JPH0197036A - Automatic start control system for communication control equipment - Google Patents

Abstract

PURPOSE:To support automatic start control by one kind of communication control mechanism by analyzing a command from an opposite station and setting an automatic start control program applying on/off control of a power source for a processing unit to a RAM of the communication control mechanism. CONSTITUTION:A program applying the initial setting of the communication control mechanism 1 is mounted to a ROM 12 and a program for automatic start control is mounted to a RAM 13. The communication control mechanism 1 loads an automatic start control program from a program file 3 under the control of a processing unit 2 via a RAM 13. The communication control mechanism 1, depending on the automatic start control program to be loaded, a waits the command of power supply application from an opposite station 8 by a method in matching with the line type or transmission control procedure. In receiving the power application command from the station 8, a flip-flop 16 is set to apply a main power 4. Thus, the automatic start control program of the communication control mechanism is loaded from the processing unit.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to an automatic start-up control method for a communication #leg device, and in particular, a communication control method suitable for starting up the power of the device according to an instruction from a partner station. This invention relates to an automatic startup control method for devices.

[Conventional technology]

In general, in data communication systems, in order to meet the demands for longer system operating times and higher operating efficiency, for example, a host data processing device powers on an unattended terminal device, and the host data processing An automatic startup control method has been adopted to enable data communication between the device and the terminal device0. Conventionally, in data communication systems, the automatic startup control method that enables the automatic startup of an unattended terminal device has been adopted.
For example, Japanese Patent Application Laid-Open No. 57-190445 is known. This is a system in which a terminal device is provided with a communication control device having a packet level function, and a host-side processing device starts up the terminal device via a digital data exchange device and the communication control device. .

[Problem that the invention seeks to solve]

In the above-mentioned conventional technology, the function of the communication control device is made compatible with each communication network, and no consideration is given to the commonality or layeredness of the communication control mechanism, and the automatic startup control program is usually stored in the ROM. It was set up in Therefore, there is a problem in that a single communication control mechanism cannot support multiple communication networks and transmission control procedures.

An object of the present invention is to provide an automatic activation control method that can support automatic activation control in a wide variety of communication networks and transmission control procedures with one type of communication control mechanism.

[Means for solving problems]

The above purpose is to set an automatic startup control program on the ROM in the communication control mechanism that analyzes instructions from the other station and controls the power on/off of the processing device in a communication control mechanism equipped with an automatic startup control means. RAM in the communication control mechanism
This is achieved by making it possible to set various automatic startup control programs as desired.

[Effect]

A communication control mechanism equipped with an automatic start-up control function normally operates in a state where the power of the processing device is not turned on, and the communication control mechanism independently analyzes a power-on instruction from a partner station. When the communication control unit is powered on, the communication control unit checks whether the automatic startup control function support program is loaded. If it is not loaded, the communication control unit is powered on and the program is loaded into the communication control unit. Load. As a result, the communication control mechanism automatically starts l! Since the control function is activated, there will be no malfunction such as the receiving station discarding a power-on instruction from the other station.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 to 3. FIG. 2 shows a block diagram of a terminal device to which the present invention is applied. The main parts of the terminal device 5 are composed of a communication controller 1i111, a processing device 2, and a program file 5. The processing device 2 is connected to the communication system 1 and the program file 3, respectively. The main power 4 is a power supply for the processing device 2 and the program file 5, and the sub power 5 is a power supply for the communication control mechanism 1.

The communication control mechanism 1 monitors the main power 4 using the main power 1 visual signal 41, controls the on/off of the main power 4 using the main power control signal 42, and connects the terminal device 6 to the terminal device 6.
is connected to the other station 8 via the communication line Is7.

Next, FIG. 1 shows a block diagram of a communication control mechanism to which the present invention is applied. The same parts as in FIG. 2 are given the same reference numerals. In FIG. 1, 11 is a 9-cal CPU that controls the entire communication control mechanism 1. In FIG. This local CP
U11 connects to ROM12 and RAM via internal path 19.
1s and the serial-to-parallel converter 14, respectively, and control the communication control mechanism 1. Here, the ROM 12 is loaded with a program for initializing the communication control mechanism 1, and the RAM 12 is loaded with a program for initializing the communication control mechanism 1.
15 is equipped with a program that performs automatic startup control.

The RAM 15 interfaces with the processing device 2. Further, the serial-to-parallel converter 14 has communication times @7.
This converts the above serial data to parallel data.

Further, the main power 4 is connected to the internal path 19 via a receiver 15 and a 7-lip/70-tube 16.

This receiver 15 is for reporting the state of the main power monitoring signal 41 to mt-local CP011.

Further, the 7-rig/70-tub 16 outputs the main power control signal 42, and the local CPU 11 outputs the main power-on signal 161. Each of the main power-off signals 162 (No. 1 11JK controls the flip-flop 16.

Furthermore, in 17, the program that performs automatic startup control is stored in RAM.
This is a 70-tube clip that is set when loaded in 13. The clip 70 plug 17 receives the loading-on signal 171 as a set signal from the internal bus 19, and outputs the loading state display signal 172 as an output signal to the internal bus 19. Further, 18 is a reset signal generating circuit for resetting the flip-flop 17 only when the communication control mechanism 1 is powered on.

FIG. 5 is a flowchart of the initial setting program provided on the ROM 12 shown in FIG.

The method of loading the automatic startup control program of the communication control mechanism 1 will be mainly explained using this flowchart. R.O.
The conditions for M12 to start are (1) when the power supply of the communication control mechanism 1, that is, the sub power 5 is turned on, and (2)
There are cases where a reset signal is issued to the communication control mechanism 1 due to turning on/off of the main power 4, etc.

(1) Check the state of the processing main power 4 when the sub power 5 is turned on, that is, the state of the main power monitoring signal 41. Since the main power 4 is off when the sub power 5 is turned on, the process proceeds to 'No'. There, the clip frog 17 checks whether the automatic startup control program is loaded into the communication control mechanism 1.
Check according to the condition. At this point, there are 7 rigs and 70
Since the knob 17 has only been reset by the reset signal generating circuit 18, the process proceeds to 'NO'. Then, the clip flop 16 is connected to the main power-on signal 1.
By turning on the power at 61, the main power 4 is turned on.

(2) Program loading process When the main power 4 is turned on, the communication control mechanism 1 is reset and the process shown in FIG. 3 is restarted from the start. At this point, main power 4 is on, so 'Yes'
Then, it is determined whether the program has been loaded or not. However, since the flip-flop 17 is in a reset state, the process proceeds to 'NO'. The communication control mechanism 1 The automatic start control program is loaded from the program file 3 under the control of the processing device 2 via the program file 3. When the loading of this program is completed, the clip-flop 17t is turned on by the loading-on signal 171. Then, the main power is turned on. The main power 4 is turned off by putting the flip-flop 16 into a reset state with the off signal 162.

(3) Automatic startup process When the main power 4 is cut off, the communication control mechanism 1 is reset and the process shown in FIG. 3 is restarted from the start. At this point, main power 4 is off, so 'N
Proceed to process O'. Therefore, it is determined whether the program has been loaded or not. At this time, since the clip-flop 17 is in a set state, the process proceeds to ``YES''. Communication control mechanism 1
The terminal waits for a power-on instruction from the partner station 8 using a method suitable for the line type and transmission control procedure according to the loaded automatic startup control program. When a power-on instruction is received from the partner station 8, the main power 4 is turned on by setting the clip-flop 16.

(4) When the business processing main power 4 is turned on, the processing in FIG. 5 is restarted from the start. At this point, main power 4 is on, so proceed to the 'YES' process.
Furthermore, since the program has already been loaded, the process proceeds to 'YES'. In the business processing routine, the communication control mechanism 1 is controlled including loading of the business processing program, that is, communication control is performed.

According to this embodiment, there is a RAM equipped with an automatic startup control program that is not affected by set/reset etc. when the main power is turned on/off, and a flip panel that manages whether the program is loaded into the communication control mechanism. - Since a flop is provided, it is now possible to load a program for automatically starting the communication control mechanism from the processing device.

〔Effect of the invention〕

According to the present invention, since one communication control mechanism can support automatic activation control for a plurality of communication line types and transmission control procedures, it is possible to connect to a plurality of partner stations with one communication control mechanism.

[Brief explanation of the drawing]

Fig. 1 is a block diagram of a communication control mechanism applied to an embodiment of the present invention, Fig. 2 is a block diagram of a terminal device applied to an embodiment of the invention, and Fig. 3 is a block diagram of a communication control mechanism applied to an embodiment of the present invention. 3 is a flowchart of an initialization program for a control mechanism. 1... Communication control mechanism, 2... Processing device, 3
...Program file, 4...Main power, 5
...Subpower, 6.Terminal device, 8.
... Opposite station, 11...Local CPU
. 12...ROM, 13...RAM.

Claims (1)

[Claims] 1. The processing device, a power source for driving the processing device, and a separate power source from this power source, and the power source for the processing device can be turned on/off.
In an automatic start-up control method for a communication control device that is equipped with a communication control mechanism that performs off control and is connected to the other station via a communication line,
The communication control device includes a memory for loading and executing a program from the processing device that analyzes instructions from the partner station and controls on/off of the power supply for the processing device, and a memory for loading and executing a program in the communication control mechanism. A flip-flop is provided to manage whether or not the program is loaded, and when the communication control mechanism enters an initial state, the flip-flop is referred to, and if the program is not loaded, the processing unit is powered on. An automatic start-up control method for a communication control device, characterized in that a program is loaded, and after the loading is completed, the processing device is powered off to wait for a power-on instruction from the partner station.