JP2002244769A - Power control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To control on/off of a power supply of a system control device in corresponding to on/off of a power supply SW of a display device and to respond to the change in the display device. SOLUTION: A consumed current value of the display device is measured beforehand and the measurement result is set to a current reference value for on/off determination of the display device. The current value of the display device is compared with the reference value so as to determine the on/off of the power supply SW of the display device, and control the on/off of the power of the system control device corresponding thereto.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to power control of a system such as a bank terminal system, which is composed of a common system control device and a plurality of peripheral devices connected thereto. .

[0002]

2. Description of the Related Art Conventionally, for example, Japanese Unexamined Patent Application Publication No.
8 As proposed in "Power control device", it is possible to automatically determine whether the power switch of the display device has been turned on / off, transmit the result to the system control device, and perform power control of the control device and peripheral devices. Are known. But,
Conventionally, this automatic determination is based on the setting of a predetermined threshold value for current detection for a dedicated display device.

[0003]

In the above prior art, a current consumption value of a display device to be used is measured in advance, and a value serving as a criterion for ON / OFF of the display device is uniquely assigned to the power supply control device. By setting
Power control including peripheral devices has been performed by detecting the power on / off of the display device. Therefore, when the display device is changed to a new different model, the set value becomes an inappropriate value, and power control corresponding to ON / OFF of the display device cannot be performed properly. However, this point is not considered at all. Did not.

In a display device operating in a low power consumption mode, even if the display device type is the same,
Normally, there is a large variation in the currents in the individual low power consumption modes. If the currents in the low power consumption modes are uniformly set, it is necessary to turn on / off the appropriate display device.
There is a possibility that power control corresponding to turning off cannot be performed.

As a result, if the display device is changed, it is necessary to reset the judgment criterion corresponding to the ON / OFF of the display device of the power control device, and depending on the type of the display device, the display device is individually turned on / off. However, there is a problem that a power supply control device in which a determination reference value corresponding to the above is set is required.

An object of the present invention is to provide a power supply control device that solves these problems.

[0007]

According to the present invention, in an environment where a computer system having such a power supply control device is operated, when the display device is changed, the user purchases the display device by himself. Instead of replacing the display device, it is noted that the operation is performed by the system engineer.
A means for setting a criterion for turning off is incorporated, and the system engineer can easily update the criterion for turning on / off the display device.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing an example of a computer system configuration to which a power supply control device according to an embodiment of the present invention is applied. Reference numeral 1 denotes a display device, which is turned on when the user turns on the switch SW before use, and turned off when the user stops. Reference numeral 2 shown by a dashed line indicates a power control device,
This is the subject of the present invention. The power supply control device 2 is supplied with commercial AC100V, and the display device 1 is connected to the DSP terminal of the power supply control device 2 to obtain a power supply of AC100V. Reference numeral 11 denotes a system control device, which is supplied with commercial AC100V. The system control device 11 is a so-called system control device of a personal computer used by the user. The power supply is turned on and off by the power supply control device 2, and the user only turns on and off the switch SW of the display device 1. Is good. The display device 1 has a video signal 12
Are supplied from the system controller 11 and various data are displayed on the screen.

Since the computer system to which the power supply control device of the embodiment of the present invention is applied is controlled only by turning on and off the switch SW of the display device 1 of the user, the power supply control device 2 is controlled by the user. It is important that the on / off state of the switch SW of the display device 1 can be accurately detected.

Reference numeral 3 denotes a current-to-voltage converter, which converts the current consumption of the display device 1 into a voltage signal. In this embodiment, it is assumed that the current-voltage converter 3 outputs an AC current as a DC voltage, although it is not clear in the figure. Reference numeral 4 denotes a changeover switch, A is a terminal connected when a system engineer sets a determination reference corresponding to ON / OFF of the display device 1, and B is a terminal connected during normal use. Reference numeral 5 denotes an A / D converter, which converts the voltage of the current / voltage converter 3 into digital data and outputs the digital data. Reference numeral 6 denotes a measured value storage unit which stores data converted by the A / D converter 5.

Reference numeral 7 denotes a reference value generating circuit, which is a measured value of the current according to the use state of the display device 1, that is, a reference value according to the use state of the display device 1 according to the storage value of the measured value storage unit 6. A circuit that generates a value. In an embodiment, the reference value generating circuit 7 is provided with three circuits 7 _1, 7 ₂ and 7 _3. Reference value generating circuit ₇₁ generates a reference value corresponding to the current flowing when the display apparatus 1 is turned on. Reference value generating circuit 7 ₂ is a display device 1 is turned on, but generates a reference value corresponding to the current flowing in the case that is the low power consumption mode. Then, the reference value generation circuit 7 ₃ generates a reference value corresponding to the current flowing when the display apparatus 1 is turned off. When the display device 1 is turned off,
The display itself does not need a current, but when the display device 1 is supplied with power via a stabilized power supply (not shown), a current consumed by the stabilized power supply flows. Here, the A / D converter 5 and the measured value storage 6
Although not specifically described, the reference value generating circuit 7 converts an analog input into digital data and stores it, and generates a predetermined voltage in accordance with the stored digital data, When falls,
Any digital circuit that can maintain the previously set state can be employed. In addition, since it is described that the later-described comparison circuit 8 performs analog comparison, an analog voltage is output as a final output.

Reference numeral 8 denotes a comparison circuit. In the embodiment, two comparison circuits 8 ₁ and 8 ₂ are provided. The comparison circuit 8 outputs the output signal of the current / voltage converter 3 and the reference value generation circuit 7 when the changeover switch 4 is switched to the normal side.
Is compared with the reference value at which the error occurs. Comparison circuit 8
_1, the output signal of the current-voltage converter 3, the reference value generating circuit ₇₁ of the output signal or display device 1 is turned on for generating a reference value corresponding to the current flowing when the display apparatus 1 is turned on is the case, to generate a resultant signal of the comparison with any of the reference value generating circuit 7 and _second output signals for generating a reference value corresponding to the current flowing in the case that is the low power consumption mode. Whether to use the signal of the reference value generating circuit 7 _1, 7 ₂ switches the selector 9. For example, the changeover switch 9 leave shall be always connected to the reference value generating circuit ₇₁ side, that video signal 12 to the display device 1 of the system control device 11 is in the only horizontal and vertical synchronization signals it can be made to switch to the reference value generating circuit 7 ₂ side by the changeover switch 9 detects and. That is, in the low power consumption mode, since there is no display data on the screen, the video signal 1
Since 2 is only the synchronization signal is to switch to select the output signal of the reference value generating circuit 7 ₂ when this is detected. The circuit for determining whether or not the video signal 12 is only a synchronization signal may be provided in the system control device 11 or the power supply control device 2. In the figure, a determination circuit (not shown) is provided in the system control device 11, and the video signal 12
Is represented as being transmitted to the power supply control device 2 by the signal 13 indicating that only the synchronization signal has been obtained. Comparison circuit ₈₂ receives the output signal of the current-voltage conversion unit 3, the display device 1 is a comparison between the output signal of the reference value generating circuit 7 ₃ for generating a reference value corresponding to the current flowing when it is turned off Generate the resulting signal.

As will be described later, the reference value generating circuits 7 ₁ and 7 ₂ provide a reference value corresponding to 80% of the current flowing when the display device 1 is turned on, and the display device 1 operates in the low power consumption mode. Assuming that generates a reference value corresponding to 80% of the current flowing when going on, a signal "1" in any case the comparison circuit ₈₁ is the display device 1 is turned on or the low-power consumption mode on the Output. Meanwhile, the reference value generating circuit 7 _3, as described later, if one display device 1 generates a reference value corresponding to 110% of the current flowing when it is turned off, the comparator circuit ₈₂ is a display When the device 1 is off, a signal "1" is output.

[0015] Thus, since the comparison circuit ₈₁ outputs a signal "1" when the display apparatus 1 is turned on, to convey the signal to the system controller 11 and not shown peripheral circuit, the system controller 11 and A peripheral circuit (not shown) may be turned on. In this case, in order to avoid malfunction due to transient noise signals, the comparison circuit ₈₁ of the signal through a delay circuit 16 "1" is good to turn on and confirm that continues for a predetermined time. In order for the output of the ON signal, the reference value generating circuit 7 ₂ is not required, which is intended to be utilized for a reliable reduction of the output of the OFF signal described later.

[0016] 10 is a NOT circuit, and outputs a signal obtained by inverting the comparator circuit ₈₁ of the signal. 15 is a matching circuit (AND
Gate), and outputs only when both inputs become "1". Reference numeral 16 denotes a delay circuit which outputs a signal "1" when an input signal continues for a predetermined time. The signal of the delay circuit 16 is sent to the system controller 11 and peripheral circuits (not shown) to turn off the system controller 11 and peripheral circuits (not shown). That is, the comparison circuit 8, the negation circuit 10, and the coincidence circuit 15 determine
When a current larger than the current corresponding to the case where the display device 1 is on or in the low power consumption mode is on does not flow, and only about the current flowing when the display device 1 is off is flowing. That is to say. Therefore, according to this determination, the system controller
11 and peripheral circuits (not shown) may be turned off.

Although not shown in the drawings, it is needless to say that the power supply control device itself has an appropriate power supply for driving the above-described various circuits. It is even more convenient that this power supply can be output stably in the event of a short-term commercial power failure.

Here, the current consumption of the display device 1 will be described with reference to FIG. FIG. 2 is a diagram schematically showing the state of current consumption when the display device 1 is turned on at time t ₀ , and then turned off after shifting to the low consumption mode. First, a rush current flows immediately after being turned on, so that a large current flows temporarily but calms down after a while. The consumption current of the display device 1 at the time t _{1 when} the current has settled is indicated by i ₁ , the consumption current of the display device 1 in the low consumption mode is indicated by i ₂ ,
The current consumption of the display device 1 when it is off is indicated by i ₃ .
As described above, the current consumption i ₃ of the display device 1 in the off state is, for example, the current consumption of the stabilized power supply. Here, looking at the current consumption of the display device 1 for i _1, although it is natural to vary to some extent on whether a bright or dark display screen, the change may be considered that approximately 10%. Current consumption i of display device 1 in low consumption mode
₂ does not vary much. Therefore, the current i ₁ and the current i
During each 80% of the magnitude of the _second on-display device 1, as a reference value in the low consumption mode, 11 of the current i ₃
By setting 0% as the reference value when the display device 1 is turned off, the system control device 11 and the peripheral circuit (not shown) can be properly turned off when the display device 1 is turned off.

Next, a procedure in which the above setting is performed by a system engineer will be described with reference to FIG.

First, AC100V of the display device 1
Is connected to the power control device 2, and then the switch SW of the display device 1 is turned on. The switch SW4 of the power supply control device 2 is set to A: setting side. The output from the A / D conversion unit 5 is stored in the measured value storage unit 6 after the lapse of time from time t ₀ to t ₁ is confirmed. Setting a reference value generating circuit ₇₁ to generate a 80% equivalent of the voltage measurement value storage unit 6 on the stored value. Thus, the reference value for confirming that the display device 1 is in the normal use state has been set.

Next, it waits until the display device 1 enters the low power consumption mode. After that, it is confirmed that the display device 1 is in the state at the time t ₂ , and the output of the A / D converter 5 is stored in the measured value storage 6. Setting a reference value generating circuit 7 ₂ so as to generate a 80% equivalent of the voltage measurement value storage unit 6 on the stored value. Thus, the reference value for confirming that the display device 1 is in the use state in the low power consumption mode has been set.

Next, the switch of the display device is turned ON → O
Switch to FF. After that, it is confirmed that the display device 1 is in the state at the time t ₃ , and the output of the A / D converter 5 is stored in the measured value storage 6. Setting a reference value generating circuit 7 ₃ to generate 110% equivalent voltage measurement value storage unit 6 on the stored value. Thus, the reference value for confirming that the display device 1 is in the off state has been set.

When the setting of these three reference values is completed, the switch SW4 of the power supply control device 2 is set to A: normal side. Thus, the setting of the criterion corresponding to the ON / OFF of the display device is easily completed by the system engineer.

After these three reference values have been set, the switch SW4 of the power supply control unit 2 is set to A: normal side, and when the system is restarted, the switch of the display device 1 is turned on shortly. Time after system controller 1
1 and the peripheral devices are turned on. If left unattended for a while, the screen of the display device 1 becomes dark because the system control device 11 shifts to the low power consumption mode, but the power sources of the system control device 11 and the peripheral devices remain on. Thereafter, when the SW of the display device 1 is turned off, the power of the system control device 11 and the peripheral devices is turned off after a short time.

The present invention is not limited to the case where the system is newly explained, but is naturally applicable to the updating of the reference value when the display device 1 is replaced with a new model. In the present invention,
After the system has been set up or updated,
The user does not switch the changeover switch 4 to the setting side during use of the system.

In the above-described embodiment, the power supply control device is used to measure the on / off current consumption of the display device for setting a reference value corresponding to the on / off current value of the display device. However, the reference value generating circuit 7 can retain the data even if the power is turned off if the data is given at the time of setting. The measurement device such as the value storage unit 6 may be carried around by a system engineer and may be externally attached only at the time of setting.

[0027]

According to the present invention, when the power supply of the system controller and the peripheral devices is controlled by the power supply switch of the display device, the on / off reference voltage value is individually set regardless of the type of the display device. By doing so, power control of the system control device can be reliably and easily performed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an example of a computer system configuration to which a power supply control device according to an embodiment of the present invention is applied.

FIG. 2 illustrates current consumption of a display device.

FIG. 3 is a diagram illustrating a procedure in which a reference value is set by a system engineer according to the present invention.

[Explanation of symbols]

1: DSP (display device), 2: power control device,
3: current-voltage converter, 4: switch SW, 5: A / D converter, 6: measured value storage, 7: reference value generation circuit, 8: comparison circuit, 9: switch SW, 10: negation circuit, 11 : System controller, 12: video signal, 13: signal indicating that the video signal is only a synchronization signal, 15: coincidence circuit, 1
6: delay circuit.

Claims (3)

[Claims] A system control device, a display device to which a video signal is supplied from the system control device, and a power control device capable of controlling power on / off of the system control device. A power supply control device of a system to which power is supplied via a control device, wherein the power supply control device measures a current consumption of the display device and a reference corresponding to a current value when the display device is turned on and off. Means for holding a value, means for comparing the current consumption of the display device with the reference value, and the system control device when the current consumption of the display device exceeds a reference value corresponding to the current value when the display device is turned on. Outputs a power-on command to respond to the current value when the display device is off. Power control device and outputs a power-off command to the system controller when the reference value the current consumption of the display device is below a. 2. The power supply control device according to claim 1, wherein a reference value corresponding to a current value when the display device is turned on and off is set based on a measured value of current consumption when the display device is turned on and off. . 3. The display device according to claim 1, further comprising means for measuring current consumption when the display device is turned on and off for setting a reference value corresponding to a current value when the display device is turned on and off. Power control device.