JPH11345051A - Computer system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a computer system using an extended unit capable of easily constructing a network system provided with a WOL function and an AOL function in the computer system using the extended unit. SOLUTION: Under the state of supplying a power source (LAN-PS) for an operation to a LAN circuit 22, at the time of turning the power of a PC main body 10 OFF or when second power source control signals (WOREN) are in an active state at the time of an end processing when the PC main body 10 is undocked, a control circuit 21 continues the supply state of the power source (LAN-PS) for the operation to the LAN circuit 22. Thus, in this computer system using the extended unit, the network system provided with the WOL function and the AOL function is easily constructed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a first device having a data processing function and a second device in which a function expansion circuit for expanding the function of the device is mounted and the first device is detachably mounted. The present invention relates to an electronic device serving as a device, a computer that can be mounted on the function expansion device, and a function expansion device that incorporates a circuit that expands the functions of the computer.

[0002] The present invention also provides an expansion device including a computer main body and a dock / undock mechanism which has a built-in functional circuit for expanding a specific function of the computer main body and which can arbitrarily attach and detach the computer main body. Related to computer systems.

Further, the present invention comprises a computer main body and an extension unit to which the computer main body can be detachably attached, and the computer main unit operates from a stop state or a sleep state when a specific packet is received from a network. The present invention relates to a computer system having a wake-up function for returning to a state, an alert function for automatically notifying a server side of an abnormality or a change in state via a network, or a network control device having the above functions.

[0004]

2. Description of the Related Art In recent years, small personal computers such as notebook-sized and pocket-sized computers have been reduced in size and weight, but have remarkably become faster and more multifunctional. While this type of personal computer has been devised to incorporate many functional circuits into a narrow housing space, it has standard functional circuits as standard equipment and can selectively perform many remaining functions including application functions as necessary. A so-called optional mounting configuration that enables mounting is adopted. As one typical function expansion means, various expansion units called docking devices, dockers, or port replicators each having a docking / undocking mechanism capable of attaching and detaching a portable computer main body arbitrarily are provided. 2. Description of the Related Art A system configuration which is prepared and expanded in function when a portable computer body is used on a desk is widely used.

[0005] In a computer system comprising a portable computer main body and an extension unit having a dock / undocking mechanism of the computer main body to which the computer main body can be arbitrarily attached and detached, the computer main body is constructed as follows. By attaching the system to the extension unit, it is possible to easily construct a desired arbitrary system that sufficiently exhibits the performance and functions of the computer main body. In a system configuration using this expansion unit, in order to achieve multi-function, regardless of the power-on / off state of the docked (mounted) computer main unit or the computer main unit depending on the function, Even in the undocked (removed) state, there may be a case where a desired functional module is desired to be continuously operated as needed. However, in this type of conventional system, it has not been possible to realize a function that can meet such a demand.

As a specific example, for example, a plurality of personal computer terminals scattered in a company or the like are connected to a LAN.
It is conceivable to construct a network system which can connect to a common server and start up each personal computer terminal connected to the LAN by remote control arbitrarily from the server side to provide information.

When constructing this type of network system, a LAN circuit is provided in each extension unit, and this LAN
When the circuit receives a specific packet from the network,
A wake-up function that sends a wake-up signal to the computer and returns the computer from the halt or sleep state to the operating state, and an alert function that automatically notifies the server via the network of abnormalities, state changes, etc. This is achieved by:

However, a network computer having such a wake-up function and an alert function could not be realized on a conventional extension unit. The problem of the related art at this time will be described with reference to FIGS.

[0009] The system shown in FIG.
Power supply (INT-PS) for operating the internal circuit of the cker)
Is connected to an external power supply (EX
−PW), which is generated by the computer itself (PC
In accordance with the extension unit power on / off control signal (DOCPWON) sent from the main unit, the power supply for operation (INT-PS) is supplied to the power supply circuit in the extension unit (Docker).

[0010] The system shown in FIG.
Power (INT-PS) is supplied to the internal circuit of the expansion unit (Docker) from the power circuit (PS circuit) of the computer (PC) mounted on the docker).

[0011] In any of these system configurations, the computer main unit (PC main unit) includes an extension unit (Dock).
er), the power supply for operation (INT-PS) cannot be supplied to the internal circuit of the expansion unit (Docker) in the (undocked) state. In addition, even when the power of the computer (PC) attached (docked) to the expansion unit (Docker) is off, the operation power supply (INT-PS) cannot be supplied to the internal circuit of the expansion unit (Docker). . Therefore, a system using the conventional extension unit cannot realize a network system having the wake-up function and the alert function as described above.

[0012]

As described above, conventionally, in a computer system using an expansion unit, regardless of the power on / off state of a docked (mounted) computer main body or a computer. Even when the main body is undocked (removed), if the user wants to continue operating any function module in the expansion unit as needed, the function cannot be realized. As a specific example, a network system having, for example, a wake-up function and an alert function cannot be realized on a system using an extension unit.

The present invention has been made in view of the above circumstances,
In a computer system using an extension unit,
Regardless of the power-on / off state of the computer attached to the expansion unit, or even when the computer is removed from the expansion unit, any function module in the expansion unit can be continued as needed. An object of the present invention is to provide a computer system using an extension unit which can be operated, thereby easily realizing a network system having a wake-up function and an alert function on a system using the extension unit. .

[0014]

According to the present invention, there is provided a first device having a data processing function, and a function expansion circuit for expanding the function of the first device, wherein the first device is detachably mounted. In the electronic equipment that is the second device to be performed,
The second device receives first and second power supply control signals from the first device, and supplies / cuts off operation power to the function expansion circuit by the first power supply control signal,
When the second power control signal is in a specific state,
A control circuit for continuously supplying the operation power supply to the function expansion circuit regardless of the operation power supply cutoff control by the power supply control signal is provided.

Further, the present invention provides a first device having a data processing function and a second device in which a function expansion circuit for expanding the function of the first device is mounted and the first device is detachably mounted. In the electronic device comprising the device, the first device receives the first and second power control signals from the first device, and the second device receives the first and second power control signals from the first device to the function expansion circuit. When the first device is removed while the operation power is being supplied to the function expansion circuit when the second power control signal is in a specific state, A control circuit for continuously supplying operation power to the function expansion circuit is provided.

According to another aspect of the present invention, there is provided a computer which can be mounted on a function expansion device, comprising: a first power supply control signal for supplying / cutting off operation power to a function expansion circuit provided in the function expansion device; And a second power supply control signal for instructing whether to continuously supply the operation power supply to the function expansion circuit regardless of the operation power supply cutoff control by the first power supply control signal. A signal output circuit for sending out is provided.

According to the present invention, there is also provided a computer which can be mounted on a function expansion device, comprising: a first power supply control signal for controlling supply / cutoff of operation power to a function expansion circuit provided in the function expansion device; A second power supply control signal for instructing whether to continuously supply the operation power to the function expansion circuit when the power supply for operation is supplied to the function expansion circuit and the function expansion circuit is detached from the function expansion device. And a signal output circuit for sending the signal to the function expansion device.

The present invention is also a function expansion device having a built-in circuit for expanding the function of a computer, the device having first and second control signal input terminals, and a signal of the first control signal input terminal. On / off control of the power supply for operation of the built-in circuit is performed according to the level, and when the second control signal input terminal is at a specific signal level, regardless of the signal level of the first control signal input terminal, the internal power supply is controlled. And a control circuit for continuously supplying operation power to the circuit.

The present invention also relates to a computer system comprising a computer main body and an extension device having a built-in function circuit for expanding a specific function of the computer main body and capable of arbitrarily mounting and removing the computer main body. Circuit connection means for supplying a first power supply control signal and a second power supply control signal from the computer main body to the extension device; and a power supply for operating the functional circuit provided in the extension device by the first power supply control signal Supply / shutoff control,
The second power supply control signal determines whether or not the power supply for operation is interrupted by the first power supply control signal or whether the power supply for operation is continuously supplied to the functional circuit regardless of removal of the computer main body. Control means for determining and controlling the supply of operating power to the functional circuit according to the determination.

According to the present invention, there is provided a computer system comprising a computer main body and an extension unit to which the computer main body is removably attachable, wherein the computer main body is included in the extension unit when a specific packet is received from a network. A wake-up function for returning to an operation state from a halt state or a sleep state, an alert function for automatically notifying a server side of an abnormality or a state change via a network, or a network control device having each function, and Follow the instructions in
First power control means for controlling on / off of the power supply for operation of the network control device; and power supplied to the network control device in accordance with an instruction from the computer main body, which is turned off by the first power control means. And a second power supply control means for continuously supplying operation power to the network control device when the computer main body is removed or when the computer main body is detached.

[0021]

In an electronic apparatus comprising a first device having a data processing function and a second device on which a function expansion circuit for expanding the function of the device is mounted and the first device is detachably mounted. Then, the control circuit provided in the second device controls the supply / cutoff of the operation power to the internal function expansion circuit by the first power control signal received from the first device. When the second power supply control signal received from the first device is in a specific signal level state, the operation power supply is supplied to the internal function expansion circuit regardless of the cutoff control of the operation power supply by the first power supply control signal. Is supplied continuously.

The present invention also provides a first device having a data processing function, and a second device in which a function expansion circuit for expanding the function of the first device is mounted and the first device is detachably mounted. In the electronic apparatus comprising the device, the control circuit provided in the second device supplies / interrupts the operation power to the internal function expansion circuit by the first power control signal received from the first device. Control. Also, the second device received from the first device
When the power supply control signal is in a specific state, the power supply for operation is continued to the function expansion circuit even when the first device is removed while the power supply for operation is supplied to the internal function expansion circuit. Supply.

Also, a computer provided with a signal output circuit for sending the first and second power supply control signals to the function expansion device is provided with a function expansion device provided in the function expansion device when the computer is mounted on the function expansion device. Supply operating power to the circuit /
A first power supply control signal for interrupting control, and a second instruction for instructing whether to continuously supply operating power to the function expansion circuit regardless of the shutoff control of the operating power by the first power control signal. When the power supply control signal is sent to the function expansion device and the operation power supply is cut off by the first power supply control signal, the operation power supply can be arbitrarily continued to be supplied to the function expansion circuit.

Also, a computer provided with a signal output circuit for sending the first and second power control signals to the function expansion device is provided with the function expansion device provided in the function expansion device when the computer is mounted on the function expansion device. Supply operating power to the circuit /
A first power supply control signal for interrupting control, and whether to continuously supply operation power to the function expansion circuit when the power supply for operation is supplied to the function expansion circuit and the function expansion circuit is removed from the function expansion device. By sending a second power supply control signal instructing the function expansion device to the function expansion device, the power supply for operation can be arbitrarily continued to the function expansion circuit even when the attachment to the function expansion device is released. Can supply.

Further, the function expansion device having a first and a second control signal input terminal having a built-in circuit for expanding the function of the computer is provided by the signal level of the first control signal input terminal. Is turned on / off, and when the second control signal input terminal is at a specific signal level, regardless of the signal level of the first control signal input terminal,
The power supply for operation is continuously supplied to the built-in circuit.

Further, in a computer system comprising a computer main body and an expansion device capable of arbitrarily mounting and removing the computer main body, the expansion device is provided with the above functional circuit by a first power control signal received from the computer main body. Supply / interruption control of the operation power supply, and when the second power supply control signal also received from the computer main body is in a specific state, the computer main body is In any case of removal, the power supply for operation is continuously supplied to the functional circuit.

Further, the computer comprises a computer and an extension unit to which the computer can be removably mounted, and the computer returns to an operation state from a stop state or a sleep state when a specific packet is received from a network. Wake-up function, an alert function for automatically notifying the server side of an abnormality or state change via a network, or a computer system having a network control device having each function. The power control means controls on / off of the power for operation of the network control device according to an instruction from the computer main body. The second power supply control means of the extension unit is configured to switch off the power supplied to the network control device by the first power supply control means or to remove the computer main body in accordance with an instruction from the computer main body. At this time, the power for operation is continuously supplied to the network control device.

[0028]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a computer system according to the embodiment of the present invention.

This computer system comprises a notebook type personal computer main body (referred to as a PC main body) 10 which can be driven by a battery, and an extension unit (Docker) provided with a dock / undocking mechanism which allows the PC main body 10 to be freely attached and detached. 20.

Since the PC body 10 is easy to carry and can be driven by a battery, it is possible to perform data input / output, data transmission / reception, and the like at the carrying destination without specifying the place of use. The extension unit 20 is arranged on a desk such as an office desk with a predetermined wiring including a power cable, and the PC main body 10 is fixed to a fixed position and connected to a connector as necessary, so that the function in the extension unit is achieved. Function expansion using a circuit becomes possible. Here, a LAN circuit 22 is shown as an example of a functional circuit built in the extension unit 20.

The LAN circuit 22 in the extension unit 20
Wake_on_LAN (which communicates with another PC (personal computer) or a server via a LAN), which returns the main body of the computer from a halt state or a sleep state to an operation state when a specific packet is received from the network. A WOL) function and an Alert_on_LAN (AOL) function for automatically notifying the server side of an abnormality or a change in state via a network.

The connector connection mechanism between the PC body 10 and the extension unit 20 includes two types of power control signals sent from the PC body 10 to the extension unit 20. One of them is a functional circuit in the expansion unit 20, that is, L here.
This is a first power control signal (DOCPWON) for controlling ON / OFF of the power for operation of the AN circuit 22, and the other is a first power control signal (DOCPWON) while the power for operation of the LAN circuit 22 is supplied. When the power supply for operation is controlled to be turned off by the power control signal (DOCPWON) 1 or when the PC body 10 is undocked, it is instructed whether or not the power supply for operation is continuously supplied to the LAN circuit 22. This is a second power supply control signal (WOREN).

These two types of power supply control signals (DOCPWO)
N / WORN) is the control circuit 2 in the extension unit 20.
1 is input. The control circuit 21 sends a power on / off instruction signal to the power supply circuit 23 in accordance with the two types of power control signals (DOCPWON / WOREN).

Here, the first power supply control signal (DOCP)
WON) outputs a power-on instruction signal (PW-ON) to the power supply circuit 23 when instructing power-on, and when the first power control signal (DOCPWON) instructs power-off, the second power control signal (PW-ON). When the signal (WORN) is in the inactive state, the power-off instruction signal (PW-OF)
F) to the power supply circuit 23. When the first power control signal (DOCPWON) instructs power-off,
When the second power control signal (WOREN) is in the active state, the power-off instruction of the first power control signal (DOCPWON) is invalidated, and the power-on instruction state is continued.

As described above, the control circuit 21 operates when the PC main unit 10 is powered off while the power supply for operation (LAN-PS) is supplied to the LAN circuit 22 or when the PC is turned off.
At the end processing when the main body 10 is undocked,
When the second power supply control signal (WOREN) is in the active state, the operation power supply (LAN-P
The supply state of S) is continued.

The power supply circuit 23 controls the operation power supply (LAN-PS) to the LAN circuit 22 in accordance with the power on / off instruction signal output from the control circuit 21. That is, the power supply circuit 23 supplies the LAN circuit 22 with an operation power supply (L
AN-PS) is supplied to the PC main unit 10.
When the power off instruction is issued from the
When the second power control signal (WOREN) is in the active state at the time of the ending process when the undock is performed, the operating power (LAN-PS) is continuously supplied to the LAN circuit 22. At this time, the operation power supply (LAN-PS) supplied to the LAN circuit 22 is generated based on an external AC adapter power supply (EX-PW). When the PC body 10 is undocked, a user operation for unlocking the lock mechanism of the PC body 10 docked to the extension unit 20 is involved. The control circuit 21 outputs the second power supply control signal (WORE) at this lock release signal input timing.
N) to determine the state of the second power supply control signal (WOR).
EN) is in the active state, the power-on instruction state is maintained, and the LAN circuit 22 is supplied with an operation power supply (LAN-
PS).

The operation of the embodiment of the present invention will be described with reference to FIG. The LAN circuit 22 provided in the extension unit 20 is line-connected to a server (not shown) via the LAN. In addition, an external AC adapter power supply (EX-P
W).

The PC main body 10 is docked to the extension unit 20 and fixed by a lock mechanism (not shown), so that the PC main body 10 and the extension unit 20 are connected by a connector and are connected to a circuit. When a first power supply control signal (DOCPWON) for instructing power-on is supplied from the PC main body 10 to the control circuit 21 in the expansion unit 20 in a state where the PC main body 10 is docked, the control circuit 21 An ON instruction signal (PW-ON) is transmitted to the power supply circuit 23. The power supply circuit 23 supplies the power-on instruction signal (PW
-ON), an external AC adapter power supply (EX-P
The operation power supply (LAN-PS) generated based on W) is L
It is supplied to the AN circuit 22.

The LAN circuit 22 starts operating by receiving an operation power supply (LAN-PS) from the power supply circuit 23, and communicates with the PC main body 10 docked via the LAN and another PC (personal computer) or server. Enable communication between

When the PC main unit 10 is docked, the control circuit 2 in the extension unit 20 is connected to the PC main unit 10.
1, a first power supply control signal (DO)
When the second power supply control signal (WOREN) is in the inactive state at that time when CPWON) is supplied,
The control circuit 21 outputs a power-off instruction signal (PW-OF).
F) to the power supply circuit 23. The power supply circuit 23 cuts off (cuts off) the supply of the operating power supply (LAN-PS) to the LAN circuit 22 in accordance with the power-off instruction signal (PW-OFF).

When the PC main body 10 is docked, the control circuit 2 in the extension unit 20 is connected to the PC main body 10.
1, a first power supply control signal (DO)
If the second power control signal (WOREN) is active at that time when CPWON) is supplied, the control circuit 21 invalidates the power-off instruction of the first power control signal (DOCPWON), and OFF instruction signal (P
(W-OFF) is not output and the power-on instruction state is maintained. Therefore, the power supply circuit 23 continuously supplies an operation power supply (LAN-PS) to the LAN circuit 22.

At this time, since the LAN circuit 22 keeps the operation state while the PC main body 10 is docked, the P.C.
The WOL function for returning the C body 10 from the stop state or the sleep state to the operation state becomes effective.

The LAN circuit 22 has an operating power supply (LA).
When the PC body 10 is undocked in a state where the N-PS is supplied, the control circuit 21 causes the second power supply control signal (WOR) at the lock input signal input timing at that time.
EN) to determine the state of the second power supply control signal (WO
When (REN) is in the active state, the power-on instruction state is maintained as described above. Therefore, the power supply circuit 23
An operation power supply (LAN-PS) is continuously supplied to the AN circuit 22.

In this case, since the LAN circuit 22 keeps operating state while the PC main body 10 is undocked, the AOL function for automatically notifying the server side of an abnormality or a state change through the network is provided. Becomes effective.

Alternatively, the LAN circuit 2 of the extension unit 20
2 has a Heart_beat function for notifying the server side of the connection state at regular intervals via the network, so that the function becomes effective.

Alternatively, the LAN circuit 2 of the extension unit 20
2, a reception data storage mechanism for realizing a reception data storage function is provided, and a power supply synchronized with the extension unit 20 is supplied to the reception data storage mechanism, whereby a mailbox type data storage function can be realized.

As described above, the control circuit 21 operates when the PC main unit 10 is powered off while the power supply for operation (LAN-PS) is supplied to the LAN circuit 22,
At the end processing when the main body 10 is undocked,
When the second power supply control signal (WOREN) is in the active state, the operation power supply (LAN-P
The supply state of S) is continued. Thereby, in the computer system using the extension unit, the WOL function and the A
A network system having an OL function can be easily constructed.

FIG. 2 shows a configuration that further embodies the computer system shown in FIG. The PC main body 100 in this computer system has a LAN docker (LAN_Dock) which is an extension unit for extending its function.
er) 200. The PC body 100 and the LAN docker 200 are connected by a docking connector 300 provided respectively.

The LAN docker 200 has a LAN controller 31 for communicating with other PCs and servers via the LAN. LAN controller 31
It supports the Wake_on_LAN function (WOL) and the Alert_on_LAN (AOL) function described above. When the WOL function is set to a valid state, the LAN controller 31 outputs a wake-up signal Wak for automatically turning on the PC body 100 when a specific packet is received from the server via the LAN.
Generate e_up. When the AOL function is set to be valid, the LAN controller 31 detects an abnormality in the PC main body 100 or the PC main body 100 and the LAN docker 20.
A status change such as docking / undocking between 0 and the like is automatically notified to the server via the LAN.

LAN with LAN controller 31
The docker 200 is used, for example, in an office, placed on a desk of each employee, and fixedly connected to a LAN cable provided in the office. Since the power consumption of the LAN controller 31 is relatively large, an AC adapter power supply is used as its operation power supply.

The PC body 100 is usually used in an office in a state where it is connected to the LAN docker 200. When going out, the PC body 100 is connected to the LAN docker 200.
Used to remove from. When the PC main body 100 is detached from the LAN docker 200, the PC main body 1
It operates with a built-in battery or an external power supply supplied via an AC adapter. On the other hand, when the PC 100 is connected to the LAN docker 200,
Is operated by a built-in battery or an AC adapter power supply supplied from the LAN docker 200.

As shown in FIG.
CI bus 1, ISA bus 2, two I ² C buses 3, 4,
CPU module 11, main memory 13, VGA controller 13, DVD decoder 14, I / O controller 1
5, Q switch (Q-SW) 16, PCI interface bridge (PCI I / F) 17, HDD 18, flash BIOS-ROM 19, I / O control gate array (I / OGA) 50, embedded controller (EC) 51, power supply controller (PSC) 52, keyboard controller (KBC)
53 and a keyboard (KB) 54 are provided.

The CPU module 11 controls the operation of the entire system and executes data processing.
Here, a CPU, a cache, and a memory controller for controlling the main memory 12 are mounted.

The main memory 12 is used as a main memory of the system, and includes an operating system,
An application program to be processed, user data created by the application program, and the like are stored.

The VGA controller 13 includes an LCD and an external C which are used as a display monitor of the system.
Control RT. The I / O controller 15 is a gate array for controlling various I / O devices in the PC body 100, and includes various I / O devices such as a serial port, a parallel port, and a USB port provided on the back of the PC body 100.
It controls devices connected to the / O connector. P
When the C main unit 100 and the LAN docker 200 are connected, the I / O controller 15 sends the PC main unit 100
The signal supplied to the rear I / O connector is passed through to the rear connector of the LAN docker 200. As a result, the I / O connector on the back of the PC main body 100 is unusable because it is covered by the LAN docker 200.
The use of the O connector becomes possible.

The Q switch (Q-SW) 16 is connected to the internal PC
A switch circuit for connecting / disconnecting the I bus 1 and an external PCI bus of the LAN docker 200;
On / off control is performed by a switch control signal Q_SWON from a control gate array (I / O GA) 50. Turning on the Q switch (Q-SW) 16 enables the PC body 100 to use the LAN controller 31.

A PCI interface bridge (PCI
An I / F 17 is a gate array realized by a one-chip LSI, which has a built-in bridge function for bidirectionally connecting the PCI bus 1 and the ISA bus 2 and controls the HDD 18. An IDE controller for performing the operation is provided. The control line from the IDE controller is also led to the docking connector 300. When the DVD drive 40 indicated by a broken line in the figure is mounted on the LAN docker 200, the control can be performed.

The flash BIOS-ROM 19 is for storing a system BIOS, and is constituted by a flash memory so that a program can be rewritten. The system BIOS systematizes a function execution routine for accessing various hardware in the system. The system BIOS includes a system status including an operation state (power-on state), a stop state (power-off state), and an intermediate state. Power management function for setting the computer to a sleep state (suspend / hibernation state), a function for automatically recognizing changes in the system hardware environment, and a function for managing docking conditions with the LAN docker 200 Is provided.

The function of managing the docking conditions between the LAN docker 200 and the LAN
WOL / A described above only in combination with docker 200
This is performed so that the OL function can be used.

That is, in the present embodiment, when the WOL function of the LAN controller 31 is set to be valid, the unique I
D registration processing is performed, and the unique I
D (Doc_ID) is the flash BIOS-ROM 19
Registered in. When the wake-up signal Wake_up is generated from the LAN controller 31,
Do registered in the flash BIOS-ROM 19
The c_ID is compared with the Doc_ID of the LAN docker 200, and based on the result of the comparison, control is performed as to whether or not to set the PC main body 100 into the operating state.

The I / O control gate array 50 includes:
Bridge LS connecting internal ISA bus 2 and I ² C bus 3
I, and includes a plurality of register groups that can be read / written by the CPU module 11. By using these register groups, the CPU module 11
And a power supply controller (PSC) 52 on the I ² C bus 4
And communication with the embedded controller (EC) 51.

The embedded controller (EC) 51 cooperates with the power supply controller (PSC) 52 to form the PC main body 10.
0, and controls the power supply controller (P) in response to detection of the occurrence of a power on / off factor.
SC) 52, and a function of notifying the system BIOS of a power on / off factor that has occurred as a power management event. The built-in controller (EC) 51 includes a PC main body 100 and a LAN docker 20 as functions for controlling the LAN docker 200.
0, detection of docking / undocking with 0, power control of LAN docker 200, monitoring of wake-up signal from LAN controller 31, LA through I ² C bus 4,
A function such as communication with the N controller 31 is provided.

The detection of docking / undocking between the PC main body 100 and the LAN docker 200 is performed using a dock detect signal DOCDET. The dock detect signal DOCDET is output from the docking connector 300.
Is the voltage value of the predetermined pin of the LAN docker 200.
It becomes Low when the C body 100 is connected.

The power supply of the LAN docker 200 is controlled by the dock power on signal DOCPWON and the wake on LA
This is performed using the N enable signal WOLEN. The dock power-on signal DOCPWON is a power-on signal sent from the EC 51 of the PC main body 100 to the LAN docker 200 side. This dock power-on signal DOCPWO
When N becomes active, the LAN docker 200 is turned on.

The dock power-on signal DOCPWON becomes active because: 1) The dock detect signal DOCDET causes the LAN
When the docking of the PC main body 100 to the docker 200 is detected, 2) When the PC main body 100 is powered on in the docking state (power on by operating a power switch, power on by a wake-up signal Wake_up, etc.).

The dock power on signal DOCPWO
N becomes inactive when: 1) when the docking of the PC main body 100 is detected by the dock detect signal DOCDET; 2) when the power of the PC main body 100 is turned off in the docking state; 3) by the dock power by the system BIOS. ON signal D
This is when the OCPWON is turned off.

This dock power-on signal DOCPWON
Is used, the LAN is linked to the docking / undocking of the PC body 100 and the power on / off.
The power on / off of the docker 200 can be controlled.

Wake-on LAN enable signal WOL
EN indicates that the power of the PC body 100 is turned off or the PC body 1 is turned off.
Dock power-on signal D by undocking 00
Even when OCPWON is deactivated, LAN
This signal is used to determine whether to keep the docker 200 in the power-on state, and is sent from the I / O control gate array 50 of the PC main body 100 to the LAN docker 200 side.

The WOL /
To enable the AOL function, the system BIO
S causes wake-on LAN enable signal WOLE
N is set to the enable state. With this, LAN
Power can be supplied to the controller 31 at all times, and the LAN controller 31 can communicate with the server even when the PC body 100 is in the sleep or power off state.

The switch circuit 34 is a wake-on LAN
After the power-on state is maintained by the enable signal WOLEN, the power-on state is maintained even if the wake-on LAN enable signal WOLEN is lost. Therefore, after the WOL function of the LAN controller 31 is enabled, the PC main body 100 is turned off, and the LAN docker is turned off. Even if removed from 200, L
Power supply to the AN controller 31 continues.

The signal PCONF supplied from the LAN docker 200 to the embedded controller (EC) 51
Is a signal used to confirm whether or not the LAN controller 31 is powered on.

The LAN docker 200 includes a first type in which the DVD drive 40 is mounted and a second type in which the DVD drive 40 is not mounted. In both types of LAN dockers 200, in addition to the LAN controller 31, the EEPRO
An M32, a power supply circuit 33, a switch circuit 34, a lock mechanism 35 using an electromagnetic lock system, and a drive circuit 36 are provided.

The EEPROM 32 has a LAN docker 2
PnP information necessary for plug and play, such as attribute information of the 00 and attribute information of the LAN controller 31 mounted on the LAN docker 200, is stored. L
The unique ID of the LAN docker 200 is also included in the attribute information of the AN docker 200. When validating WOL / AOL, the unique ID of the LAN docker 200 is read from the EEPROM 32 by the system BIOS and stored in the flash BIOS-ROM 19.

The power supply circuit 33 is connected to the L
The internal power supply of the AN docker 200 is generated. Power for the LAN controller 31 is supplied from the power supply circuit 33 to the LAN controller 31 via the switch circuit 34.
The switch circuit 34 is controlled by a power control signal DOCPWON from the PC main body 100 side. DOCPWO
If N is active, the switch circuit 34 is turned on, whereby power is supplied to the LAN controller 31. If the power control signal DOCPWON is inactive, the switch circuit 34 is turned off, whereby the LAN controller 31 is turned off. The power supply to is shut off.

However, the switch circuit 34 has an internal state holding circuit, and when the power control signal DOCPWON changes from active to inactive, the wake-on LA
When the N enable signal WOLEN is active, the power supply state is maintained until the power control signal DOCPWON becomes active next time.

The lock mechanism 35 is connected to the LAN docker 200.
PC 100 docked to LAN docker 2
This locks the PC body 100 so as not to be ejected from 00, and locks the PC main body 100 while power is supplied to the solenoid by the drive circuit 36. Power is supplied to the solenoid by the drive circuit 36 from the PC body 100.
Is performed only during the operation period in which the LAN controller 31 can be used, that is, while the power control signal DOCPWON is kept active. This is to prevent the occurrence of a malfunction due to the ejection of the PC body 100 while the LAN controller 31 is in use.

By providing the power supply control function of the LAN docker 200 as described above, the L
When the PC main unit 100 is powered off or the PC main unit 100 is undocked while the power supply for operation (Vcc) is being supplied to the AN controller 31, the wake-on LAN enable signal W
When OLEN is in the active state, the supply state of the operating power supply (Vcc) to the LAN controller 31 is continued. Thus, a network system having a WOL function and an AOL function in a computer system using the extension unit can be easily constructed.

In the above-described embodiment, a notebook-type personal computer main body (PC main body) which can be driven by a battery and an extension unit (Dock / Undock mechanism) to which the PC main body can be freely attached / detached. Do
The present invention is not limited to this. For example, a dock / computer comprising a game machine body having a data processing function and a function expansion device having a function circuit for expanding the function is provided. In an electronic device or the like having an undocking mechanism, when the game machine body is undocked from the function expansion device, it is determined whether or not power is continuously supplied to the function circuit in the function expansion device. For example, when realizing a functional configuration that can be instructed before undocking, a plurality of housings can be combined and arbitrarily combined to apply to various system configurations that realize desired functions.

[0079]

As described above in detail, according to the present invention, in a computer system using an extension unit, regardless of the power on / off state of the computer attached to the extension unit, Even when removed from the expansion unit, any function module in the expansion unit can be continuously operated as necessary, thereby enabling, for example, a wake-up function and an alert on a system using the expansion unit. A computer system using an extension unit which can easily realize a network system having functions can be provided.

That is, according to the present invention, a first device having a data processing function and a function expansion circuit for expanding the function of the first device are mounted, and the first device is detachably mounted. In an electronic apparatus comprising a second device, the second device receives first and second power supply control signals from the first device, and receives the first and second power supply control signals from the first power supply control signal. Supply / interruption control to the function expansion circuit when the second power supply control signal is in a specific state, regardless of the control of the operation power supply by the first power supply control signal. By providing a control circuit for continuously supplying power, the second device can be connected to the second device as necessary regardless of the power on / off state of the first device mounted on the second device. Any function expansion circuit can be operated continuously. That.

Further, according to the present invention, a first device having a data processing function and a function expansion circuit for expanding the function of the first device are mounted, and the first device is detachably mounted. In an electronic apparatus comprising a second device, the second device receives first and second power supply control signals from the first device, and receives the first and second power supply control signals from the first power supply control signal. Supply / interruption control of the first power supply to the function expansion circuit when the second power supply control signal is in a specific state; When the first device is detached from the second device, the control circuit for continuously supplying the operation power to the function expansion circuit is provided. Operation of any function expansion circuit in the second device according to It can be.

Further, according to the present invention, in a computer attachable to a function expansion device, a first power supply control for supplying / cutting off operation power to a function expansion circuit provided in the function expansion device. A signal and a second power supply control signal for instructing whether to continuously supply the operation power to the function expansion circuit regardless of the cutoff control of the operation power by the first power control signal. With the configuration including the signal output circuit for sending to the device, the function expansion circuit in the function expansion device can be provided regardless of the power cutoff control for operating the computer when the computer is mounted on the function expansion device. Can be instructed whether or not to continuously supply the operation power.

According to the present invention, in a computer attachable to a function expansion device, a first power supply control for supplying / cutting off operation power to a function expansion circuit provided in the function expansion device. A signal and a second power supply for instructing whether to continuously supply the operation power to the function expansion circuit when detached from the function expansion device while the operation power is supplied to the function expansion circuit. A signal output circuit for sending a control signal to the function expansion device is provided, so that when the computer is detached from the function expansion device while the computer is mounted on the function expansion device, It can be instructed whether or not to continuously supply the operation power to the function expansion circuit inside the device.

According to the present invention, there is provided a function expansion device having a circuit for expanding a function of a computer, comprising a first control signal input terminal and a second control signal input terminal. ON / OFF of the power supply for operation of the built-in circuit according to the signal level of the first control signal input terminal, when the second control signal input terminal is at a specific signal level, regardless of the signal level of the first control signal input terminal. By providing a control circuit for continuously supplying operating power to the internal circuit, the control circuit can be used regardless of the power on / off state of the attached computer or when the computer is removed. However, any function module in the expansion device can be continuously operated as needed.

Further, according to the present invention, there is provided a computer system comprising a computer main body and an extension device having a built-in function circuit for expanding a specific function of the computer main body and capable of arbitrarily mounting and removing the computer main body. And a circuit connecting means for supplying a first power control signal and a second power control signal from the computer main body to the extension device, and an operation of the functional circuit provided in the extension device according to the first power control signal. Supply / cutoff control of the power supply for operation, and the second power supply control signal controls the cutoff of the power supply for operation by the first power supply control signal or the power supply for operation to the functional circuit irrespective of the removal of the computer main body. Control means for determining whether or not to supply continuously, and controlling the supply of the operating power to the functional circuit according to the determination; and Therefore, regardless of the power on / off state of the computer main body attached to the expansion device, or even in a state where the computer main body is detached from the expansion device, it is possible to perform any arbitrary operation in the expansion device as necessary. The function module can be continuously operated.

Further, according to the present invention, in a computer system comprising a computer main body and an extension unit to which the computer main body is detachably attached, the computer receives a specific packet from a network in the expansion unit. A network control device having any one or each of a wake-up function for returning the main body from a stopped state or a sleep state to an operation state, an alert function for automatically notifying a server side of an abnormality or a state change via a network, and the computer According to the instructions from the main unit, turn on / off the operation power supply of the network controller.
The first power control means for controlling the power supply and the power supplied to the network control device are turned off by the first power control means in accordance with an instruction from the computer main body, or the computer main body is removed. When
A network system having a wake-up function and an alert function on a system using an extension unit, comprising a second power control means for continuously supplying operation power to the network control device. Can be easily realized.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the configuration of a computer system according to an embodiment of the present invention.

FIG. 2 is an exemplary block diagram that further embodies the configuration of a computer system according to an embodiment of the present invention.

FIG. 3 is a block diagram showing a conventional system configuration.

FIG. 4 is a block diagram showing a conventional system configuration.

[Description of Signs] 10 ... Personal computer body (PC body), 20 ... Expansion unit (Docker), 21 ... Control circuit, 22 ... LAN circuit, 23 ... Power circuit, 31 ... LAN controller, 33 ... Power circuit, 34 ... Switch circuit 100 PC body 200 LAN docker 300 docking connector

Claims (7)

[Claims] 1. A first device having a data processing function, and a second device on which a function expansion circuit for expanding the function of the first device is mounted and the first device is detachably mounted. Receiving first and second power supply control signals from the first device to the second device, and supplying an operation power supply to the function expansion circuit by the first power supply control signal.
A control circuit that performs cutoff control and continuously supplies operation power to the function expansion circuit when the second power supply control signal is in a specific state, regardless of cutoff control of operation power by the first power supply control signal. An electronic device characterized by comprising: 2. A first device having a data processing function and a second device on which a function expansion circuit for expanding the function of the first device is mounted and the first device is detachably mounted. Receiving first and second power supply control signals from the first device to the second device, and supplying an operation power supply to the function expansion circuit by the first power supply control signal.
When the first device is removed while the power supply for operation is being supplied to the function expansion circuit when the second power supply control signal is in a specific state, the operation is performed by the function expansion circuit when the first device is removed. An electronic device comprising a control circuit for continuously supplying power. 3. A computer attachable to a function expansion device, comprising: a first power supply control signal for controlling supply / cutoff of operation power to a function expansion circuit provided in the function expansion device; And a second power control signal for instructing whether or not to continuously supply the operation power to the function expansion circuit irrespective of the cutoff control of the operation power by the power control signal. A computer comprising a circuit. 4. A computer which can be mounted on the function expansion device, wherein the first power control signal controls supply / cutoff of operation power to a function expansion circuit provided in the function expansion device; And a second power supply control signal for instructing whether to continuously supply the operation power to the function expansion circuit when the circuit is disconnected from the function expansion device while the operation power is being supplied to the circuit. A computer comprising a signal output circuit for sending the signal to a device. 5. A function expansion device having a circuit for expanding a function of a computer, the device having first and second control signal input terminals, wherein the first and second control signal input terminals are connected to each other by a signal level of the first control signal input terminal. A power supply for operation of the circuit is on / off controlled, and when the second control signal input terminal is at a specific signal level, the operation power is supplied to the built-in circuit regardless of the signal level of the first control signal input terminal. A function expansion device comprising a control circuit for continuously supplying power. 6. A computer system comprising a computer main body and an extension device having a built-in function circuit for expanding a specific function of the computer main body and capable of arbitrarily attaching and detaching the computer main body. Circuit connection means for supplying a first power supply control signal and a second power supply control signal to the extension device; and supply / interruption of an operation power supply for the functional circuit by the first power supply signal provided in the extension device. And controlling whether to continuously supply operating power to the functional circuit irrespective of removal of the computer main body, by controlling the second power control signal and controlling the cutoff of the operating power by the first power control signal. Control means for determining whether or not the power supply for operation is supplied to the functional circuit according to the determination. System. 7. A computer system comprising a computer main body and an extension unit to which the computer main body can be detachably attached, wherein the computer main unit is in a stopped state or a sleep state when a specific packet is received from a network. A wake-up function that returns from the state to the operation state, a network control device having any or each function of an alert function that automatically notifies the server side of an abnormality or a state change via a network, and according to an instruction from the computer main body, First power control means for controlling on / off of the power supply for operation of the network control device; and power supplied to the network control device is turned off by the first power control means in accordance with an instruction from the computer main body. Or when the computer body Computer system upon being removed, characterized by comprising and a second power supply control means for supplying continuously the operating power supply to the network controller.