JPH0212561A - Pos terminal - Google Patents

Abstract

PURPOSE:To withdraw internal data only when a fault is generated by transferring data being handled stored in a first storage means to a host device when a power source is applied in a state representing the fact that a second storage means is performing a key input operation. CONSTITUTION:The data being handled is stored in the first storage means 111 without being erased even when the power source is disconnected, and information representing whether or not the key input operation is being performed is stored in the second storage means 113 by the setting of a setting means 115 without being erased even when the power source is disconnected. And when the power source is applied in the state where the information of the second storage means 113 represents the fact that the key input operation is being performed, a transfer control means 117 transfers the data stored in the first storage means 111 to the host device. In such a way, it is possible to withdraw the internal data only when the fault is generated.

Description

[Detailed Description of the Invention] [Summary] Regarding a PO3 terminal that is configured to save internal data to a higher-level terminal controller, etc. in the event of a failure, for example, the internal data may be saved only when a failure occurs. The first storage means stores data during operation without being erased even when the power is turned off, and the information on whether a key input operation is in progress is stored even when the power is turned off. A second storage means that is not erased (stored), a setting means that sets information for the second storage means depending on whether or not a key input operation is being performed, and information in the second storage means. and transfer control means for transferring the data stored in the first storage means to the host device when the power is turned on in a state where the key input operation is in progress.

[Industrial application field]

The present invention relates to a PO3 terminal in which internal data in the event of a failure is saved to a higher-level terminal controller or the like.

[Conventional technology]

2. Description of the Related Art Today, so-called POS systems are widely used in various sales operations, in which a plurality of POS terminals are connected to a terminal controller and data is processed in a centralized manner to improve the efficiency of operations.

20 If a failure occurs in the PO3 terminal of the POS system, such as making key input impossible, the data in the internal memory will be sent to the terminal controller, and the terminal controller will analyze the details of the failure. is being carried out.

At this time, the timing for sending internal data to the terminal controller was when a failure occurred and the power was turned off and then turned on again.

[Problems to be Solved by the Invention] In the conventional system described above, internal data is always saved to the terminal controller when the power is turned off and then turned on again.

Therefore, even when the power is turned on at the end of one day's work and the start of the next day's work, internal data is saved. However, in this case, since no failure has occurred, there is no need to save internal data to the terminal controller.

Similarly, even if the power is turned off even though no failure has occurred, the internal data will be saved the next time the power is turned on.

Therefore, in the conventional device, there was a problem in that once the power was turned off by -H, the internal data would be unconditionally saved to the controller the next time the power was turned on.

The present invention was created in view of these points, and an object of the present invention is to provide a PO3 terminal that can save internal data only when a failure occurs, for example.

[Means to solve the problem]

FIG. 1 is a principle block diagram of a PO3 terminal according to the present invention.

In the figure, the first storage means 111 stores data during operation without being erased even when the power is turned off.

The second storage means 113 stores information on whether a key input operation is in progress without being erased even when the power is turned off.

The setting means 115 sets information in the second storage means 113 depending on whether or not a key input operation is in progress.

The transfer control unit 117 transfers the data stored in the first storage unit 111 to the host device when the power is turned on while the information in the second storage unit 113 indicates that a key input operation is in progress.

Therefore, overall, when the power is turned on while the information set in the second storage means 113 indicates that a key input operation is in progress, the data stored in the first storage means 111 is transferred to the host device. configured to transfer.

[For production]

The first storage means 111 stores data during operation without being erased even when the power is turned off. In addition, in the second storage unit 113, information as to whether or not a key input operation is in progress is stored in the second storage unit 113 according to settings made by the setting unit 115 without being erased even when the power is turned off. This second
When the power is turned on while the information in the storage unit 113 indicates that a key input operation is in progress, the transfer control unit 117 transfers the data stored in the first storage unit 111 to the host device.

In the present invention, when the power is turned on with the second storage means 113 indicating that a key input operation is in progress, the first
By transferring the data stored in the storage means 111 during operation to the host device, the internal data can be saved only when a failure occurs, for example.

[Example] Hereinafter, an example of the present invention will be described in detail based on the drawings.

FIG. 2 shows the configuration of a PoS terminal in an embodiment of the present invention.

(1) Here, the correspondence between the embodiment of the present invention and FIG. 1 will be shown.

The first storage means 111 corresponds to the work area 215.

The second storage means 113 corresponds to the flag 213.

Setting means 115 corresponds to CPU 210.

Transfer control means 117 corresponds to CPU 210.

Examples of the present invention will be described below assuming that the correspondence relationship as described above exists.

- m 礪l 戊 In Figure 2, the PO5 terminal 200 includes a central processing unit (CPU) 210 that performs overall control, a work area 215 that stores data during device operation, and a key input operation area. A memory 211 that includes a flag 213 etc. in which information is set, a line control driver/receiver 217 that controls communication with a terminal controller (not shown), a display 219 that displays results, etc. It includes a keyboard 221 through which instructions are input, and a printer 223 through which results and the like are printed out.

CPU210. Memory 2112 Line Control Driver/Receiver 217 . Display 219. keyboard 221
．． All printers 223 are connected to the bus. however,
Display 219. Keyboard 221. printer 22
3 is via an interface not shown.

Further, the line control driver/receiver 217 is connected to a terminal controller on the center side via a line.

The work area 215 is “1” when key input operation is in progress.
°゛、0′ when no key input operation is in progress,
It is set by the CPU 210.

In addition, information on the flag 213 and work area 215 is
Even if the power of the O3@terminal 200 is turned off, it will not be erased because the power is backed up independently.

Figure 3 shows the operation procedure for saving data. Fourth
The figure shows the temporal flow regarding data evacuation.

Hereinafter, the operation in the embodiment will be explained based on FIGS. 2 to 4.

First, the day's work is started and the power of the terminal is turned on (step 311). In this state, no key input has been made yet, so the flag 213 is "0".

Next, the screen on the display 219 is moved to the home position (step 312).

Even in this state, the flag 213 is "'0".

In this home position state, it is determined whether or not an instruction to end the work has been issued from the keyboard 221 (step 313).

If the instruction to end the business is not given (negative determination in step 313), key input for transactions with the customer is started (step 314).

Next, it is determined whether a failure occurred during the input in step 314 (step 315).

If no failure occurs (negative determination in step 315) and the transaction is completed, the input is terminated (step 316).
, the screen returns to the home position screen in step 312.

Further, if a failure occurs in step 315 (affirmative determination), the power is turned off by -H (step 317).

By turning on the power again (step 318), the data stored in the work area 2l5 in the memory 211 is sent to the terminal controller via the line control driver/receiver 217 (step 3).
19).

On the other hand, if an instruction to end the work is given in step 313 (affirmative determination), the power is turned off and the work is ended (step 320).

With the above operating procedure, as shown in FIG. 4, when the power is turned on at the start of the day's work, the flag 213 is
Therefore, the data in the work area 215 is not saved to the terminal controller. On the other hand, if a failure occurs during a key input operation and the power is turned off, the flag 213 remains at 1'', so when the power is turned on again, the data in the work area 215 is saved.

■ As shown in this figure, the memory 211 stores “1゛°” during key input in a transaction with a customer, and “°” when key input is not in progress.
If a failure occurs and the power is turned off during key input during a transaction with a customer, that is, when the flag 213 is ``1,'' the flag 213 is set to be ``O11.'' When the power is turned off afterward, The data in the work area 215 is saved to the terminal controller.

However, when the power is turned on at the start of work on the 1st day, the flag 213 is set to "OR", so the work area 215
The data within is not saved.

Therefore, internal data can be saved only when a failure occurs.

■ In the embodiment of the present invention described above, the flag as the second storage means is secured in the same memory as the work area of the first storage means. It may be configured by hardware.

Further, the setting means at that time is not limited to software settings by the CPU.

Furthermore, in ``correspondence between examples and FIG. 1'',
Although the correspondence between the present invention and the embodiments has been described, those skilled in the art can easily imagine that the present invention is not limited to this and that there are various modifications.

〔Effect of the invention〕

As described above, according to the present invention, when the power is turned on while the second storage means indicates that a key input operation is in progress, the data stored in the first storage means during operation is stored in the host device. This is extremely useful in practice, since internal data can be saved only when a failure occurs, for example.

[Brief explanation of the drawing]

Fig. 1 is a principle block diagram of the PO3 terminal of the present invention, Fig. 2 is a block diagram of the configuration of the PO3 terminal in an embodiment of the present invention, Fig. 3 is an explanatory diagram of the operation procedure regarding data saving, and Fig. 4
The figure is an explanatory diagram of the temporal flow regarding data saving. In the figure, 111 is a first storage means, 113 is a second storage means, 115 is a setting means, 117 is a transfer control means, 200 is a PO3 terminal, and 210 is a CPU. 211 is a memory, 213 is a flag, 215 is a work area, 217 is a line control driver/receiver, 219 is a display, 221 is a keyboard, and 223 is a printer. Wind of the invention! Prok map diagram child° - Evening, JLiLl:, Jumping turn, hand, term diagram PO5 bird also (, composition)'°. 9 ri υri diagram

Claims (1)

[Claims] (1) A first storage means (111) in which data during operation is stored without being erased even when the power is turned off, and information on whether a key input operation is in progress is stored even when the power is turned off. The second storage means (11) is stored without being erased.
3), and a setting means (1) for setting information in the second storage means (113) depending on whether or not a key input operation is in progress.
15), when the power is turned on with the information in the second storage means (113) indicating that a key input operation is in progress, the first
A POS terminal comprising: transfer control means (117) for transferring the data stored in storage means (111) to a host device.