JPS58189769A - Changed program setting system of electronic register - Google Patents

Abstract

PURPOSE:To realize the writing of the information which is needed for a change of a program by using an input means that supplies various types of transaction information in an electronic register which registers various types of transaction information, by selecting a specific mode. CONSTITUTION:When a program stored in a mask ROM2 is changed, a mode selection means M which selects the working mode of a device is set at a specific mode. Then it is possible to supply and store the information needed for a change of the program to various storage means 3-5 through an input means 7 which supplies various types of transaction information. Therefore it is not required to use another program writing device.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an electronic cash register for registering and processing various transaction information or an electronic device such as a teller machine used for banking business (hereinafter collectively referred to as an electronic register and abbreviated as an ECR). In particular, when it is necessary to change or modify a part of a program such as various transaction processing programs written in a fixed memory device, we have devised a way to easily and easily change or modify the program. This relates to the ECR program change method.

Generally, when writing various ECR transaction processing programs into a fixed memory device, an inexpensive mass ROM (read only memory) is used. However, this R
Once a processing program is written into the OM, the processing program is fixed. However, after writing a processing program to the mask ROM in this way, it often happens that you want to change or modify a part of the processing program. Contains mask ROM
It was necessary to exchange it with. As a result, changing or modifying a program is not only very expensive, but also requires a great deal of time and effort, making it difficult to make such changes or modifications.

The present invention has been made for the purpose of providing an ECR change program setting method that eliminates the above-mentioned problems, and to achieve this purpose, an EC that implements the present invention
R is a mode selection means for selecting an operation mode such as registration, inspection, payment, etc. of the device, and a first register for permanently storing a processing program for each operation mode selected by this mode selection means. (Mask ROM), manual means for manually inputting various registered information according to this processing program,
a second storage means having the same address as the first storage means and storing information representing changes in the processing program for each address position; a third storage means for storing a program change address and a storage address of the modification program; and a fourth storage means for storing a modification program having a different address from that of the first storage means. By selecting the specific mode using the mode selection means, the second mode is selected. Various information necessary for changing the processing program fixedly stored in the first storage stage 11 is manually set in the third and fourth storage means from the old input stage. The apparatus is configured to change a processing program stored in the apparatus, and by such configuration selects a mode selection means of the apparatus to a specific mode.
An ECR is provided which can input and store various information necessary for changing the program stored in the mask ROM into each of the storage means from the manual means for inputting various transaction information.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an ECR embodying the present invention.

In FIG. 1, numeral 1 is a central processing unit (CPU), and the CPU 1 has a central processing unit (CPU) that permanently stores various transaction processing programs, correction program setting programs, etc.
storage means (mask ROM) 2 and this mask ROM 2
a second storage means (RAM) 3 which has the same address as , and stores whether or not the program has been changed for each address position of the mask ROM 2; Third storage means (RAM) for storing storage addresses
5 and a fourth storage means (RAM
)+, storage means (RAM) 6 for storing various registered data, and human power means 7 for manually selecting various transaction information and mode information such as device registration, inspection, settlement, etc.
, a display stage 8 for displaying input/output information, etc., a printing means 9 for similarly printing this input/output information, etc. on receipts, etc., and a drawer 10 or data bus for storing cash etc. generated in each transaction registration etc. 13 and an address bus 14.

A decoder 11 is configured to decode address information on the address bus 14F and select each of the above components.

Reference numeral 12 is composed of a flip-flop, which is set by the "' pin signal output from the RAM 3. The set output of the flip-flop 12 interrupts the CPU I, and also interrupts the final correction program stored in the RAM 4. 15 is a detection means for detecting the changed address position of the program which is reset by a signal from the CPU I in response to the step, and 15 is a key interface (
Key '/F), 16 is printer interface (P I/F), 17 is N point interface (1)
I/r;), 18 is an innoterface for human output <'1
0! /F).

Further, in the first storage means (mask ROM) 2, a program for setting a correction program is fixedly stored in area a in connection with the present invention, and in the first stage 7, a mode selection means M and a specific key lock are stored. A group of function keys F and numeric keys N are provided.

Next, the operation of the ECR program shown in FIG. 1 of the L memory 1 will be explained with reference to the operation flowchart shown in FIG.

Now, if it becomes necessary to change the program fixedly stored in a specific area of the first storage means (mask ROM) 2, the operator must manually operate the mode selection means M of the 11th stage 7 to select the specific one. Set the mode [for example, 5RV (service) mode] in steps nl, n2) - then press the specific key A1 of function key group F in step n3), for setting the modification program stored in area a of mask ROM2. Select and specify the program tQ'
y, @Tsubu n4). When this program is selected and specified, the operator first stores the modified IF program in the fourth memory and selects the desired program using the numerical key N and function key F of the manual means 7. is manually stored in the RAM 4 (step n5).

(Note that when the modification program setting program is selected, each key of the input means 7 is configured so that it can be used as a specific command instruction key for program setting.

The specific method is the same as that of the currently widely used programmed manual IT computer, so the explanation thereof will be omitted here. ) Specifically, in Fig. 3(a), the mask ROM is stored at a predetermined address XXXXA of RAM4.
A correction program for address A that requires program change in step 2 is sequentially written, and at the final step of the correction program, an instruction to jump to the return address of mask ROM 2.\ is written and set (step n6). If the program at address B of mask ROM 2 also needs to be changed, do the same as before and transfer the modified program to RAM 4.
Write settings to address, X X X B.

Once the setting of the correction program to RAM 4 is completed in this way (step n7), the operator then writes to the third storage means (RAM) 5 which address of the mask ROM 2 the correction program is set to the address of RAM 4. Table showing whether it is stored [shown in Figure 3 (1)]
is manually set by operating the input means 7 (step n8)
, n9). Subsequently, the operator stores a flag in the second storage means (RAM) 3 at the same address as the program change address in the mask ROM 2, indicating that the program stored at that address in the ROM 2 needs to be changed. Set as shown in (c) (step nil~
013).

In this way, the program change position and modification point fixed in the mask ROM 2 are transferred to the RAMs 8.4 and 5 by manual means 7.
After writing the F program, the operator selects and specifies the mode selection means M to a desired position (for example, registration mode position or payment mode position, etc.), and 1) 11. Mask ROM 2
Next, the order in which the programs stored in the mask ROM 2 are executed will be explained with reference to the operational flowchart shown in FIG.

In this execution, the mask ROM 2 is sequentially addressed from the CPU in step n21. n22), its ROM2
The programs within are sequentially accessed and executed (step n24).

At this time, since RAM 3 is also addressed in the same way as mask ROM 2, and the address information is transferred from the CPU, it is addressed in a synchronized relationship with mask ROM 2, and data at that address position is continuously transmitted. be done. In the RAM 3, as mentioned above, "0" is stored for program steps that do not require changes, and "0" is stored for program steps that require changes, and "o" is output from RAM 3. flip flop 12
or is in a reset state. For this reason, CPU
The program steps of the mask ROM 2 are sequentially progressed until an interrupt signal, which is the set output of the flip-flop 12, does not arrive.

Now, when the address position of mask ROM2 comes to address position A which requires program C+, flag "1" is sent from RAM3.
'' is output and the flip-flop 12 is set.

That is, it is detected from the flag storage contents stored in the RAM 3 that the flip-flop 12 is currently at an address position that requires change.
An interrupt signal (set output) is supplied to the terminal, and an interrupt is generated (step n26).

CI) In response to the interrupt signal, U I temporarily stores the current address value A, and also stores the previously temporarily stored address value A based on the address information stored in the RAM 5.
RAM4 that stores the corresponding modification program from
Step n27) to search for the address position XXXXA.
Then, the program jumps to this modification program position (step n28).

Therefore, the modification program stored at address XXXA in RAM 4 will be executed (step n9).
).

Also, at the end of this modification 7F program, there will be a mask ROM again.
A step/jump command is stored to access the next address value of the changed position of step 2, and when this modification program finishes executing, the flip-flop knob 12 is reset and a jump is made to the mask RUM2S.Step n
30) Execute the program in mask ROM 2 again.

Similarly, the programs in the mask ROM2 are executed sequentially.1.
When reaching address position B, which requires change again, flip 7
0. CPU 12 is set to interrupt the CPUI, and the correction program corresponding to the address location in RAM 4 is executed.

The RAM 8 is provided with a flag indicating whether or not the program needs to be changed at a rate of 1 byte (1 bit per 1 byte) of the mask ROM 2.

Further, although the RAMs 4 and 5 are expressed as separate parts for convenience of explanation, it goes without saying that separate addresses of the same RAM may be used.

According to the present invention, a memory means having the same address as a mask ROM that uniquely stores various transaction processing programs, and storing whether or not a change is necessary to the program at that address; A storage means for storing information indicating at which address the modification program is stored when it is determined that the modification program is necessary, and a storage means for storing the modification program are provided. By choosing
This is a very useful and practical ECR because it is possible to write and store various kinds of predetermined information necessary for changing the program stored in the mask ROM in each of the storage means mentioned above using manual means for inputting and processing various transaction information of CH. can be provided.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the configuration of an ECR embodying the present invention, FIG. 2 is an operation flow diagram for explaining the modification program setting operation of the present invention, and FIGS. FIG. 4 is an operation flow diagram for explaining the execution operation of the dust history program. 1. Central processing unit (CPU), 2. First storage means (mask ROM), 3. Second storage means (RAM), 4 Fourth storage means (RAM), 5 Third storage. 7. Input means, M.. Mode selection means, [△]. Specific key. Agent Patent Attorney Aihiko Fukushi (and 2 others) 3rd [
'Jl Figure 4

Claims (1)

[Claims] 1. In an electronic register that registers and processes various transaction information.
C1: a mode selection means for selecting an operation mode such as registration, inspection, payment, etc. of the device; a first storage means for fixedly storing a processing program for each operation mode selected by the mode selection means; It has manual means for inputting various registration information according to this processing program, and has the same address as the first storage means, and has 1,
a second storage means storing information indicating whether or not the processing program has been changed; a third storage means storing a program change address of the first storage stage and a storage address of the modification program; and a fourth storage stage for storing a modification program addressed differently from the first storage means, wherein the mode selection means selects a specific mode to select the second. The processing is stored in the first storage means by manually setting various information necessary for changing the processing blocks fixedly stored in the first storage stage in the third and fourth storage means. A change program setting method for an electronic register, characterized in that the program is changed.