JP2001134346A - Remote power supply control circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To turn on a main power supply for the other side between peripheral equipment and a host. SOLUTION: When a main power supply 8 is in an ON state, switch elements 5, 6 respectively connect a signal line 13 to a peripheral equipment controller 2 and a peripheral equipment device 4 to transmit/receive information between the controller 2 and the device 4. The state of the main power supply 8 is transmitted to the elements 5, 6. When the main power supply 8 is turned off, the elements 5, 6 are switched so as to respectively connect the signal line 13 to a power supply switch 9 and a remote power supply switch 10. When the switch 10 is depressed in the state, a GND level is transmitted to a power ON terminal 15 of a main power supply switch circuit 14 through the element 6, the signal line 13 and the element 5. The terminal 15 is pulled up from a normally ON sub-power supply 12 through a resistor 11 but the circuit 14 turns on the main power supply 8 in response to a pulse signal of the GND level.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote power supply control circuit for controlling a power supply of a partner between a computer main body and peripheral devices.

[0002]

2. Description of the Related Art Generally, a computer main body and peripheral devices connected to the computer main body are arranged and used at a fixed distance from each other. Therefore, when the power of the peripheral device is turned on or off from the computer main unit, or in some cases, on the contrary, when it is desired to turn on or off the power of the computer main unit from the peripheral device, it is necessary to go to the installation position of the other party, which is inconvenient. . Therefore,
Various inventions have been made to control the power of the other party while staying there.

For example, Japanese Patent Application Laid-Open No. 62-256533 discloses a "power supply remote control device for a terminal", in which a power supply of a terminal installed at a position distant from the host system is transmitted between the host system and the terminal. A technique for remotely controlling a host system using a signal current for data transmission is described. In this device, when a data signal is transmitted to a terminal connected to a host system by at least a pair of signal lines by a balanced transmission method via the signal line, a signal voltage of the data signal is changed by a rectifier circuit of the terminal to a DC current. And is charged to the capacitor. Then, the bidirectional semiconductor switching element is turned on by the charging voltage of the capacitor, power is supplied from the external power supply to the power supply circuit of the terminal, and the drive voltage is supplied from the power supply circuit to the main body control unit of the terminal. . As a result, the terminal is turned on, and data can be transmitted to and from the host system. When the power of the terminal is cut off, the output of the transmission signal from the host system and the terminal is stopped, and the capacitor is discharged.

Japanese Patent Application Laid-Open No. 9-284287 discloses a technology as a "network system" in a standardized network system such as a LAN, which enables remote control of power on / off of each terminal device from a host device. Is described. In this network system, a concentrator is connected via a first network line, and a plurality of terminal devices are connected to the concentrator via a second network line. A power control device is provided for each terminal device on a one-to-one basis. The power supply control device includes a relay switch that switches on and off the power supply to the terminal device, a signal detection circuit that detects a signal transmitted from the host device over the second network line, and a timekeeping operation by which a timekeeping operation is performed. A reception timer that outputs a signal for controlling the relay switch to be turned off when the set value is reached, and resets a time value each time a detection signal is input from the signal detection circuit and outputs a signal for controlling the relay switch to be turned on. . The host device remotely controls on / off of the power of each terminal device by controlling the concentrator.

[0005] All of the above-mentioned conventional techniques control the power supply of the terminal equipment from the host computer side, but this is considered to be due to the fact that the present invention is directed to a mainframe computer system led by the host computer. However, in personal use using a personal computer (hereinafter, referred to as a “PC”), which has become extremely popular in recent years, the processing proceeds under the initiative of an operator who operates the peripheral device. It is not uncommon for the power of the PC to be turned on and off. In such a case, conventionally, a signal line for turning on / off the main power supply to a cable of a peripheral device is used in order to prevent the personal computer from being adversely affected by turning the power on / off while the personal computer is operating. You need a dedicated cable in it.

[0006]

However, as described above, it is necessary to prepare a dedicated cable for turning on and off the power of the personal computer from the peripheral device. There is a problem that the versatility is lost in the connector to be connected.

In order to solve this problem, the technique of turning on and off the power of the terminal device from the host computer and the power of the host computer from the terminal device are described in the above two patent publications. It may be deformable so that it can be turned on and off. This is because these techniques use an existing signal line between the host computer and the terminal device to control the power supply of the terminal device. But,
Even if that is possible, these techniques have the problem that they require special means such as a rectifier circuit, a capacitor, a bidirectional semiconductor switching device, and a terminal power control device having a built-in reception timer.

The present invention has been made to solve the above problems, and a first object of the present invention is to provide a simple remote control for controlling a main power supply of a personal computer from a peripheral device using a general-purpose cable. A power supply control circuit is provided.

A second object of the present invention is to provide a remote power control circuit which does not adversely affect the operation of the personal computer even when the main power of the personal computer is controlled from a peripheral device using a general-purpose cable. It is in.

A third object of the present invention is to provide a remote power supply control circuit applicable to many peripheral devices satisfying certain conditions.

[0011]

According to a first aspect of the present invention, a remote power supply control circuit according to the present invention uses a signal line in a cable connecting a host computer main body and a peripheral device to transmit a signal from the peripheral device to the host computer. The power supply is controlled, and the main power supply of the peripheral device is controlled from the host computer.

A remote power control circuit according to a second aspect of the present invention is a remote power control circuit for controlling a main power of the host computer from a peripheral device connected to the host computer by a cable, wherein the remote power control circuit controls on / off of the main power. Main power switch means, a means for detecting that the main power supply of the host computer is turned off, a means for transmitting the result of the detection to the peripheral device via the cable, and the main power supply being turned off. Means for switching the connection of a predetermined signal line connecting the host computer and the peripheral device to the main power switch means side, and the main power switch means using the signal line from the peripheral device side to the main power switch means. Means for sending a signal for turning on the main power supply.

According to a third aspect of the present invention, there is provided a remote power supply control circuit for controlling a main power supply of a peripheral device from a host computer connected to the peripheral device by a cable. Main power switch means, a means for detecting that the main power of the peripheral device is turned off, and means for transmitting the result of the detection to the host computer via the cable,
Means for switching the connection of a predetermined signal line connecting the peripheral device and the host computer to the main power switch means side when the main power is turned off, and using the signal line from the host computer side to use the signal line. The main power switch means is provided with means for sending a signal for turning on the main power.

According to a fourth aspect of the present invention, there is provided a remote power control circuit for controlling the main power of the host computer from a peripheral device connected to the host computer by a cable, wherein the remote power control circuit controls on / off of the main power. A main power supply switch circuit, a sub power supply for constantly supplying power to a power-on terminal of the main power supply switch circuit via a resistor, and a signal between the host computer and the peripheral device when the main power supply is on. A predetermined signal line in the cable for transmitting and receiving a signal is connected to the switch element on the host computer side, which is connected to the power-on terminal when the main power supply is turned off, and to the peripheral device side, which outputs a GND level when pressed. A remote power switch provided, and when the main power is turned off, the signal line is connected to the remote power switch. Switch device on the peripheral device side for switching connection to a switch side, wherein the main power switch circuit turns on the main power by a GND level pulse signal due to a temporary depression of the remote power switch. Features.

According to a fifth aspect of the present invention, there is provided a remote power control circuit for controlling the main power of the peripheral device from a host computer connected to the peripheral device by a cable, wherein the remote power control circuit controls on / off of the main power. A main power switch circuit, a sub-power supply for constantly supplying power to a power-on terminal of the main power switch circuit via a resistor, and a signal between the peripheral device and the host computer when the main power is on. A predetermined signal line in the cable for transmitting and receiving a signal to the peripheral device side switch element to be connected to the power-on terminal when the main power supply is turned off and to the host computer side to output a GND level when pressed. A power switch provided and, when the main power is turned off, switches the signal line to the remote power switch side. And a said host computer side of the switch element connection, the GND level of the pulse signal due to a temporary depression of the power switch, the main power supply switch circuit is characterized in that to turn on the main power supply.

The remote power supply control circuit according to the present invention uses the existing signal line in the cable of the peripheral device connected to the personal computer to use the power supply of the personal computer from the peripheral device and the peripheral device. The main power is turned on from the personal computer.

More specifically, for example, in FIG. 1, when the switch element 5 and the switch element 6 detect that the main power supply 8 of the personal computer 1 is turned off, the switch element 5 becomes the signal line 13 of the peripheral device 3. Is switched to the connection with the power switch 9, and the switch element 6
3 is switched to the connection with the remote power switch 10.
That is, the signal line 13 used to access the peripheral device 4 only when the main power supply 8 of the personal computer 1 is supplied is connected to the main power supply 8 of the personal computer 1.
Only when the power is off, the main power
Is used as a signal line for turning on. This allows
Even if the personal computer body 1 is located at a place distant from the operator, the main power supply 8 of the personal computer body 1 can be turned on from the peripheral device 3 that can be reached by the operator.

Usually, when the main power supply 8 of the personal computer 1 is turned off, the cable 7 connecting the personal computer 1 and the peripheral device 3 is not used. Therefore, in the present invention, while the main power supply 8 of the personal computer body 1 is turned off, the cable 7 connecting the personal computer body 1 and the peripheral device 3 is used.
The main power supply 8 of the personal computer 1 is turned on from the peripheral device 3.

As described above, since the existing signal line 13 is used, the cable 7 connecting the personal computer 1 and the peripheral device 3 does not require a dedicated cable. Further, since the signal line in the cable of the peripheral device is used only when the main power supply of the personal computer is off, the present invention can be applied to all the peripheral devices if a certain condition is satisfied, regardless of the type of the peripheral device.

[0020]

Next, an embodiment of the present invention will be described with reference to the drawings.

Referring to FIG. 1 showing the first embodiment of the present invention, the present remote power supply control circuit utilizes the existing cable 7 of the peripheral device 3 to make the main power supply 8
Turn off. For this purpose, the switch element 5 and the switch element 6 whose connection is switched according to the state of the main power supply 8 of the personal computer body 1 are provided in the personal computer body 1 and the peripheral device 3, respectively.
Further, the peripheral device 3 is provided with a remote power switch 10 for turning on the main power supply 8 of the personal computer 1 from the peripheral device 3.

When the main power supply 8 of the personal computer 1 is turned on, the peripheral device 4 of the personal computer 1 is connected via the signal line 13 in the cable 7. On the other hand, when the main power supply 8 of the personal computer 1 is turned off, the connection between the peripheral device controller 2 and the peripheral device 4 is cut off by the switch elements 5 and 6, and the output is in a high impedance state at this time. Is used as a signal line for turning on the main power supply 8 of the personal computer 1 from the peripheral device 3.

On the side of the personal computer 1, a main power switch circuit 14 for turning on the main power supply 8 and an always-on power supply for supplying an output to a power-on terminal 15 of the main power switch circuit 14 via the resistor 11. A SUB power supply 12;
The personal computer 1 has a power switch 9 for turning on a main power supply 8 locally. The power switch 9 is connected between the switch element 5 and GND, and grounds the signal of the switch element 5 to GND only when the power switch 9 is pressed. Power-on terminal 15 of main power switch circuit 14
Are pulled up via a resistor by a SUB power supply 12 which is continuously supplied even when the main power supply 8 is turned off. Main power supply 8
Is connected to the power-on terminal 15 of the main power switch circuit 14.
It is turned on by receiving an ND level pulse signal.

The switch element 5 has a function of detecting the voltage state of the main power supply 8 and switching the connection destination of the signal line 13 to the peripheral device controller 2 or the power switch 9. That is, the switch element 5 connects the signal line 13 to the power switch 10 when the voltage level of the main power supply 8 becomes the GND level.

On the other hand, the switch element 6 is connected to the signal line 13 and the remote power switch 10, and switches the connection with the remote power switch 10 according to the state of the main power supply 8 of the personal computer 1. That is, the switch element 6 is connected to the main power supply 8 supplied from the personal computer 1 via the cable 7.
Is connected to the signal level 13 and the remote power switch 10.

The power-on terminal 15 pulled up by the SUB power supply 12 is connected to the power switch 9 and the remote power switch 10 when the main power supply 8 of the personal computer 1 is off. The remote power switch 10 is connected between the switch element 6 and GND, and grounds the signal of the switch element 6 to GND only when the remote power switch 10 is pressed.

Next, the operation of the circuit of FIG. 1 will be described. First, when the main power supply 8 is on, the switch element 5
Since the switch element 6 and the switch element 6 are in the connection state as shown in FIG. 1, the peripheral device controller 2 and the peripheral device device 4 exchange signals via the signal line 13 in the cable 7. At this time, the power-on terminal 15 is pulled up to the voltage of the SUB power supply 12 by the resistor 11.

In this state, even if the remote power switch 10 on the peripheral device 3 side is pressed, the GND level is not transmitted to the signal line 13 because the switch element 6 is open, and the switch element 5 is also open. , GND level is not transmitted to the power-on terminal 15. As a result, when the peripheral device controller 2 and the peripheral device 4 are transmitting and receiving signals while the main power supply 8 is in the power-on state, the signal line 13 by turning on the remote power switch 10
The adverse effects on the territory are prevented. Thereby, the PC body 1
When the main power supply 8 is supplied, pressing the remote power switch 10 does not affect the access between the peripheral device controller 2 and the peripheral device 4.

Next, when the main power supply 8 is turned off, the switch elements 5 and 6 are switched from the connection state as shown in FIG. 1 to other terminals as indicated by arrows. That is, the switch element 5 connects the signal line 13 to the power switch 9 and the power-on terminal 15, and the switch element 6 connects the signal line 13 to the remote power switch 10.

In this state, when the power switch 9 is pressed, a pulse signal is notified to the main power switch circuit 14 and the main power switch 8 is turned on.
Can be turned on locally. In addition, peripheral device 3
When the remote power switch 10 is pressed, the GND level is transmitted to the power-on terminal 15 of the main power switch circuit 14 via the switch element 6, the signal line 13 and the switch element 5, and the main power 8 can be turned on. Becomes Therefore, even if the personal computer body 1 is located at a remote place,
Personal computer 1 from peripheral equipment 3 near the operator
Can be turned on.

Next, a second embodiment of the present invention will be described with reference to FIG.

In this embodiment, the main power supply 8 of the personal computer 100 can be turned on from two peripheral devices 31 and 32. The switch element 6 and the remote power switch 10 are provided for each of the peripheral devices 31 and 32. The personal computer 100 is provided with peripheral device controllers 21 and 22 and a switch element 5 corresponding to the peripheral devices 31 and 32. The terminals of the two switch elements 5 on the power switch 9 side are wired-ORed, and the signal lines of cables for transmitting the state of the main power supply 8 to the two switch elements 6 are also wired-ORed.

In FIG. 2, components for distinguishing the peripheral devices 31 and 32 are assigned unique reference numbers, but the other components are assigned the same reference numbers for the peripheral devices 31 and 32. Is attached.

When the main power supply 8 is on, the peripheral device controller 21 and the peripheral device 41 and the peripheral device controller 22 and the peripheral device 42 transmit and receive information via the cable 7, respectively. At this time, the switching elements 5 and 6 are not connected to the power switch 9 and the remote power switch 10 as in the first embodiment. Therefore, even if the remote power switch 10 is pressed, the signal line 13 is not affected.

When the main power supply 8 is turned off, the switching element 5
Connects the signal line 13 to the power switch 9, and the switch element 6 connects the signal line 13 to the remote power switch 10. As a result, not only can the main power supply 8 be turned on by pressing the power switch 9, but also the main power supply 8 can be turned on by either the remote power switch 10 of the peripheral device 31 or the remote power switch 10 of the peripheral device 32. it can.

Next, a third embodiment of the present invention will be described with reference to FIG.

In the first and second embodiments, the peripheral device does not have a main power supply, and the personal computer supplies power to the peripheral device. The peripheral device turns on the main power supply of the personal computer. Was to do. In this embodiment, when a peripheral device is also provided with a main power source, the main power source of the peripheral device can be turned on also from the personal computer main body side. In this case, it is assumed that the main power of the personal computer and the main power of the peripheral device are turned on and off at the same time.

In FIG. 3, the main power supply 1 on the peripheral device 30 side is shown.
7, the SUB power supply 1 having the same function as the SUB power supply 12
8 and a main power switch circuit 19 having the same function as the main power switch circuit 14. As described above, the main power supply 17 is turned on and off at the same time as the main power supply 8, so that the main power supply 17 can be turned off by the personal computer 1 side.

Therefore, also in this case, the peripheral device 30
When the main power supply 17 is turned off, the main power supply 17 of the peripheral device 30 can be turned on simultaneously with the main power supply 8 of the personal computer 1 in the same manner as in the above-described embodiment.

[0040]

The first effect of the present invention is that if the present invention is applied to peripheral devices such as a display, a keyboard or a mouse which are always around the operator, even if the personal computer is located at a remote place, That is, it is possible to turn on the main power supply of the personal computer from the peripheral device.

A second effect is that a new signal line is not provided for a cable connecting a peripheral device and a personal computer, and an existing cable is used, so that a special cable is not required.

A third effect is that even if a peripheral device or a personal computer to which the present invention is not applied is connected, the operation thereof is not adversely affected. The reason is that the signal line of the cable of the peripheral device is used only when the main power of the personal computer is off.

Further, the fourth effect is that the signal line of the cable of the peripheral device is used only when the main power supply of the personal computer is turned off. It is possible to apply to.

[Brief description of the drawings]

FIG. 1 is a block diagram of a first embodiment of the present invention.

FIG. 2 is a block diagram of a second embodiment of the present invention;

FIG. 3 is a block diagram of a third embodiment of the present invention.

[Explanation of symbols]

 1 PC main unit 2 Peripheral device controller 3 Peripheral device 4 Peripheral device 5 Switch element 6 Switch element 7 Cable 8 Main power 9 Power switch 10 Remote power switch 11 Resistance 12 SUB power 13 Signal line 14 Main power switch circuit 15 Power-on terminal 16 Power-on terminal 17 Main power supply 18 SUB power supply 19 Main power switch circuit 30 Peripheral device 100 Personal computer

Claims (6)

[Claims] 1. A peripheral device controls a main power supply of the host computer from the peripheral device by using a signal line in a cable connecting the host computer body and the peripheral device.
A remote power supply control circuit, wherein a main power supply of the peripheral device is controlled from the host computer. 2. A remote power supply control circuit for controlling a main power supply of the host computer from a peripheral device connected to the host computer by a cable, a main power supply switch means for controlling on / off of the main power supply, and the host computer. Means for detecting that the main power is off, means for transmitting the result of the detection to the peripheral device via the cable, and connecting the host computer and the peripheral device when the main power is off. Means for switching the connection of the predetermined signal line to the main power switch means side, and sending a signal for turning on the main power to the main power switch means from the peripheral device using the signal line. A remote power supply control circuit. 3. A remote power supply control circuit for controlling a main power supply of the peripheral device from a host computer connected to the peripheral device by a cable, a main power supply switch unit for controlling on / off of the main power supply, and the peripheral device. Means for detecting that the main power is turned off, means for transmitting the result of the detection to the host computer via the cable, and connecting the peripheral device and the host computer when the main power is turned off. Means for switching the connection of the predetermined signal line to the main power switch means side; and a signal for turning on the main power to the main power switch means using the signal line from the host computer. A remote power supply control circuit. 4. A remote power supply control circuit for controlling a main power supply of the host computer from a peripheral device connected to the host computer by a cable, a main power supply switch circuit for controlling on / off of the main power supply, and the main power supply. A sub-power supply that constantly supplies power to a power-on terminal of a switch circuit via a resistor; and a predetermined power supply in the cable that transmits and receives signals between the host computer and the peripheral device when the main power supply is on. A switch element on the side of the host computer that switches and connects the signal line to the power-on terminal when the main power supply is turned off; a remote power switch provided on the peripheral device side that outputs a GND level when pressed; When the power supply is turned off, the peripheral device switches and connects the signal line to the remote power switch side. And a side of the switch element, the GND level of the pulse signal due to a temporary depression of the remote power switch, the main power supply switch circuit is remote power control circuit, characterized in that to turn on the main power supply. 5. A remote power supply control circuit for controlling a main power supply of the peripheral device from a host computer connected to the peripheral device via a cable, a main power supply switch circuit for controlling on / off of the main power supply, and the main power supply. A sub-power supply that constantly supplies power to a power-on terminal of a switch circuit via a resistor; and a predetermined power supply in the cable that transmits and receives signals between the peripheral device and the host computer when the main power supply is on. A switch element on the side of the peripheral device for switching the signal line to the power-on terminal when the main power supply is turned off; a power switch provided on the host computer side for outputting a GND level when pressed; Is turned off, the switch element on the host computer side for switching and connecting the signal line to the power switch side. When provided with a by GND level of the pulse signal due to a temporary depression of the remote power switch, the main power supply switch circuit is remote power control circuit, characterized in that to turn on the main power supply. 6. A switch element on the host computer side and a switch element on the peripheral device side are provided in one-to-one correspondence with the peripheral device, and connection of each switch element on the host computer side to the power-on terminal is provided. 6. The remote power supply according to claim 4, wherein a wired-OR connection is made, and a status notification line of a main power supply on the host computer side to the switch element on the peripheral device side is wired-ORed. Control circuit.