JPS61193219A - Power supply application system - Google Patents

Abstract

PURPOSE:To omit a case where an operator performs switching functions by setting control data corresponding to both application and cut-off time points of a power supply in addition to these time points and reading said control data through a terminal equipment when the power supply of this equipment is applied or cut off to perform the corresponding operations. CONSTITUTION:A memory 7 contains a time point setting area ti where the application/cut-off time points of the power supply of a terminal equipment are written and a control data area di where the control data is written. The data di stores an address which indicates a terminal equipment, the ON-OFF data showing the application or the cut-off of the power supply, the control data indicating an operating mode of the terminal equipment, etc. A processor 8 scans successively the area ti and reads the area di of a control area mi where a time point coincident with the time point (t) of a timer 9 is set to deliver the corresponding signal, i.e., an address, an application or cut-off signal and the control data.

Description

[Detailed Description of the Invention] [Table of Contents] Overview Industrial Field of Application Conventional Technology Problems to be Solved by the Invention Means for Solving the Problems Example of Action (1) Structure of the Present Invention (Fig. 2) (2) Operation of the present invention (Figs. 2 and 3) Effects of the invention [Summary] The present invention provides an automatic power control device that is a power control device for a terminal device.
In addition to the power-on or power-off time, set control data corresponding to that time in APC), and when the terminal device is powered on or off, the terminal device reads that control data and responds accordingly. It is designed to perform certain actions.

[Industrial application field]

The present invention relates to a power-on method, and more particularly to a power-on method that allows a terminal device to be turned on and off over time by remote control.

[Conventional technology]

Conventionally, an automatic power control device (APC) has been used as a power control device to remotely control the power on/off of a terminal device.
) is common. APC includes timer type and line carrier detection type, etc., but conventionally, as shown in Fig. 4 (
, one APC 41 is connected to one terminal 42, and the terminal 42 is connected by the input signal from the APC 41.
When the power unit in the power supply board 43 is turned on, the status signal ST is "1" and is transmitted to the processor 45 in the control circuit 44 via the power supply board 43. Recognize that it is due to control.

Further, when the power is turned on by turning on the manual power switch 46 in the terminal, the status signal ST rO
J, the processor 45 recognizes that this is due to the power switch 46 being turned on. When the power is turned on by remote control using the former APC 41, a program corresponding to the so-called unmanned operation is run. Normally, in such a system, files on the magnetic disk in the terminal are updated from the center side using a line at night, and, for example, a program in the terminal can be corrected by a center patch at night.

[Problem that the invention seeks to solve]

By the way, in this conventional APC power-on method, the AP
There were only two modes: one was input based on remote control using C, and the other was input manually, and the terminal had no choice but to operate in one of these two modes. Also, 1 for each terminal.
This requires multiple APCs, which makes it expensive.

In order to solve these problems, the present invention provides a power-on method that is configured to be able to control terminals in multiple modes and also allows one APC to control multiple terminals. With the goal.

[Means for solving problems]

In the present invention, as shown in FIG. 1, the timer type APct not only writes the time for turning on and off the power of the terminal device 2 in the time setting memory area t, but also writes the control data associated therewith in the control data memory area d. Set to . Therefore, when this timer type APCI sends a power-on signal to the power panel 3 of the terminal 2 at the time set in the time setting memory area t, it sends control data from the control data memory area d. After this control data is held in the register 6 of the control circuit 4, the processor 5 performs corresponding control. Therefore, the program to be operated by the terminal device 1 is changed according to this control data, thereby allowing the terminal device 1 to operate as a bank terminal at some times and as a personal computer at other times. Additionally, if an address is added to the control data, multiple terminals can be selectively controlled simultaneously according to this address, and each bit of the control data can be used to control multiple terminals simultaneously without providing an address. By using it as data corresponding to the machine number, it is possible to selectively control the power on/off of some of the plurality of terminal devices.

[Effect]

This allows the terminal to selectively operate in a number of modes, and allows one APC to control a plurality of terminals.

〔Example〕

An embodiment of the present invention will be described based on FIGS. 2 and 3.

FIG. 2 is a configuration diagram of an embodiment of the present invention, and FIG. 3 is an explanatory diagram of the state of use.

(1) Structure of the present invention In Fig. 2+8), 1 is a timer type APC, 7 is a memory, 8 is a processor, 9 is a timer, and 110 is an output section.

The memory 7 includes a time setting area tiH=o, 1, -n) in which the times at which the power of the terminal is turned on and off is written, and a control data area di (i=0.1) in which control data is written.
, -n) are prepared.

In the time setting area ti, the time at which the power of the terminal is turned on or off is written. In the control data area di,
As shown in FIG. 2(b), an address for instructing the terminal, on/off data for indicating connection or disconnection, control data for instructing the operating mode of the terminal, etc. are entered. When one terminal is connected to the APC, the address may be omitted. In the memory 7, a time setting area ti and a control data area di as described above form a pair to form a control area mi (i=0.1, -n). Note that data can be entered in these control areas mi using appropriate means, for example, a keyboard, or a ROM in which these data are written in advance may also be used.

The processor 8 sequentially scans the time area ti, reads the control data area di of the control area mi in which the time that coincides with the time t of the timer 9 is set, and outputs the corresponding signals, that is, the address and input or Sends disconnection signal and control data.

(2) Operation of the present invention The present invention will be described in detail.

■ As shown in Figure 3(a), when multiple terminals 11.12.13.14 are connected to APC 1, for example, when 4 terminals are connected, the address is 4. Prepare bits and write common control data. Then, at time tl, when data is entered to control the terminal 11.14 as a first-line bank terminal,
When the timer 9 indicates the time tl, the processor 8 reads the control data area dl of the control area m1 in which the time tl is written, turns on the power to the terminals 11 and 14, and connects them to the first line bank terminal. Recognize that it operates as Therefore, in order to output 4-bit data D1 to D4 as an address and instruct terminals 11 and 14, for example, D
+ and D4 to "1", then the input signal is output from the input/cut signal section 10-1, and the first signal is output from the data transmission section 10-2.
Sends control data for line bank terminals. As a result, the terminals 11 and 14 operate as first-line bank terminals at time tl.

Note that instead of using the same number of bits as the number of terminals as described above, the address can also be specified using a combination of 2-bit data in the case of 4 terminals, and a combination of 3-bit data in the case of 8 terminals.

Further, when the terminals 11 and 14 are operated as first-line bank terminals and the terminals 12 and 13 are operated as second-line bank terminals at time t1, the control area of the memory 7 of APCl is divided into two sections ml and m2. , write tl in the time setting area, write the address and control data of the terminal to operate as a first-line bank terminal on one side, and write the terminal to operate as a second-line bank terminal on the other side. If the address and control data of the machine are entered, the processor 8 will continuously send out these data at time tl, so that desired control can be performed.

Incidentally, if only the power is to be turned on and off, the power of a plurality of devices can be controlled at once or individually by associating each bit of the control data with the device number of the terminal device without using an address.

(2) As shown in FIG. 3(b), when one terminal 2 is connected to the APCI, the address part can be omitted, so there is no need to write the address. At this time, if terminal 2 can be used as a bank terminal, word processor, personal computer, etc. by changing the program, enter bank terminal (first line) at time t1, word processor at tl, and personal computer at t3 as control data. All you have to do is turn on the input signal. As a result, when the timer 9 reaches tl, the processor 8 sends out the input signal and the control data for the bank terminal, sends the control data for the word processor at tl, and sends the control data for the personal computer at t3. , the terminal 2 is sequentially initialized as a bank terminal (first line), word processor, and personal computer at each time, and operates accordingly.

〔Effect of the invention〕

In a timer-type APC, the present invention not only programs the on/off time of the device, but also allows programming of time information and associated control data, so that when the APC sends a power-on signal, the control data can be programmed. It can also be output.

Therefore, when the functions of the apparatus are switched depending on the time of day, there is no need for the operator to switch the functions.

Furthermore, it is also possible to control the power supplies of a plurality of devices using one APC.

[Brief explanation of drawings]

FIG. 1 is a block diagram of the principle of the present invention. FIG. 2 is a block diagram of an embodiment of the present invention. FIG. 3 is an applied example of the present invention. FIG. 4 is a conventional example. 1--Automatic power control device (APC) 2--One terminal device 3--Power panel 4--Control circuit
5-1~--Processor 6-Register 7-
Memory 8-Processor 9-Timer 1〇-Output section

Claims (1)

[Claims] An automatic power supply control device comprising a timer, a processor, and a terminal device connected to the processor, comprising a time setting area and a storage area for control data including information indicating power-on corresponding to the time. 1. A power-on method, characterized in that: a memory having a timer is provided, and when a set time of a timer is detected, the control data of a corresponding storage area is supplied to a terminal device.