JPH0119680B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to an access method for an operational data memory used when referring to or changing operational data in the operational data memory in a button telephone device. be.

[Technical background of the invention]

A recent key telephone device will be explained with reference to FIG.

In FIG. 1, 1 indicates a main device. Connected to this main device 1 are m (m is a certain natural number) key telephones 2 ₁ , . . . , 2 _n . Furthermore, the main device 1 has n (n is a certain natural number) central office lines 3.
₁ ,...,3 _o are connected.

Inside the main device 1, button telephone interfaces 4 ₁ , . . . , 4 _n are provided to be connected to the button telephones 2 ₁ , . . . , 2 _n , respectively. The button telephone interfaces 4 ₁ , . . . , 4 _n are connected to the crosspoint 5 and the bus 6 . Also,
Inside the main device 1, office line interfaces 7 ₁ ,..., 7 _o are connected to the office lines 3 ₁ ,..., 3 _o, respectively.
is provided. Office line interface 7 ₁ ,...,
7 _o is connected to crosspoint 5 and bus 6 .

Furthermore, a control circuit 8 is provided within the main device 1 . This control circuit 8 controls the key telephone interfaces 4 ₁ , . . . , 4 _n , the crosspoint 5 and the office line interfaces _{7 1} , . Inside the control circuit 8, a main control circuit 9 having a processor function is connected to the bus 6, and a rewritable operational data memory 11 and a fixed memory 12 are connected to the main control circuit 9 via an internal bus 10. It is provided. The fixed memory 12 includes, for example,
A program used by the main control circuit 9 is stored. Further, a mode changeover switch SW is connected to the main control circuit 9, and the main control circuit 9 takes in data indicating whether the mode changeover switch SW is in an on state or an off state, and converts it into a normal key telephone device. (hereinafter referred to as call processing mode) or operation data setting mode.

Furthermore, at least one of the button telephones 2 ₁ , ..., 2 _n is a terminal capable of rewriting the operational data in the operational data memory 11 when set to the operational data setting mode by the mode changeover switch SW. It is. And the button telephone 2 ₁ ,...,
2 _n is provided with a central office line button for selecting one of central office lines 3 ₁ , . . . , 3 _o when making or receiving a call in the call processing mode. Furthermore, a corresponding indicator is provided next to or directly below the station line button.

The main control circuit 9 of such a button telephone device is as follows:
The operation follows the flowchart shown in FIG. 2.

That is, the power is turned on ("Power on"), and in the "Initialization" step, the button telephone device is initialized - for example, each contact is disconnected, various registers are reset, etc.

Next, in the "input" step, data sent from the key telephones 2 ₁ , . . . , 2 _n and the state of the mode changeover switch SW are fetched. Furthermore, in the "judgment" step, the main control circuit 9 determines that the input data has been sent from a terminal for setting operational data (key telephone) and that the data has been sent from a mode changeover switch.
It is determined whether the SW is on (in this case, on indicates the operational data setting mode), and if this condition is not met, the call processing operation is executed in the "call processing" routine, and if the condition is met, "setting mode" is executed. ” executes the operations in the operational data setting mode.

Finishing the above “call processing” routine, “setting”
When the routine ends, or when it is determined that there is no input in the "judgment" step, the process returns to the "input" step and the process is repeated according to the flowchart in the same figure.

By the way, the operational data memory 11 is a first memory for reference of operational data that has been battery backed up.
It consists of a memory and a second memory for changing operational data that has not been backed up. This first memory is a storage area (hereinafter referred to as a flexible area) in which data can be easily rewritten even when the button telephone device is in operation by a predetermined input operation.
and a storage area (hereinafter referred to as a hard area) in which the stored contents of the second memory are transferred and stored by a special switch operation when the button telephone device is not operating (in the "initialization" step in FIG. 2). are doing. Further, the second memory has a storage area (hereinafter referred to as a flexible area) in which data can be easily rewritten by a predetermined input operation even when the button telephone device is in operation.

The reason for providing the flexible area and the hard area in the first memory as described above is that some operational data is data that is referenced only once by the main control circuit 9 for a series of call processing operations of the key telephone device. This is because there is data that is referenced several times, and this data that is referenced only once is stored in the soft area.
Data that is referenced several times is stored in a hard area.

Next, how the main control circuit 9 accesses the operational data memory 11 will be specifically explained. In this explanation, when a call is received from a central office line,
Examples of operational data for so-called central office setting, which specifies which telephone should ring the incoming call, and operational data for so-called local origin regulation, which specifies which central office line can be used from a certain terminal. shall be. In addition, the button telephone device has four central office lines (C/O1 to C/O
4) 16 terminals (key telephones) (EKT10~
EKT25) shall have.

Figure 3A is a part of the first memory, Figure 3B is a part of the second memory.
This shows a part of the memory, 100 in Figure 3A.
101 indicates a part of the hard region, and 101 indicates a part of the soft region. The rigid area 100 includes a local setting table,
The soft area 101 is a table for local regulation.

Now, the local setting table (hard area 100)
When a call is received on the central office line C/O1, the terminal
When a call is received on EKT10, the ringtone on terminal EKT13 is played on the central office line C/O2.
This indicates that when an incoming call is received at O3, the ring tone of the terminal EKT25 will be sounded. Central line C/O4
has been omitted. In addition, the local origination regulation table (flexible area 101) is from the terminal EKT10 to the office line C/O2, and from the terminal EKT13 to the office line C/O2.
This indicates that each terminal can make a call to O4, and the remaining terminals cannot make a call to the central office line.

The operational data stored in the hard area 100 in the first memory of the operational data memory 11 as described above is moved from the second memory in the "initialization" step of FIG. That is, the station setting data is stored in Figure 3B in the "initialization" step.
from the soft region of the second memory shown in FIG. 3A to the hard region of the first memory shown in FIG. 3A.

At this time, when the main control circuit 9 refers to operational data in the call processing mode, it refers to the first memory. In other words, refer to the operational data in FIG. 3A. In addition, in the operation data setting mode, the soft area of the first memory and the second memory can be rewritten at any time, and in FIG.
1 and the part shown in FIG. 3B correspond to this.

Now, when there is an incoming call on the central office line C/O1, the terminal EKT
10, but if the other party stops the call while the ringtone is ringing, in order to stop the sending of the ringtone signal, the table for the station setting setting (rigid area 100) in FIG. 3A is used. refer. However, if the operational data is rewritten, for example, as shown in the station setting table (hard area 100 of the first memory) of FIG. 4A while the ring tone signal is being sent, the terminal
Although it is possible to perform processing to stop sending a ring tone signal to the EKT 24, it is not possible to perform a process to stop sending a ring tone signal to the terminal EKT 10, and the ring tone of the terminal EKT 10 does not stop.

Therefore, the data stored in the hard area 100 of the first memory is not rewritten unless a predetermined operation is performed when the button telephone device is not in operation, and the data is stored in the soft area 101 of the first memory and the second memory. The stored data can be easily rewritten even when the key telephone device is in operation, and furthermore, the data stored in the second memory can be easily rewritten even when the key telephone device is in operation. The data was moved to a hard area of the first memory.

[Problems with background technology]

By accessing the operational data memory 11 in this manner, the key telephone device can be operated. However, storing the data to be changed in the second memory is important because the second memory has not been battery backed up before the data in the second memory is moved to the hard area of the first memory. , it may be erased due to power off. In addition, operations to move data in the second memory to the hard area of the first memory are frequently performed.
It becomes easy to forget, the power is cut off, and the operational data that has been set up is often erased.

[Purpose of the invention]

The present invention has been made in view of the drawbacks of the conventional methods described above, and its purpose is to ensure that operational data can be changed and set, and to easily perform operations for changing operational data. The purpose of the present invention is to provide an access method for operational data memory.

[Summary of the invention]

Therefore, in the present invention, the operational data memory is a first memory having a first storage area and a second storage area, on which battery backup has been performed;
and a second memory to which operational data stored in the storage area of the first memory is transferred and stored, and a battery backup is not performed. At least one of the storage areas of the first memory is accessed, and at least one of the first and second storage areas of the first memory is accessed when changing operational data.

[Embodiments of the invention]

Embodiments of the present invention will be described below with reference to the drawings.

The configuration of the key telephone device in this embodiment is the same as that shown in FIG. 1, and its main control circuit 9 operates in accordance with the flowchart shown in FIG. 2 in the same manner as in the prior art. However, the operational data memory 11 in this embodiment is composed of a first memory to which battery backup has been performed and a second memory to which battery backup has not been performed. This first memory has a storage area (first and second flexible areas) in which data can be easily rewritten even when the button telephone device is in operation by a predetermined input operation, and the second memory has a storage area (first and second flexible areas) where data can be easily rewritten even when the button telephone device is in operation. It has a storage area (hard area) to which data stored in the first soft area of the first memory is transferred and stored during non-operation (in the "initialization" step shown in FIG. 2). Further, the second flexible area of the first memory stores operational data that is referenced only once by the main control circuit 9 for a series of call processing operations of the key telephone device, and the hard area of the second memory stores operational data that is referenced only once. Stores operational data that can be referenced over time. That is, the first
The second flexible area of the memory and the hard area of the second memory are storage areas for reference to operational data that the main control circuit 9 directly refers to.

Next, how the main control circuit 9 accesses the operational data memory 11 will be specifically explained.
In this explanation, as in the conventional example described above, the operational data is for station arrival setting and station origination regulation,
The button telephone device has four central office lines (C/O1 to C/O
4) 16 terminals (key telephones) (EKT10~
EKT25).

Fig. 5A is a part of the first memory, Fig. 5B is a part of the second memory.
This shows a part of the memory, 200 in Figure 5A.
201 shows a part of the first soft region, and 201 shows a part of the second soft region.

Now, the main control circuit 9 in this embodiment is provided with an address conversion means in software or hardware, and appropriately converts the address required by the main control circuit 9. In other words,
This address conversion means outputs an address for the operational data memory 11 when referring to or changing operational data as an address in the address space of the first memory when writing the memory, and outputs an address in the address space of the second memory when reading the memory. 1
A data storage area (second flexible area 20) that is referenced only once for a series of call processing operations in memory.
1) is output as an address in the address space.

For example, when configuring the address conversion means with software, the address of the operational data memory 11 searched by the main control circuit 9 in the "call processing" routine shown in the flowchart of FIG. Among the addresses of the first memory, the address of the data storage area (second flexible area 201) that is referenced only once in the call processing mode is set in the program in the fixed memory 12, for example, and the second The address of the operational data memory 11 used by the main control circuit 9 in the "setting" routine shown in the flowchart is set, for example, in the program in the fixed memory 12 as the address of the first memory. By doing this, the addresses in the program used by the main control circuit 9 in the call processing mode or the operational data setting mode are designed to specify the above address space in advance, so that the necessary area can be Access is possible.

Next, an embodiment of the present invention will be specifically described using the flexible region 200 of FIG. 5A as a table for local origin setting and the flexible region 201 as a table for local origin regulation.

Now, the operational data is set in the first memory as shown in FIG. 5A, and in the "initialization" step of FIG. is moved to the second memory in FIG. 5B.

When the mode changeover switch SW is off and the call processing mode is selected, when the main control circuit 9 refers to the operational data memory 11, the address conversion means in the program converts the series of call processing in the first memory. Addresses are output for the local origin regulation table (soft area 201), which is a data area that is referenced only once during operation, and the local origin setting table (hard area) of the second memory.

In addition, when the mode changeover switch SW is on and the main control circuit 9 changes the operational data in the operational data memory 11 in the operational data setting mode, the address conversion means in the program changes the Setting table (soft area 200) and local regulation table (soft area 20)
The address for 1) is output.

In other words, as long as the key telephone device is powered on, the second memory whose contents remain unchanged during a series of call processing operations as shown in FIG. A data area (soft area 201) that is referenced only once is referenced. Therefore, even if, for example, there is an incoming call on the central office line C/O1 and the other party stops the call while the ringtone is sounding on the terminal EKT10, the contents of the central office setting table in the second memory will remain unchanged (the broken line circle mark), and can stop sending the ringtone signal to the terminal EKT10. In addition, the operational data of the local line regulation table (flexible area 201) is referenced only once at the beginning of the operation of local line origination, and is
Even if it is changed as shown in Figure A, there is no problem.

In addition, although the table of station setting (flexible area 200) in the first memory is rewritten during operation, the rewritten data will not affect the operation as long as the key telephone device is continuously powered. There isn't. Furthermore, since the first memory is battery backed up, it is convenient for storing operational data that is scheduled to be used in the future. Among the operational data stored in the first memory in this way,
Data that is referenced many times in a series of call processing operations, such as the data in the station setting table, is stored as shown in Figures 6A and B when the key telephone device is turned off and then turned on again. The data is moved to the second memory so that it can be referenced by the main control circuit 9 from now on.

〔Effect of the invention〕

As explained above, according to the present invention, since the operational data is changed in the first memory where battery backup has been performed, the operational data is not erased even when the power is turned off, and is accurate once it has been changed. Once you change it to , there is no need to redo the setting operation. In addition, there is no need for the operator to be involved in data movement, and data movement is performed automatically during "initialization" after the power is turned on, which is not only convenient, but also eliminates the need to worry about forgetting data movement operations. From this point of view as well, it is possible to ensure that the settings of the operational data can be changed reliably.

[Brief explanation of drawings]

FIG. 1 is a block diagram of the button telephone device, FIG. 2 is a flowchart explaining the operation of the main control circuit, FIGS. 3 and 4 are diagrams explaining the conventional system, and FIGS. FIG. 6 is a diagram for explaining one embodiment of the present invention. 1...Main device, 9...Main control circuit, 11...Operation data memory, 12...Fixed memory.

Claims (1)

[Scope of Claims] 1. The operation data memory in a button telephone device, which includes a main control circuit having a processor function in the main device and a rewritable operation data memory storing operation data referred to by the main control circuit. In the access method, the operational data memory is transferred to a first memory having a first storage area and a second storage area, which has undergone battery backup, and the operational data stored in the first storage area is transferred and stored. a second memory in which no battery backup is performed;
When referring to the operational data, the main control circuit outputs an address corresponding to at least one of the second storage area of the first memory and the storage area of the second memory to access the operational data memory, and also accesses the operational data memory. Accessing the operational data memory in a button telephone device, characterized in that when changing, the operational data memory is accessed by outputting an address corresponding to at least one of the first and second storage areas of the first memory. method. 2 When the main device is powered on, the main control circuit
2. An access method for an operational data memory in a button telephone device according to claim 1, characterized in that operational data stored in a first storage area of the memory is transferred and stored in a second memory. 3 The first storage area of the first memory stores operational data that is referenced many times by the main control circuit during a series of operations from line connection to call termination, and the second storage area stores operational data that is referenced many times by the main control circuit during a series of operations from line connection to call termination. 3. An access method for an operational data memory in a button telephone device according to claim 1 or 2, characterized in that operational data is stored that is referred to by the main control circuit only once during operation up to a call.