JP3579129B2 - Portable computer - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a portable computer comprising equipped with expansion connector has a resume / suspend function.
[0002]
[Prior art]
In recent years, in portable computers, models provided with a PC card slot as an extended function have become widespread. Further, as an extension function using the extension connector of the portable computer body, an extension device such as a desk station having a PC card slot has been developed.
[0003]
Conventionally, when this type of extension device is connected and docked to a portable computer having a resume / suspend function, the PCMCIA controller provided on the extension device side is not initialized at the time of resumption. Therefore, there is a problem that the PC card slot on the expansion device side cannot be used in the resume mode.
[0004]
That is, when the PC card expansion unit is connected to the expansion connector, two PCMCIA controllers exist at one I / O port address.
[0005]
At this time, if the PC card expansion unit is connected after the suspend process (when the power is turned off in the resume mode setting state) in a state where the resume mode is set, the system is restarted (power on). At this time, the PCMCIA controller of the PC card expansion unit is not initialized, so that the PC card expansion unit cannot be used.
[0006]
[Problems to be solved by the invention]
As described above, conventionally, when an expansion device having a PC card slot is connected to a portable computer having a resume / suspend function, the PC card slot on the expansion device side cannot be used in the resume mode. There was a problem.
[0007]
The present invention has been made in view of the above circumstances, and has as its object to provide a portable computer in which a PC card slot of an extension device can be used in a resume mode.
[0008]
[Means for Solving the Problems]
The present invention relates to a portable computer having a resume mode setting means, a PC card slot and a built-in card controller, and an extension connector to which a PC card extension unit having a card controller can be connected. Determining means for determining whether or not the PC card expansion unit is connected to the expansion connector at the start of the operation below, and the PC card expansion unit being connected to the expansion connector by the determination means Means for initializing a card controller of the PC card expansion unit, means for setting a port address unique to the card controller of the PC card expansion unit, and a card controller of the PC card expansion unit. Port address After setting, characterized by comprising a means for setting the said means for initializing the internal card controller, and the controller-specific port address to the internal card controller.
[0012]
[Action]
When the PC card expansion unit is connected to the expansion connector, two PCMCIA controllers exist in one I / O port address.
[0013]
At this time, if the PC card expansion unit is connected during the period after the suspend process (when the power is turned off under the resume mode setting state) while the resume mode is set, the system is restarted. At this time, the PCMCIA controller of the PC card expansion unit is not initialized, so that the PC card expansion unit cannot be used.
[0014]
Therefore, in the present invention, in the resume processing, when a PC card expansion unit (card dock) is connected to the expansion connector, the card controller (PCMCIA controller) of the PC card expansion unit is first selected and initialized. With the function of initializing the built-in card controller after that, the PC card slot of the PC card expansion unit can be reliably used even in the resume mode.
[0015]
Also, by having such a card controller initialization function, the PC card slot on the main body side and the PC card slot on the PC card expansion unit (card dock) side can be accessed simultaneously. In a configuration having a slot and two PC card slots on the PC card expansion unit (card dock) side, four PC cards can be used simultaneously. For this reason, the extended function of the PC card in the resume mode can be greatly improved.
[0016]
【Example】
An embodiment of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a system according to an embodiment of the present invention.
In FIG. 1, reference numeral 10 denotes a portable computer main body (PC main body), and reference numeral 20 denotes a PC card expansion unit (PC-EXU) coupled to the portable computer main body 10 via an expansion connector.
[0017]
Numerals 11 to 17 are constituent elements of the portable computer main body (PC main body) 10, 11 is a CPU for executing system program processing, and 12 is a system controller (CPU) for controlling the system under the processing of the CPU 11. SYS-CONT).
[0018]
Reference numeral 12A denotes a PCMCIA controller initialization control register provided in the system controller (SYS-CONT) 12, whose value is set by the system controller (SYS-CONT) 12, and is referred to herein as a PIC selection register. In this example, the value (“1” / “0”) of bit 0 (bo) and bit 1 (b1) is interchanged, thereby functioning as a selection switch, and bit 0 (bo) is set to “1”. Is set, an external PCMCIA controller (of the PC card expansion unit) is selected and designated. When bit 1 (b1) is set to "1", an internal (built-in standard PCMCIA controller) is set. Select and specify.
[0019]
Reference numeral 13 denotes a BIOS-ROM storing a BIOS program executed by the CPU 11. Here, initialization processing of the PCMCIA controller as shown in FIG. 2 is executed at the time of resuming according to the BIOS program.
[0020]
Reference numeral 14 denotes a battery-backed RTC memory in which various control data, parameters, and the like, including a resume mode setting flag (RMF) indicating whether or not a resume is set during a suspend operation in the resume mode, are stored.
[0021]
Reference numeral 15 denotes a data storage memory (B-RAM), such as a backup RAM or a hard disk, in which various data required at the time of resuming including processing data at the time of suspending are stored.
[0022]
Reference numeral 16 denotes a built-in PCMCIA controller (PCMCIA-CONT) which is provided as a standard on the main body, and has an I / O address register 16R for controlling two PC card slots 17A and 17B.
[0023]
17A and 17B are PC card slots controlled by a built-in PCMCIA controller (PCMCIA-CONT) 16, respectively.
Reference numeral 18 denotes an expansion connector (EX-CN) connected to the system bus, which serves as a connection port of a PC card expansion unit (PC-EXU) 20 here.
[0024]
A gate 19 controls the output of an enable signal for initialization to the built-in PCMCIA controller (PCMCIA-CONT) 16 in accordance with the contents of the PIC selection register 12A in the system controller (SYS-CONT) 12. CONT) 16 and the enable signal of both the PCMCIA controller output when accessing the address space including the PCMCIA controller (PCMCIA-CONT) of the PC card expansion unit (PC-EXU) 20 and bit 1 (b1) of the PIC selection register 12A. , An enable signal EN2 for initializing the built-in PCMCIA controller (PCMCIA-CONT) 16 is output.
[0025]
That is, when both the enable signal of both PCMCIA controllers output from the system controller (SYS-CONT) 12 and the output signal of bit 1 (b1) of the PIC selection register 12A become "1", the built-in PCMCIA controller (PCMCIA-CONT) An enable signal EN2 for initializing 16 is output.
[0026]
Reference numerals 21 to 25 each constitute a component of the PC card expansion unit (PC-EXU) 20, and reference numeral 21 denotes a connector (EU) connected to the expansion connector (EX-CON) 15 of the portable computer main body (PC main body) 10. -CN).
[0027]
Reference numeral 22 denotes an extended PCMCIA controller (PCMCIA-CONT) on the PC card extension unit side, which has an I / O address register 22R for controlling two PC card slots 23A and 23B.
[0028]
23A and 23B are expansion-side PC card slots controlled by the PCMCIA controller (PCMCIA-CONT) 22, respectively.
A gate 24 controls output of an enable signal for initialization to the extended PCMCIA controller (PCMCIA-CONT) 22 in accordance with the contents of the PIC selection register 12A in the system controller (SYS-CONT) 12, and a built-in PCMCIA controller (PCMCIA-PCT). CONT) 16 and an extended PCMCIA controller (PCMCIA-CONT) 22, an extended PCMCIA controller (PCMCIA) is provided by an enable signal of both PCMCIA controllers and a signal of bit 0 (b0) of the PIC selection register 12A which are output when accessing an address space including the PCMCIA controller. -CONT) outputs an enable signal EN1 for initializing 22.
[0029]
That is, when both the enable signal of both PCMCIA controllers output from the system controller (SYS-CONT) 12 and the output signal of bit 0 (b0) of the PIC selection register 12A become "1", the extended PCMCIA controller (PCMCIA-CONT) An enable signal EN1 for initializing 22 is output.
[0030]
Reference numeral 31 denotes a signal line for notifying the system controller (SYS-CONT) 12 of the presence or absence of the connection of the PC card extension unit (PC-EXU) 20. The PC card extension unit (PC-EXU) 20 is connected to the portable computer (PC body) When it is connected to the extension connector (EX-CN) 18 of this example, it outputs a signal of a low level (for example, “0”) indicating the state.
[0031]
FIG. 2 is a flowchart showing the initialization processing procedure of the PCMCIA controller in the above embodiment.
Here, the operation in the embodiment of the present invention will be described with reference to the flowchart shown in FIG.
[0032]
In the initialization control of the PCMCIA controller in the resume processing, first, the presence or absence of the connection of the PC card expansion unit 20 is determined from the state of the signal line 31 (step S1 in FIG. 2).
[0033]
Here, when the PC card expansion unit 20 is connected, first, an enable signal for initializing the expansion PCMCIA controller (PCMCIA-CNT) 22 of the PC card expansion unit 20 is output (step S2 in FIG. 2). ).
[0034]
In this case, when it is determined that the PC card expansion unit 20 is connected to the expansion connector (EX-CN) 18 of the portable computer (PC main body) 10, first, bit 0 ( bo) is set to “1”, bit 1 (b1) is set to “0”, the output of the gate 19 is made inactive (EN2 = “0”; disable signal), and the gate 24 in the PC card extension unit 20 is set. Is activated to selectively output the enable signal EN1 to the extended PCMCIA controller (PCMCIA-CNT) 22.
[0035]
With this enable signal EN1, initialization processing such as reset processing of the extended PCMCIA controller (PCMCIA-CNT) 22 and register clear is executed (step S3 in FIG. 2).
[0036]
Subsequently, an I / O port address unique to the PC card slots 23A and 23B is set in the I / O address register 22R in the extended PCMCIA controller (PCMCIA-CNT) 22 (step S4 in FIG. 2).
[0037]
Next, an enable signal for initializing the built-in PCMCIA controller (PCMCIA-CNT) 16 is output (step S5 in FIG. 2).
At this time, "0" is set to bit 0 (bo) and "1" is set to bit 1 (b1) of the PIC selection register 12A, and the output of the gate 24 is inactive (EN1 = "0"; disable signal ) To activate the output of the gate 19 to selectively output the enable signal EN2 to the built-in PCMCIA controller (PCMCIA-CNT) 16.
[0038]
With the enable signal EN2, initialization processing such as reset processing of the built-in PCMCIA controller (PCMCIA-CNT) 16 and register clear is executed (step S6 in FIG. 2).
[0039]
Subsequently, an I / O port address unique to the PC card slots 17A and 17B is set in the I / O address register 16R in the built-in PCMCIA controller (PCMCIA-CNT) 16 (step S7 in FIG. 2).
[0040]
By the PCMCIA controller initialization processing at the time of such a resume, the PC card expansion unit is in a state after the suspend processing (when the power is turned off under the resume mode setting state) in a state where the resume mode is set. When the system is connected and the system is restarted, the inconvenient state in which the PCMCIA controller of the PC card expansion unit is not initialized, and thus the PC card expansion unit cannot be used, can be avoided, and the PC can be reliably maintained even in the resume mode. The PC card slot of the card expansion unit can be used. Therefore, in this embodiment, a total of four PC cards can be used simultaneously, and the extended function of the PC card in the resume mode is greatly improved.
[0041]
In the above-described embodiment, a configuration in which two PC card slots are provided in both the built-in PCMCIA controller (PCMCIA-CNT) 16 and the extended PCMCIA controller (PCMCIA-CNT) 22 has been described, but the present invention is not limited to this. For example, the built-in PCMCIA controller (PCMCIA-CNT) 16 and the extended PCMCIA controller (PCMCIA-CNT) 22 may have different numbers of PC card slots.
[0042]
Also, the initialization processing order of the built-in PCMCIA controller (PCMCIA-CNT) 16 and the extended PCMCIA controller (PCMCIA-CNT) 22 and the selection control means for initialization are not limited to those in the above-described embodiment. Selection switching means may be used.
[0043]
【The invention's effect】
As described above in detail, according to the present invention, in a portable computer having a resume / suspend function and equipped with an extension connector, a PC card extension unit (card dock) is connected to the extension connector during resume processing. ) Is connected, first, the card controller (PCMCIA controller) of the PC card expansion unit is selected and initialized, and the function of initializing the built-in card controller is ensured even in the resume mode. Thus, the PC card slot of the PC card expansion unit can be used, and a highly reliable PC card expansion function can be realized.
[0044]
Also, by having such a card controller initialization function, the PC card slot on the main body side and the PC card slot on the PC card expansion unit (card dock) side can be accessed simultaneously. In a configuration having a slot and two PC card slots on the PC card expansion unit (card dock) side, four PC cards can be used simultaneously. Therefore, a highly reliable extended function of the PC card in the resume mode can be realized, and the extended function of the PC card is greatly improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.
FIG. 2 is a flowchart showing a processing procedure of the embodiment.
[Explanation of symbols]
10 Portable computer body (PC body), 11 CPU, 12 System controller (SYS-CONT), 12A PIC selection register, 13 BIOS-ROM, 14 RTC memory, 15 Data storage memory (B- RAM), 16: Built-in PCMCIA controller (PCMCIA-CONT), 16R: I / O address register, 17A, 17B: PC card slot, 18: Expansion connector (EX-CN), 19: Gate, 20: PC card expansion Unit (PC-EXU), 21 ... Connector (EU-CN), 22 ..., 22R ... I / O address register, 23A, 23B ... Expansion side PC card slot, 24 ... Gate, 31 ... Connection of PC card expansion unit Signal line to notify the presence or absence.

Claims (1)

In a portable computer having a resume mode setting means, a PC card slot and a built-in card controller, and an expansion connector to which a PC card expansion unit having the card controller can be connected,
Determining means for determining whether or not the PC card expansion unit is connected to the expansion connector at the start of operation under the resume mode;
When the determination means determines that the PC card expansion unit is connected to the expansion connector, the means for initializing the card controller of the PC card expansion unit, and the card controller of the PC card expansion unit, Means for setting a controller-specific port address;
Means for initializing the built-in card controller after setting a port address in a card controller of the PC card expansion unit, and means for setting a port address unique to the controller in the built-in card controller
A portable computer characterized by comprising:

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