JPH0456329B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a document editing processing device, and more particularly to a document editing processing device including a printer, a RAM pack, and a battery for supplying power to these.

[Conventional technology]

In a hand-held document editing device that uses a battery as a power source, when the battery is exhausted and its remaining capacity is reduced, the voltage drop of the power source becomes excessive during heavy loads and malfunctions occur.

Particularly, devices with a built-in printer or floppy disk device have a high chance of malfunction in the print processing mode or floppy disk access processing mode because the load current increases during these operations.

For this reason, it has been proposed to detect and alert the user when the battery voltage drops to a level that would cause a malfunction during printing processing (for example, Japanese Patent Laid-Open Publication No. 57-10824).

[Problem that the invention seeks to solve]

When such a warning is issued, the user replaces the battery and reuses it. However, document editing devices have a light-load processing mode that does not use a printer or floppy disk device, so The negative possible processing mode made it uneconomical to replace available batteries.

JP-A-55-34977, JP-A-56-127220, and JP-A-5583912 are examples of calculators, but when the battery voltage drops, the use of the printer is prohibited and the printer is disabled. An example of enabling the computer to be used with a display indicating that it cannot be used is described.

Such a control method is also useful as a document editing processing device.

Document editing processing devices have a wide variety of functions and are used in a variety of ways.

The document editing processing mode can operate down to the lowest voltage, but if you want to save the edited document data, you must operate the storage device.

This document data storage is executed in the storage device access processing mode, but if this processing mode cannot be executed at this time, there is a drawback that the document data that has been painstakingly created will be wasted.

On the other hand, some document editing processing devices use a RAM pack that has the same functionality as a floppy disk device, although its storage capacity is slightly inferior to that of a floppy disk device.

The access voltage of this RAM pack is lower than the access voltage of the floppy disk device, but is generally higher than the document editing processing voltage.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a document editing processing device that enables the use of a RAM pack as a storage device, so that it is possible to prevent wastage of document data by editing during document editing processing.

[Means to solve the problem]

The above-mentioned object of the present invention is to provide a battery voltage detection unit, a reference voltage setting means that stores a battery voltage reference value necessary for executing the processing mode in correspondence with each processing mode, and a battery voltage detection unit that corresponds to the commanded processing mode. executable/impossible determination processing means for determining whether or not the commanded processing mode can be executed by comparing the battery voltage reference value output from the reference voltage setting means with the battery voltage obtained from the battery voltage detecting section; Execution possibility display processing means is provided for displaying on a display that the command processing mode cannot be executed based on the judgment result of the execution possibility judgment processing means and displaying an executable processing mode on the display, and document editing. In the processing mode, this is achieved by determining whether RAM pack access processing is executable or not, and displaying the result on the display device.

[Effect]

According to the present invention, the executable state of the document editing process is displayed on the display by the executable display processing means, and in the document editing process mode, it is determined whether or not the RAM pack access process is executable. Since the results are displayed on the display device, it is possible to know in advance whether or not the edited document can be saved using the RAM pack, and the device can be used effectively using the battery. Editing processing and document data storage can be performed.

[Performance]

FIG. 2 is an overall block diagram of a document editing processing device showing one embodiment of the present invention. In the figure, the document editing processing device includes a main control circuit 100, a RAM pack (withinside a backup battery), which is an external storage device.
A memory package (having RAM) 200, a floppy disk device (hereinafter referred to as FDD) 300, and a cassette file (cassette tape recorder) 4
00, printer 500, liquid crystal display 60
0, a keyboard 700, and a power supply device 800 that mainly includes a battery and supplies power to these.

The main control circuit 100 includes a central processing unit (hereinafter referred to as CPU) 101 which is a program storage type calculation unit, and a central processing unit (hereinafter referred to as CPU) 101 which is a program storage type calculation unit, and a CPU which functions as a document editing processing device after power is turned on.
A program memory 102 that stores a data processing program executed by the computer 101, and a work memory 10 for document editing processing that stores input document data.
3, a character generator 104 that stores dot data of characters and symbols expressed in a dot matrix using character codes as indexes, a RAM pack controller 105 that mediates access to the RAM pack 200, and a RAM pack controller 105 that mediates access to the FDD 300. A floppy disk controller (below)
FDC) 106 and cassette file 40
0, a printer controller 108 that mediates access to the printer 500, a display controller 109 that mediates the driving of the liquid crystal display 600, and a keyboard controller 11 that mediates data exchange with the keyboard 700.
0 and digitize the power supply voltage level signal.
A power supply voltage detection unit 111 that supplies power to the CPU 101 is provided, and these are connected to the CPU 101 via a bus 112.
is connected to.

FIG. 3 is a block diagram of a power supply device 800, which includes a battery 801, a DC-DC converter 802 that converts the terminal voltage V _B of the battery 801 into drive voltages V _L1 to V _L5 required by the load elements, and outputs the voltage. , battery 801
The voltage level signal generating section 804 detects the voltage V _B of the voltage VB and supplies a power supply voltage level signal to the voltage detecting section 111 via the signal line 803. In addition,
V _L1 is the drive voltage of the main control circuit 100, V _L2 is the RAM
Drive voltage of pack 200, V _L3 is printer 500
The driving voltage of FDD300, V _L4 is the driving voltage of FDD300, V _L5
is the driving voltage of the cassette file 400.

FIG. 4 shows the discharge characteristics of the battery 801, with the vertical axis V _B representing the terminal voltage of the battery 801 and the horizontal axis t representing the discharge time. As is clear from the figure, the terminal voltage V _B of the battery 801 decreases as it is consumed and its remaining capacity decreases.

Further, FIG. 5 shows the amount of voltage drop〓V, which is the amount by which the terminal voltage _VB of the battery 801 drops due to the load current when each load element connected to the power supply device 800 is in an operating state according to each processing mode. This is the load characteristic showing _B. The battery 801 has an internal resistance R,
The terminal voltage V _B is the value obtained by subtracting the voltage drop across the internal resistance R due to the load current I _L from the electromotive force E _B (V _B = E _B
= I _L R), so the more the processing mode that drives a large load element is executed, or the more the battery 801 is exhausted and the electromotive force decreases or the internal resistance R increases, the more the decrease is V _B is large.
Even if the DC-DC converter 802 has an output voltage stabilization control function, there is a _limit to its control range, so in order to reliably execute the processing mode, it is necessary to There is a limit. The lower limit value of the terminal voltage V _B required to reliably execute each commanded processing mode is the battery 801
Discharge characteristics, load characteristics, DC-DC converter 80
Based on the relationship between the stabilization control ability and the load element (processing mode) in No. 2, it can be calculated in advance in correspondence with each processing mode.

The calculation results are tabulated as battery voltage reference values corresponding to each processing mode, and are stored in binary numbers in the battery voltage reference value area 102a of the program memory 102, as shown in FIG.
Incidentally, V _B1 is the battery voltage reference value necessary for the main control circuit 100 to operate and execute the document editing processing mode in which input processing, editing processing, and display processing are performed.
V _B2 is the battery voltage reference value necessary to execute the RAM pack access processing mode to access the RAM pack 200, V _B3 is the battery voltage reference value necessary to execute the print processing mode to drive the printer 500, V _B4 accesses FDD300
The battery voltage reference value required to execute the FDD access processing mode, V _B5 , is the cassette file 400.
This is the battery voltage reference value required to execute the cassette file access processing mode, which accesses the cassette file.
The relationship is V _B4 , > V _B3 V _B5 > V _B2 > V _B1 . but,
This magnitude relationship changes depending on the voltage fluctuation tolerance of the load element driven in each processing mode.

CPU in the above document editing processing device
The data processing program 900 according to 101 is the seventh
As shown in the figure. The document editing processing program 910 executes input processing of key operation data from the keyboard 700, document editing processing, and display processing. The command mode execution possibility determination processing program 920 is executed during the execution process of the document editing processing program 910, and the processing mode commanded from the keyboard 700 is a RAM pack access processing mode for accessing the RAM pack 200 or an FDD access processing mode for accessing the FDD 300. Or, it is activated when corresponding to either the cassette file access processing mode for accessing the cassette file 400 or the print processing mode for driving the printer 500, and the terminal voltage _VB of the battery 801 at that time executes the commanded processing mode. It is determined whether or not the voltage is equal to or greater than the reference value, and if it is equal to or greater than the reference value, the process branches to execution of programs 930, 940, 650, and 960 for the processing mode.

If it is less than the reference value, the display 600 indicates that the processing mode cannot be executed.
and displays executable processing modes on the display 600 at the terminal voltage _VB ;
Returning to the document editing processing program 910.

Processing program 9 for determining whether or not this command mode can be executed
20 is shown in detail in FIG. In this processing program, first, in processing step 921, the terminal voltage V _B of the battery 801 at that time is fetched from the power supply voltage detection section 111 as the current power supply voltage level V _B0 . In the processing step 922, the battery voltage reference values V _B1 to V _B5 corresponding to the commanded processing mode (for example, V _B4 if the FDD access processing mode is commanded) are stored in the memory area 10.
Read from 2a. In processing step 923, the current power supply voltage level V _B0 is compared with the battery voltage reference value V _B4 , and if V _B0 ≧ V _B4 , the process moves to processing step 924 and executes the program 950 for the instructed FDD access processing mode. Execute.

However, if V _B0 < V _B4 , the commanded processing mode cannot be reliably executed.
Proceeding to processing step 925, the display 600 displays characters or symbols to indicate that the processing mode cannot be executed. In processing step 926, the memory area 102a is read again and referenced, and an executable processing mode having a battery voltage reference value below the current power supply voltage level V _B0 is extracted, and the process proceeds to processing step 927, in which this executable processing mode is extracted. The mode is displayed in characters or symbols on the display 600, and in processing step 928, the document editing processing program 910
Return to Incidentally, the display indicates that the executable processing modes in this example are document editing processing mode, RAM pack access processing mode, print processing mode, and cassette file access processing mode, so the user can store the created document data. Ba
RAM pack 200 or cassette file 40
You can specify 0 and execute the process to store it.

As is clear from FIG. 5, in this document editing processing device, the load current is large during FDD access processing and printing processing, and the power supply voltage V _B fluctuates greatly.
The load current during RAM pack access processing is extremely small, and fluctuations in battery voltage _VB are also considerably small. Therefore, even if the battery 801 is exhausted and it becomes impossible to execute the FDD access processing mode or the print processing mode, the RAM pack 200
It can be seen that the document creation and editing processes using the 801 as an external storage device can be sufficiently executed, and the battery 801 can be consumed effectively.

In this document editing processing device, at least two RAM packs are required to store document data.
00 access processing mode is required, so in document editing processing mode,
It determines whether RAM pack access processing can be executed and displays the result.

〔Effect of the invention〕

As described above, according to the present invention, in particular, a battery voltage detection section, a reference voltage setting means that stores a battery voltage reference value necessary for executing the processing mode in correspondence with each processing mode, and a Comparing the battery voltage reference value output from the reference voltage setting means corresponding to the commanded processing mode with the battery voltage obtained from the battery voltage detection unit to determine whether or not the commanded processing mode can be executed. a determination processing means; and an execution possibility display processing means for displaying on a display that the command processing mode cannot be executed based on the determination result of the execution possibility judgment processing means and displaying an executable processing mode on the display. In addition, in the document editing processing mode, it is determined whether or not RAM pack access processing can be executed, and the result is displayed on the display device. Therefore, in the document editing processing mode when the battery voltage is low, The operator can know in advance whether or not the document data edited in the document editing processing mode can be saved, thereby preventing waste such as discarding the edited document data.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention, and FIG. 1 is a flowchart of command mode execution processing,
Figure 3 is a block diagram of the document editing processing device, Figure 3 is a block diagram of the power supply, Figure 4 is a battery discharge characteristic diagram, Figure 5 is a battery voltage fluctuation characteristic diagram for processing modes, and Figure 6 is a program memory diagram. FIG. 7 is a block diagram of the data processing program. 101... Central processing unit, 102... Program memory, 102a... Battery voltage reference value area of program memory, 111... Battery voltage detection unit, 200... Printer, 300... Floppy disk device, 500... Printer, 600...
LCD display, 700...Keyboard, 80
0...Power supply device, 801...Battery, 920...Command mode execution possibility determination processing program, 923...
. . . Command mode executable determination processing, 925 . . . Command mode execution impossibility display device, 927 . . . Executable processing mode display processing.

Claims (1)

[Scope of Claims] 1. A central processing unit, a program memory for storing a data processing program executed by the central processing unit, a work memory, a keyboard for inputting document data and processing mode commands, and a a document editing processing mode by the data processing program according to input from the keyboard, comprising a liquid crystal display, a printer, and a RAM pack that are driven according to the execution of the data processing program, and a battery that supplies power to these; A document editing processing device that executes a print processing mode and a RAM pack access processing mode includes a battery voltage detection unit and a reference voltage that stores battery voltage reference values necessary to execute the processing modes in correspondence with each processing mode. A setting means compares the battery reference value outputted from the reference voltage setting means corresponding to the commanded processing mode with the battery voltage obtained from the battery voltage detection section to determine whether or not the commanded processing mode can be executed. An executable/impossible judgment processing means for making a judgment, and an executable/impossible one for displaying on a display that the command processing mode cannot be executed and displaying an executable processing mode on the display based on the judgment result of the executable/impossible judging processing means. What is claimed is: 1. A document editing processing device, comprising: display processing means; in a document editing processing mode, it is determined whether RAM pack access processing is executable; and the result is displayed on the display device.