JPH086679A - Small-scale information processing system - Google Patents

Abstract

PURPOSE:To power ON and OFF a small-sized information process from a remote place by mounting and connecting a communication line control unit, which is supported by a power source independent of the main body of the small-sized information processor, to the small-sized information processor. CONSTITUTION:If a power-ON command to the small-sized information processor 101 is sent onto a communication line 122 while an uninterruptive power source 120 supplies electric power to the main body of the small-sized information processor 101, the CPU which controls a communication control part in the communication control unit 104 interprets this command. Consequently, the CPU controls the uninterruptive power source 120 connected beyond a power source interface 106 by using an external power source control part and the uninterruptive power source 120 supplies the electric power to the main body of the small-sized information processor 101 through a power supply conductor 114. When the main body of the small-sized information processor 101 is supplied with the electric power, the CPU of the main body brings the side of the communication line control unit 104 under its control.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a small-scale information processing system, and more particularly to a power supply control technique in a small-scale information processing system constructed by a plurality of small information processing devices connected by a communication line.

[0002]

2. Description of the Related Art In a small-scale information processing system (small information-processing device group) in which a plurality of small-sized information processing devices are connected by a communication line, the administrator or user turns on / off the small-sized information processing device. Turn on / off the power of each device. Alternatively, by using a switch of a commercial power supply line in a switchboard of a room or a building in which a plurality of small information processing devices in which individual power switches are turned on are installed,
Turn on / off the power supplies of a plurality of small information processing devices at the same time. It is generally done by

On the other hand, a method of turning on / off the power supply of the information processing apparatus main body by a communication line control unit, which is constantly supplied with power from a power supply apparatus, according to a command from a network is disclosed in JP-A-63-127639. It is disclosed in the official gazette. The conventional technology disclosed in this prior application requires a communication line control unit that is constantly supplied with power, a power supply unit that constantly supplies power, and a switch. The method of realizing this function is not specified by simply adding it to.

[0004]

As described above, in a small information processing system (small information processing device group) in which a plurality of small information processing devices are connected by a communication line, an administrator or a user is If a method that requires turning on / off the power of each small-sized information processing device one by one is complicated, turning on / off the power is complicated, and wants to turn on the power from a remote place immediately. There is a problem that it is not possible to deal with such requests.

Further, a plurality of small information processing devices are used by using a switch of a commercial power supply line in a switchboard of a room or a building in which a plurality of small information processing devices in which individual power switches are turned on are installed. If the method of simultaneously turning on / off the power supplies is used, the power supplies can be turned on / off at once, but there is a problem that the power supplies of the small information processing devices cannot be selectively turned on / off individually. Furthermore, when the power is turned on all at once by the switches of the commercial power supply wires, the inrush current of the power supply of each small information processing device causes an extra power supply to the commercial power supply equipment in the room or building where multiple small information processing devices are installed. There is also the problem of applying a load.

On the other hand, in a communication line board or card having a CPU and a memory independent of the small information processing device body, when the small information processing device body is powered off, Independent CPU
However, when the communication line board or card is controlled and the small information processing device body is powered on, the communication line board or card is connected to the CPU of the small information processing device body.
Need to control. In other words, in a normal operating state in which power is supplied to the small information processing device, if the CPU of the main body of the small information processing device cannot control the communication line board or card based on the OS, the OS may be changed or improved. May not be compatible with.

However, there are a plurality of communication line protocols and OSs of small-sized information processing devices, and there are version upgrades such as improvements. The combinations are very large, and control programs that can handle all of them are communicated. Storing in the memory on the circuit board or card
Practically impossible. Also, communication line protocols and O
Each time S is changed or improved, it takes a great deal of labor to put the program of the CPU independent of the small-sized information processing apparatus main body into the memory mounted on the communication line board or the card, which is not realistic.

Further, when an external power source such as an uninterruptible power supply is connected to the small-sized information processing apparatus, the power switch of the small-sized information processing apparatus main body needs to be kept in the ON state, and the user can operate the small-sized information processing apparatus. Turn on the power switch of the device
In the FF state, there is a problem that the power cannot be turned on from a remote place.

The present invention has been made in view of the above points,
The purpose thereof is to provide means for enabling the power supply of a small-sized information processing device to be turned on / off from a remote place by simply adding it to an expansion slot of a conventional small-sized information processing device. Especially.

[0010]

A small-scale information processing system according to the present invention turns on / off a power source from a remote place in a small-sized information processing apparatus group in which a plurality of conventional small-sized information processing apparatuses are connected by a communication line. To enable this, attach and connect a communication line control device (communication line board or card) that is supported by a power supply independent of the main body of the small information processing device to the small information processing device. A communication control unit, a communication line interface, a power supply control interface for an external power supply control device such as an uninterruptible power supply, and a CPU and a memory that can operate independently of the main body of the small information processing device. It is what makes me.

Further, a special signal line is not provided in the expansion slot of the small-sized information processing device, and it is independent of the expansion slot.
It is provided with a power control interface.

Further, in order to maintain compatibility with a conventional small-sized information processing apparatus, a CP independent of the main body of the small-sized information processing apparatus according to the power supply state to the main body of the small-sized information processing apparatus.
A detection unit for detecting ON / OFF of the power source of the main body of the small-sized information processing apparatus for selecting the control of U is provided.

Further, for the control program of the CPU independent of the main body of the small-sized information processing apparatus, which has many combinations, at least a part of the memory independent of the main body of the small-sized information processing apparatus is configured by a flash memory. It is a thing.

Further, in order to enable power-on from a remote place when the power switch for the main body of the small-sized information processing device is OFF, a control signal via the power control interface and a power switch for the main body are provided. Controllable from both,
The power supply device is provided in the main body of the small information processing device.

Further, in order to suppress the inrush current by simultaneously turning on the power supplies of a plurality of small information processing apparatuses, in a small-scale information processing system including a plurality of small information processing apparatuses connected to a communication line, An identification number unique to a small-sized information processing device is set, and power is individually turned on in order by a command from the communication line.

Furthermore, in a small-scale information processing system constructed from a plurality of small-sized information processing devices connected to a communication line, when adding / removing small-sized information processing devices or disassembling / reconstructing each small-sized information processing device, The unique identification number for identification can be changed by a command from the communication line.

[0017]

In a small-scale information processing system in which a plurality of conventional small-sized information processing devices are connected by a communication line, a communication control unit, a communication line interface, and a power supply control interface for an external power supply control device such as an uninterruptible power supply A communication line controller (communication line board or card) having at least a CPU and a memory that can operate independently of the main body of the small information processor is mounted on the small information processor. By supporting the power supply independent of the main body of the small information processing device, the communication line is monitored by the communication control unit, the CPU and the memory on the communication line control device (communication line board or card),
When a power-on command is received from the communication line, the external power supply device is controlled via the power supply control interface, and power is supplied from the external power supply device such as the uninterruptible power supply to the power supply device of the small information processing device body.

Further, a special signal line is not provided in the expansion slot of the small-sized information processing device, and it is independent of the expansion slot.
Since the power supply control interface is provided, the communication line control device (communication line board or card) can be easily mounted on the conventional small-sized information processing device.

Power ON / OFF of the main body of the small information processor
A detecting means for detecting F is provided, and communication control (control of the communication line control device) is performed by the CPU of the small information processing device body or the communication line control device (controlling the communication line control device) according to the power supply state to the small information processing device body. Select whether to use a CPU independent of the main body of the small information processing device on the communication line board or card). As a result, if power is being supplied to the small information processing device main body, the CPU of the small information processing device main body controls the communication line control device in the same manner as the conventional small information processing device main body. Compatibility can be maintained.
Also, when power is not supplied to the small information processing device body, the communication line control device is controlled by a CPU independent of the small information processing device body on the communication line control device, so the communication line is monitored. can do.

A plurality of small-sized information processings in which a memory for storing a control program of a CPU independent of a small-sized information processing apparatus main body on a communication line control device (communication line board or card) is composed of a flash memory and connected by a communication line When building a system with a group of devices, in the flash memory,
Communication line protocol used and OS of small information processing device
By storing the control program according to the same communication line control device (communication line board or card),
It is possible to support various communication line protocols and OSs.

A power supply device having a power switch and a power supply control interface is provided in the main body of the small-sized information processing device, and a power supply control line from a communication line control device (communication line board or card) is connected to this power supply control interface. Thus, power can be turned on from a remote place even when the power switch is off.

In a small-scale information processing system constructed from a plurality of small-sized information processing devices connected to a communication line,
A unique identification number is set in advance for each small information processing device that is a component. Then, the system administrator, from a small information processing device connected to the same communication line,
By sending a power-on command to each small information processing device in the system along with the identification number unique to the small information processing device in order via the communication line, the amount of change in current due to inrush current is small information. It can be reduced to one processing unit.

The inrush current of each small information processing device shows a very large value when they occur at the same time, but if the power is turned on by shifting the time by about 10 milliseconds, the inrush current for one small information processing device will be generated. It can be reduced to a current level. Therefore, 10
Even in a small information processing device group consisting of zero small information processing devices, all the small information processing devices are powered on in 1 second, so that the user can operate the small information processing system without any power supply. The time difference of throwing in does not matter.

When the power supply to the commercial power supply line of the room or building where the small-scale information processing system is installed is started, the power is supplied only to the communication line control device (communication line board or card) having an independent power source. Since the communication line control device is composed of semiconductor parts, the power consumption can be kept very low. Therefore, the inrush current of the independent power source can be reduced.

By storing the identification number peculiar to the small-sized information processing device in the flash memory, the small-sized information processing system can add or remove the small-sized information processing device, or disassemble or reconstruct the system. By allowing the identification number unique to the processing device to be changed by a command from the communication line, work can be performed efficiently even from a remote location.

[0026]

The present invention will be described below with reference to the illustrated embodiments.

<First Embodiment> FIG. 1 is a diagram showing the configuration of one small information processing apparatus and a group of devices associated therewith in a small information processing system according to the first embodiment of the present invention. In FIG. 1, 101 is a small information processing device, 10
2 is a main board, 103 is a power supply device, 104 is a communication line control device, 105 is a communication line interface, and 106.
Is a power control interface, 107 is a power connector, 1
08 is an electronic component, 109 is an expansion slot, 110 is a transceiver or hub, 111 is a communication line signal line, 112
Is a power control line, 113 is a power control interface, 11
4, 115 and 116 are power supply lines, 117 is an independent power source, 118 is a commercial power supply line, 119 is an outlet,
120 is an uninterruptible power supply, and 122 is a communication line.

In the small-sized information processing device 101, a main board 102 on which an electronic circuit component 108 is mounted, a power supply device 103, etc. are provided. Further, a communication line control device 104 having a communication line interface 105, a power supply control interface 106, a power supply connector 107 for receiving power, and the like is attached to an expansion slot 109 in the small-sized information processing device 101. The control device 104 is connected to the main board 102.

A communication line 122 such as Ethernet is connected to the communication line interface 105 of the communication line controller 104 by a communication line signal line 111 via a transceiver or hub 110. Therefore, the main body function of the small information processing device 101 (main board 102
Etc.) are communication line control device 104, communication line signal line 11
1, it is connected to the communication line 122 via the transceiver or the hub 110, and is connected to an information processing device such as another small information processing device (not shown) connected to the communication line 122. Note that the number of other information processing devices connected to the communication line 122 is arbitrary, and a small-scale information processing system (small-scale information processing network) is constructed by this.

The power supply control interface 106 is connected to the power supply control interface 113 of the uninterruptible power supply 120 via a power supply control line 112. Further, a power supply wire 116 from an independent power supply 117 such as an AC adapter is connected to the power supply connector 107 that receives power supply.

A power supply wire 114 to the main body of the small-sized information processing device 101 is connected to the output of the uninterruptible power supply 120,
The power supply line 115 to the uninterruptible power supply 120 is connected to the commercial power supply line 118 of the building in which these devices are installed via the outlet 119. Further, an AC adapter, which is an independent power supply 117 to the communication line control device 104, is also connected to the commercial power supply electric wire 118 via an outlet 119.

In the present embodiment, the following description will be made on the assumption that the power switch (not shown) of the small-sized information processing apparatus 101 is always in the ON state.

FIG. 2 is a diagram showing the configuration of the communication line controller 104. As shown in the figure, the communication line control device 1
Reference numeral 04 denotes a CPU 202 independent of the main body function of the small-sized information processing apparatus 101, and a memory 2 for storing a control program and the like.
04, a communication control unit (communication line control unit) 201, for example, a voltage detection unit 205 as means for monitoring the power supply state to the main body of the small-sized information processing apparatus 101, and the communication control unit 2
01 is controlled by the CPU 202 independent of the main body function of the small-sized information processing apparatus 101, or the small-sized information processing apparatus 10
A switching means 206 for selecting whether or not a CPU (main body CPU) of the main body of FIG. 1 should perform, an external power supply control unit (power supply control unit) 203, a connector 207, and a power supply detection line 1
08, the communication line interface 105, the power supply control interface 106, and the power supply connector 107.

Connector 207 of communication line controller 104
Is connected to the expansion slot 109 of the main board 102 of the small-sized information processing device 101, whereby the communication line control device 104 causes the main unit CP of the small-sized information processing device 101 to operate.
It is connected to U and receives control from the CPU of the main unit if necessary. Further, the communication line control device 104 has a connector 207.
Power connector 1 described above without receiving power supply from the
Power is supplied only from 07.

As a result, the commercial power supply line 11 for the building
When power is supplied to 8, the CPU 202 of the communication line control device 104 can always operate,
Even if the main body function of the small-sized information processing device 101 does not operate,
The communication line 122 can be monitored. Furthermore, the uninterruptible power supply 120 can also be operated under the control of the communication line control device 104, and the uninterruptible power supply 120 supplies power to the main body of the small-sized information processing device 101. Even when not in use, the power supply line 114 to the main body of the small-sized information processing device 101,
The power is always ready to be supplied.

In the above configuration, the uninterruptible power supply 12
In the state where 0 is not supplying power to the main body of the small-sized information processing apparatus 101, if a command to turn on the small-sized information processing apparatus 101 is transmitted to the communication line 122, the communication line control device 104 At, the CPU 202 controlling the communication control unit 201 interprets this command. As a result, the CPU 202 uses the external power supply control unit 203,
The uninterruptible power supply 120 connected to the tip of the power supply control interface 106 is controlled, and the uninterruptible power supply 120 supplies power to the main body of the small-sized information processing device 101 via the power supply wire 114. The small information processing device 101
When electric power is supplied to the main body, the CPU of the main body puts the communication line control device 104 side under control.

When the uninterruptible power supply 120 is supplying power to the main body of the small-sized information processing device 101,
When a power-off command for the small-sized information processing device 101 is transmitted to the communication line 122, the main body CPU uses the external power supply control unit 203 to connect the uninterruptible power supply 120 to the end of the power supply control interface 106. In contrast to the above, the small information processing device 1 by the uninterruptible power supply 120 is controlled.
The power supply to the main body of 01 is stopped.

Thus, in this embodiment, the small-sized information processing device 1
The power supply (uninterruptible power supply 120) for the main body of the small-sized information processing apparatus can be turned on or off from another information processing apparatus in a remote place even if the power supply apparatus 103 incorporated in the main body of 01 does not have a special function. .

In FIG. 1, one uninterruptible power supply 120
One small information processing device 101 is connected to
A plurality of small-sized information processing devices 1 for one uninterruptible power supply 120
It is also possible to connect 01 and turn on / off the power supplies of all the small information processing devices 101 connected to the single uninterruptible power supply 120 at once. In this case, the communication line control device 104 may be installed in at least one of the plurality of small information processing devices 101 connected to the single uninterruptible power supply 120. Again, uninterruptible power supply 1
If the configuration is such that 20 can individually control a plurality of power outputs, a plurality of small information processing devices connected to one uninterruptible power supply 120 can be selectively turned on or off. It is also possible to do so.

Here, there are various kinds of communication line protocols, and during normal operation, communication control (communication line control device 104) controls the main body C of the small information processing device 101.
Since it is under the control of the PU, the small information processing device 101
It is necessary to operate the communication line control device 104 in correspondence with the OS. Therefore, in each of the embodiments of the present invention, the memory 20 that stores the control program of the communication line control device 104.
A part of 4 is composed of a flash memory, and the communication line control device 104 corresponding to the protocol of the communication line to be used and the OS of the small-sized information processing device 101 is provided in this flash memory.
The control program of is stored. For this reason, a bus transceiver 209 is provided so that the CPU of the main body of the small-sized information processing device 101 can access the memory 204 of the communication line control device 104.
A switching unit 206 controlled by a signal from the voltage detection unit 205 is provided. Therefore, the contents of the flash memory (the protocol of the communication line, the OS of the small-sized information processing device 101, the identification number described later, etc.) can be rewritten under the control of the main body CPU.

In each embodiment of the present invention, the communication line 1
In order to individually control the plurality of small-sized information processing devices 101 connected to the network 22, an identification signal is set in each communication line control device 104 and stored in the flash memory of the memory 204. As a result, when the power-on command including the identification code is transmitted on the communication line 122, the communication line control device 104 attached to each small-sized information processing device 101 interprets the identification code and turns on the power. Alternatively, it is determined whether or not to disconnect. Therefore, the plurality of small information processing apparatuses 101 connected to the communication line 122
Can be individually selected and turned on or off.

Furthermore, in each of the embodiments of the present invention, even when a large number of small-sized information processing devices 101 are turned on at the same time, the plurality of small-sized information processing devices 101 are turned off one by one at a time. By doing so, it is possible to suppress a sudden change in the current due to the inrush current when the power is turned on to one small information processing device. That is, the inrush current of each small information processing device is
When they occur at the same time, a very large value is shown, but if the power is turned on by shifting the time by about 10 milliseconds, it is possible to reduce the inrush current to about one small information processing device. Therefore, when instructing a large number of small information processing devices to turn on the power, the communication control unit 201 of the communication line control device 104
A command to turn on the power to each small-sized information processing device is issued by shifting the time by about 10 milliseconds. Therefore, even in a small-scale information processing system including 100 small-sized information processing devices, all the small-sized information processing devices are powered on in one second, so that the user can operate the small-sized information processing system. The difference in the time when the power is turned on does not matter in operation.

<Second Embodiment> FIG. 3 is a diagram showing the configuration of one small information processing apparatus and its associated apparatus in a small information processing system according to the second embodiment of the present invention. In the figure, the same components as those in FIG. 1 are designated by the same reference numerals, and the description thereof will be omitted.

The present embodiment differs from the first embodiment in that the power supply unit 10 built in the small-sized information processing apparatus 101 is used.
3, a power supply control interface 113 is provided, which is connected to the power supply control interface 106 of the communication line control device 104 via a power supply control line 112, and does not require an external power supply device such as the uninterruptible power supply 120 of FIG. Is in the point.

The power supply device 103 of this embodiment includes a manual power switch (not shown) and a power control interface 113.
The power is turned on / off by either one of the controls. As a result, even if the manual power switch is in the OFF state, the communication line control device 104 controls the power supply device 103 based on the command from the communication line 122, as in the first embodiment, so that the remote location can be controlled. The power can be turned on or off from.

Further, the power supply control interface 1 described above
Several (1) communication line control devices 1 including a plurality of small-sized information processing devices 101 having a built-in power supply device 103
It is also possible to control with 04, in this case, from one communication line control device 104, each small information processing device 101
To the power control interface 113 of the power supply device 103 of
The power supply control line 112 is daisy chain connected, for example. At this time, as in the case of the first embodiment, if the system configuration is such that only the communication line control device 104 is given an identification number, several small-sized information processings controlled by one communication line control device 104 will be performed. The device 101 is turned on or off at the same time.

A unique identification number is set for each power supply device 103 with the power supply control interface 113, and the identification number is added to the control command from the communication line control device 104 to the power supply device 103, so that one sheet is provided. It goes without saying that the plurality of power supply devices 103 controlled by the communication line control device 104 can be individually controlled.

<Third Embodiment> FIG. 4 is a block diagram showing the arrangement of one small information processing apparatus and its associated apparatus in a small information processing system according to the third embodiment of the present invention. In the figure, the same components as those in FIGS. 1 and 3 are designated by the same reference numerals, and the description thereof will be omitted as in the previous case.

The present embodiment is different from the second embodiment in that the power supply unit 10 built in the small-sized information processing device 101 is used.
3, a small-capacity power supply unit (power supply unit) and a large-capacity power supply unit (power supply device) are mounted, and the power output connector 121 of the small-capacity power supply unit is connected to the power supply connector 107 of the communication line control device 104 via the power supply wire 116. It is connected to.

The small-capacity power supply unit of the power supply device 103 is
When power is supplied to the power supply wire 114, power is always output to the power output connector 121. The large-capacity power supply unit of the power supply device 103 is controlled by a manual power switch (not shown) and a control signal via the power supply control interface 113, as in the power supply device of the second embodiment. The power can be turned on / off by controlling either one of them, and the large-capacity power supply unit can supply power to the main body of the small-sized information processing apparatus 101. Therefore, even if the manual power switch is OFF, the communication line control device 104 causes the power supply device 103 to operate based on a command from the communication line 122.
By controlling the large-capacity power supply unit, the power can be turned on or off from a remote place as in the above-described embodiments.

<Fourth Embodiment> FIG. 5 is a diagram showing the configuration of one small information processing apparatus and its associated apparatus in a small information processing system according to the fourth embodiment of the present invention. In the figure, the same elements as those in FIGS. 1, 3 and 4 are designated by the same reference numerals, and the description thereof will be omitted as in the previous case.

This embodiment is similar in operation to the third embodiment, but the difference of the present invention from the third embodiment is that the power supply unit 103 has a small capacity power supply unit (power supply device). The power output connector 121 and the power supply control interface 113 for controlling the large-capacity power supply unit (power supply device) of the power supply device 103 are provided inside the housing of the small-sized information processing device 101. With such a configuration, it is possible to reduce the number of wires of electric wires outside the housing of the small-sized information processing apparatus 101 and improve usability.

The present invention has been described above with reference to the illustrated embodiments, but it goes without saying that various modifications can be made by those skilled in the art without departing from the spirit of the present invention. Other than the printed circuit board shown in the embodiment, it may have a shape like an IC card, or may be an expansion unit as appropriate.

Further, as a power supply device that supports the communication line control device 104, a rechargeable battery (storage battery) such as a secondary battery may be adopted. Can be configured. The storage battery may be charged from the main body of the small-sized information processing device 101 when power is supplied to the main body.

[0055]

The effects of the present invention described above are listed below.

The power supply control of a large number of small-sized information processing devices can be efficiently performed by a small number of managers from a remote place.

It is possible to supply power only to a required small-sized information processing device from a remote place, which contributes to energy saving.

Since it is possible to easily turn on the power sources of a large number of small information processing devices in order, it is possible to suppress an inrush current, and a commercial power supply line or a transformer of a building in which a large number of small information processing devices are installed. It is possible to reduce the load on commercial power supply equipment such as.

Since the communication line control device of the present invention is controlled by the CPU of the small information processing device body when the power supply of the small information processing device body equipped with the communication line control device is supplied, the conventional OS It does not hinder compatibility with or application software.

In the communication line control device of the present invention, the signal line for controlling the power supply device is independently provided without passing through the connecting means such as the expansion slot of the small-sized information processing device.
No special connecting means (connector) is required on the conventional small-sized information processing device side.

By making it possible to change the identification number for identifying the plurality of small information processing devices connected to the communication line,
It will be possible to easily dismantle, divide, and reconstruct a small-scale information processing system that uses small-sized information processing devices.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a configuration of one small information processing device and devices associated therewith in a small information processing system according to a first embodiment of the present invention.

FIG. 2 is an explanatory diagram showing a configuration of a communication line control device used in each embodiment of the present invention.

FIG. 3 is an explanatory diagram showing a configuration of one small information processing device and devices associated therewith in the small information processing system according to the second embodiment of the present invention.

FIG. 4 is an explanatory diagram showing configurations of one small information processing device and devices associated therewith in the small information processing system according to the third embodiment of the present invention.

FIG. 5 is an explanatory diagram showing configurations of one small information processing device and devices associated therewith in the small information processing system according to the fourth embodiment of the present invention.

[Explanation of symbols]

 101 small-sized information processing device 102 main board 103 power supply device 104 communication line control device 105 communication line interface 106 power supply control interface 107 power supply connector 108 electronic component 109 expansion slot 110 transceiver or hub 111 communication line signal line 112 power supply control line 113 power supply control interface 114 power supply wire 115 power supply wire 116 power supply wire 117 independent power supply 118 commercial power supply wire 119 outlet 120 uninterruptible power supply 121 power output connector 122 communication line 201 communication control unit 202 CPU 203 external power supply control unit 204 memory 205 power supply detection Part 206 Switching means 207 Connector 208 Power detection line 209 Bus transceiver

Claims (18)

[Claims] 1. A small information processing device, a power supply device for supplying electric power to the small information processing device, a communication line control device having a communication line interface built in the small information processing device, and the small information processing device. What is claimed is: 1. A small-scale information processing system comprising: and at least one other information processing device connected by a communication line via the communication line control device, wherein the other information processing via the communication line. A small-scale information processing system, which turns on / off a power source of the small-sized information processing apparatus according to a command from the apparatus. 2. The small-scale information processing system according to claim 1, wherein the power supply device is an external power supply device such as an uninterruptible power supply independent of the small information processing device. 3. The small-sized information processing device according to claim 1, wherein the power-supply device is a first power-supply device that is independent of the small-sized information processing device and can be externally controlled. When power is supplied to the power supply line to the small information processing device, the main body function of the small information processing device is automatically operated, and the communication line control device is independent from the second small information processing device. A small-scale information processing system which is operated by a power supply device and is provided with a power supply control interface to the first power supply device. 4. The power supply device according to claim 1, wherein the power supply device is independent of the small information processing device and can be controlled from the outside, and power is supplied to a power supply line from the power supply device to the small information processing device. Is supplied,
The main function of the small-sized information processing device automatically operates, and the communication line control device has a built-in storage battery and is always in operation, and includes a power supply control interface to the power supply device. Small information processing system. 5. The communication line control device according to claim 4, further comprising detection means for detecting whether or not power is supplied to the main body of the small-sized information processing apparatus, and the power is supplied to the main body of the small-sized information processing apparatus. A small-scale information processing system, characterized in that the storage battery is charged when supplied. 6. A small information processing device, a power supply device for supplying electric power to the small information processing device, a communication line control device attachable to the small information processing device, the small information processing device and the communication line control. A small-scale information processing system comprising: at least one other information processing device connected by a communication line through the device, wherein the communication line control device is in the form of a communication line board or a communication line card. A small-scale information processing system, which is mounted on the small-sized information processing apparatus and is supplied with electric power by another power supply apparatus which is different from the power supply apparatus and is independent of the small-sized information processing apparatus. 7. The small-scale information processing system according to claim 6, wherein the power supply device is an external power supply device such as an uninterruptible power supply independent of the small information processing device. 8. The communication line control device according to claim 6, wherein the communication control unit, the communication line interface, a power supply control interface to the power supply device for the main body of the small information processing device, and the small size information. A small-scale information processing system comprising at least a CPU and a semiconductor memory device that can operate independently of the main body of the processing device. 9. The small-scale information processing system according to claim 8, wherein the communication line control device includes detection means for detecting whether or not power is supplied to the main body of the small-sized information processing device. 10. The small-sized information processing according to claim 8, wherein at least a part of the semiconductor memory device of the communication line control device is constituted by a flash memory, and the small-sized information processing is performed according to a communication line protocol (control procedure). A small-scale information processing system characterized in that a control program of the CPU capable of operating independently of the main body of the apparatus can be rewritten. 11. The small-sized information processing device according to claim 8 or 9, wherein at least a part of the semiconductor memory device of the communication line control device is configured by a flash memory, and the small-sized information processing device is matched with an OS of the small-sized information processing device body. A small-scale information processing system characterized in that a control program of the CPU capable of operating independently of the main body of the apparatus can be rewritten. 12. A small-sized information processing device, a power supply device which supplies power to the small-sized information processing device and can be externally controlled, and which is incorporated in the small-sized information processing device, and which is incorporated in the small-sized information processing device. A communication line control device having a power supply control interface and a communication line interface; another power supply device independent of the small information processing device for supplying power to the communication line control device; the small information processing device and the communication line; A small-scale information processing system comprising at least one other information processing device connected by a communication line via a control device, and a command from the other information processing device via the communication line. According to the above, the small-scale information processing system is characterized in that the small-sized information processing device is turned on / off. 13. The one according to claim 12, wherein the communication line control device of the small-sized information processing device including the communication line control device provides the one or more small-sized information processing devices not including the communication line control device. Control the operation of the built-in power supply device that can be controlled from the outside, set a unique identification number to the power supply device of each small-sized information processing device, and supply only the power control command of the same identification number. A small-scale information processing system characterized by making the device react. 14. A small-sized information processing device, a small-capacity power supply device that automatically operates when electric power is supplied to a power supply line to the small-sized information processing device, and control via a power switch or a power control interface. A large-capacity power supply device for the main body of the small-sized information processing device that operates by a signal, and power supply from the small-capacity power supply device built in the small-sized information processing device, and a power control interface and a communication line interface are provided. A small-scale information processing system comprising: a communication line control device provided; and the small information processing device and at least one other information processing device connected by a communication line via the communication line control device. The power of the small information processing device is turned on / off in response to a command from the other information processing device via the communication line. Small-scale information processing system according to claim. 15. The small-sized information processing device according to claim 12, wherein the power supply control interface in the power supply device for the main body of the small-sized information processing device is provided outside the housing of the small-sized information processing device. A small-scale information processing system characterized by enabling control of the power supply of the main body of. 16. The main body of the small-sized information processing apparatus according to claim 12, wherein a power supply control interface in a power supply device for the main body of the small-sized information processing apparatus is provided inside a housing of the small-sized information processing apparatus. A small-scale information processing system, characterized in that the power supply of the main body of the small-sized information processing device can be controlled from an expansion unit, a board, or a card installed inside. 17. The method according to any one of claims 1 to 11 or 13 to 1.
In any one of 5 above, by setting a unique identification number to each of the small-sized information processing devices and including the identification number in a command from the communication line, power control of each of the small-sized information processing devices is performed. A small-scale information processing system characterized by being performed individually. 18. A plurality of small information processing devices are connected to one external power supply device, and the plurality of small information processing devices and at least one other information processing device connected by a communication line are provided. In this small-scale information processing system, at least one of the small-sized information processing devices is provided with a communication line control device that receives power from another power supply device different from the power supply device. At least a communication control unit, a communication line interface, a power supply control interface to the external power supply device, a CPU and a semiconductor memory device that can operate independently of the main body of the small-sized information processing device are provided, and the communication circuit is provided. In response to a command from the other information processing device via the line, the power of the external power supply device is turned on / off, and all the front power supplies connected to the one external power supply device are turned on / off. Small information processing system and performing on / off the power supply of the small-sized information processor.