JPH01257893A - Electric power unit - Google Patents

Abstract

PURPOSE:To eliminate the need to lay a cable for power source control specially by turning on and off a switch means according to the result of detection by a control circuit as to whether a synchronizing signal is present or absent and carrying out operation/stop control over a mean power source. CONSTITUTION:This power unit is provided with the main power source 2 which generates necessary DC electric power by an AC power source 1 and supplies it to a display device, a switch means 7 which supplies and stops the electric power from the AC power source 1 to the main power source 2, and a control circuit 9 which turns off or on the switch means 4. The control circuit 9 detects whether or not there is the synchronizing signal sent from the main device to the display device together with a video signal and when this synchronizing signal becomes present, the switch means 4 is turned on to supply the AC power source to the main power source 2, thereby generating the DC electric power that the display device requires. Further, when the synchronizing signal becomes absent, the switch means 4 is turned off to cut off the supply from the AC power source 1 to the main power source, thereby stopping the DC power supply that the display device requires. Consequently, the cable for power source control is not necessary.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a display device such as a display monitor or a liquid crystal display, which is connected to a main device that generates a video signal such as a computer. The present invention relates to a power supply device that supplies a predetermined DC power to a computer.

[Conventional technology]

FIG. 3 is a block diagram showing a conventional power supply device. In the figure, 1 is an AC power supply, and 2 is a main power supply that generates a predetermined DC power required by the display monitor when the AC power supply 1 is supplied. , 3 is an output terminal for supplying a predetermined DC power generated by the main power supply 2 to the display monitor, 4
is a main power switch that is placed between the AC power source 1 and the main power source 2 and is manually turned on/off to control the supply/stop of the AC power source 1 to the main power source 2; 5 is the main power switch 4; This is a fuse connected between the AC power supply 1 and the AC power source 1.

Note that the power supply device configured in this manner is normally housed in the cabinet of the display monitor.

Next, the operation will be explained. When it becomes necessary to display a video signal from a main device such as a computer that generates a video signal on a display monitor, first, the main power switch 4 is turned on to supply AC power to the main power supply 2. When the main power supply 2 is supplied with the AC power supply 1, it generates the specified DC power required by the display monitor,
The output terminal 3 supplies each circuit of the display monitor.

Upon receiving this predetermined DC power supply, the display monitor starts a predetermined operation and executes image display processing of the video signal sent from the main device.

[Problem to be solved by the invention]

Conventional power supply devices are configured as described above, so even when the power is turned on to the main device such as a computer and the video signal and synchronization signal are sent out to display a predetermined image on the display monitor, If the main power switch 4 is not turned on, the display monitor will not operate and the video signal cannot be displayed as an image. In order to turn on the display monitor's power in synchronization with the main device such as a computer, prepare a relay, etc. that turns on and off in synchronization with the power on and off of the main device, and turn on the display monitor's power supply. Not only is it extremely troublesome to turn on and off the AC power supply, but if the display monitor becomes large and is installed in a location far from the main device such as a computer, it is necessary to turn the display monitor on and off to match the main device. In order to turn the power on and off, it is necessary to install a power control cable in addition to the cable for transmitting video signals and synchronization signals from the main device side to the display monitor side. There was a problem that the degree of freedom of Also,
In that case, even if the operation of the main device such as a computer does not require image display on a display monitor,
There is a problem in that when the power of the main device is turned on, the power supply of an unnecessary display monitor is also turned on.

This invention was made in order to solve the above-mentioned problems, and does not require a cable for power control, and only when the main device needs to display an image of a video signal, the display device automatically displays the video signal. The purpose is to obtain a power supply device that supplies power.

[Means to solve the problem]

The power supply device according to the present invention includes a main power source that generates necessary DC power from an AC power source and supplies it to the display device, a switch means for supplying/stopping the AC power to the main power source, and a synchronization signal from the main device. The control circuit is provided with a control circuit that turns on (or turns off) the switch means when the synchronizing signal changes from absent to present, and turns off (or turns on) the switch means when the synchronizing signal changes from present to absent.

[Effect]

In the power supply device according to the present invention, the control circuit detects the presence or absence of a synchronization signal sent from the main device to the display device together with the video signal, and when the synchronization signal changes from absent to present, the switch means is turned on. (or turn off) to supply AC power to the main power source to generate DC power required by the display device, and when the synchronization signal changes from presence to absence, turn off (or turn on) the switch means. to cut off the AC power supply to the main power supply and stop the DC power required by the display device.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. 1st
In the figure, 1 is an AC power supply, 2 is a main power supply, 3 is an output terminal, 4 is a main power switch, and 5 is a fuse, which are the same or equivalent parts of the conventional ones with the same symbols in Figure 3. Therefore, detailed explanation will be omitted. Further, 6 is an auxiliary power source that outputs a predetermined DC voltage if the AC power supply 1 is supplied via the main power switch 4, and 7 is the main power switch 4.
and the main power supply 2, and the AC power supply 1 to the main power supply 2
A relay 8 is supplied with power from the auxiliary power supply 6 and serves as a switch means for automatically controlling the supply/stop of the relay 7. A transistor 9 is supplied with power from the auxiliary power supply 6 and is connected to a main device such as a computer. A control circuit that detects the presence or absence of a synchronization signal input to its own synchronization input terminal 91 and outputs a control signal for controlling ON/OFF of the relay 7 to the 1-transistor 8 from its control signal output terminal 92. , 10 is a changeover switch for inputting a switching signal between manual mode and automatic mode to the mode input terminal 93 of the control circuit 9, and 11 is a switch for manually turning on/off the power to the power switch input terminal 94 of the control circuit 9 in the manual mode. This is a momentary type bush switch that inputs an off signal.

Next, the operation will be explained. Here, FIG. 2 is a flowchart showing the operating procedure. Further, in this case, the main power switch 4 is always on except during maintenance of the display monitor, and therefore the control circuit 9
The necessary DC voltage is constantly supplied to the auxiliary power supply 6.

The control circuit 9 first checks the level of the mote input terminal 93 in step STI to determine whether the operation mode is automatic mode or manual mode. That is, the changeover switch 10
The mode input terminal 93 is set to a high level (hereinafter "'H").
”) is supplied, the automatic mode is activated.
If the low level (hereinafter referred to as ``L'') is supplied, it is determined that the manual mode has been set to SEN1~ and the process proceeds to step ST2. Proceed to ST3.

Now, as shown in the figure, it is assumed that the input terminal 93 to the motor 1 is set to II HII by the changeover switch 10.

At this point, the main device such as a computer is turned on,
When a video signal and a synchronization signal are sent out to display a predetermined image on the display monitor, the synchronization signal is also input to the synchronization input terminal 91 of the control circuit 9. The control circuit 9 monitors the presence or absence of a synchronization signal at the synchronization input terminal 9 in step ST2, and when a synchronization signal is detected, the control circuit 9 outputs a control signal from the control output terminal 92 in step ST4.
It is sent to transistor 8 as Hr+. transistor 8
is conductive when this control signal applied to the base becomes LL HII, so current from the auxiliary power supply 6 flows through the coil of the relay 7. Therefore, the contacts of the relay 7 are turned on, and the AC power source 1 is supplied to the main power source 2 via the fuse 5, the main power switch 4, and the contacts of the relay 7, and the main power source 2 is operated (step 8T5). When the main power supply 2 operates, it generates the specified DC power required by the display monitor and supplies it to each circuit of the display monitor from the output terminal 3. performs image display processing of video signals sent from the main device of the computer.

When the series of processing is completed and the power of the main device such as a computer is turned off, the synchronization signal is no longer input to the synchronization input terminal 91. Therefore, when the control circuit 9, which monitors the presence or absence of this synchronization signal in step ST2, detects the disappearance of the synchronization signal, it sets the control signal outputted from the control output terminal 92 to u L II in step ST6. . 1- When the control signal applied to the base becomes 'L', the transistor 8 becomes non-conductive and cuts off the current in the coil of the relay 7. Therefore, the contacts of the relay 7 are turned off and the AC power to the main power supply 2 is cut off. 1 is stopped, and the main power supply 2 stops operating (step 5T7).As a result, the display monitor is stopped because the supply of the required predetermined DC power is cut off.

Here, if there is no need to display an image of the video signal on the display monitor, even if the main device such as a computer is turned on, the video signal and synchronization signal are not sent from the main device to the display monitor. It never comes.

Therefore, even when the main device is powered on, no synchronization signal is input to the synchronization input terminal 91 of the control circuit 9, and the control signal applied from the control output terminal 92 to the transistor 8 becomes I-I''. The main power supply 2 does not operate.

Further, when it is desired to manually turn on/off the power supply device of the display monitor, the selector switch]O is switched to set the mode input terminal 93 of the control circuit 9 to IIL''.

As a result, the process is passed from step STI to step ST3 as described above, and the control circuit 9 monitors the presence or absence of the operation signal of the bushing switch 11 inputted to the power switch input terminal 94. When the operation signal is detected, the process proceeds to step ST8, and it is determined whether the main power source 2 is in operation at that time. the result,
If the main power source 2 is in the operating state, the process moves to step ST6 and the operation of the main power source 2 is stopped, and if the main power source 2 is in the stopped state, the process moves to step ST4 and the main power source 2 is started to operate.

In addition, in the above embodiment, the case where it is applied to a power supply device for a display monitor was explained, but detecting a synchronization signal and controlling power on/off has the same meaning as a display monitor, for example, a liquid crystal display. The present invention may also be applied to other display devices such as the above, and the same effects as those of the above embodiments can be obtained.

Furthermore, in the above embodiment, a control circuit is placed in the power supply device, but if the display device uses a microprocessor for internal control, a control circuit is newly placed in the power supply device. Alternatively, the function of this control circuit may be realized by a microprocessor within the display device.

Furthermore, in the above embodiment, there is only one type of synchronization signal, and the presence or absence of the synchronization signal is detected to control the on/off of the R source. If there is a synchronization signal of a frequency that can be accepted by the display monitor, the presence or absence of the synchronization signal may be detected, and the power on/off may be controlled based on the detection result.

〔Effect of the invention〕

As described above, according to the present invention, the control circuit detects the presence or absence of a synchronization signal, and based on the detection result, the switch means is turned on/off to control the operation/stop of the main power source. Because of this configuration, there is no need to install a separate cable for power control between the main device and the Nice Play device, there is no loss of freedom in the arrangement of the display device, and the main device can control the image of the video signal. This has the advantage that it becomes possible to automatically operate the power supply device of the display device only when display is required.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a power supply device according to an embodiment of the present invention, FIG. 2 is a flowchart showing its operating procedure,
FIG. 3 is a block diagram showing a conventional power supply device. 1 is an AC power source, 2 is a main power source, 7 is a switch means (relay), and 9 is a control circuit. In addition, in the figures, the same reference numerals indicate the same or equivalent parts. Patent applicant Mitsubishi Electric Corporation

Claims (1)

[Claims] In a power supply device that supplies DC power required by the display device to a display device that is connected to a main device that generates a video signal and displays images of the video signal, when AC power is supplied, the display device a main power source that generates the DC power required by the display device and supplies it to the display device; a switch means that controls supply/stop of the AC power to the main power source; and a switch means that detects a synchronization signal from the main device. The on/off of the switch means is controlled, and when the synchronization signal changes from absent to present, the switch means is turned on (or off) to supply the alternating current power to the main power supply, and the synchronization signal is present. and a control circuit that turns off (or on) the switch means to stop supplying the alternating current power to the main power source when the power supply becomes empty.