battery unit device to the power supply destination device. The power control method according to claim 6, wherein the amount of power supplied to the device and the amount of power supplied from the battery unit device to the power supply destination device are controlled.

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