JPS63146114A - Rush current control system - Google Patents

Abstract

PURPOSE:To prevent peak values of rush currents of each terminal from being superposed, by delaying a power source signal from a keyboard terminal successively for a prescribed time, so as to be transmitted to each terminal. CONSTITUTION:When a power source switch 15 of a keyboard terminal 10 is turned on, a power source turn-on signal is inputted to a terminal 11-1 after a prescribed time T and a power source of the terminal 11-1 turns on, and by a delay part DL, after a prescribed time T, a power source turn-on signal is outputted to a power source turn-on signal line 12, inputted to the next terminal 11-2, and the terminal 11-2 receives this signal and the power source is turned on. Thereafter, this operation is repeated successively and all of the terminal 11-1-11-n turn on, and the power source of each terminal 11-1-11-n is shifted by a prescribed time T and turned on. In such a way, peak values of rush currents which follows up ON of each terminal 11-1-11-n are also shifted by T each and the rush current as the whole system is limited.

Description

[Detailed description of the invention] [Table of contents] Overview Industrial field of application Prior art (Figs. 4 and 5) Problems to be solved by the invention - Means for solving the problems (Figs. 1 and 5) Fig. 2) Working Example (Fig. 3) Effects of the Invention [Summary] In a system where a plurality of terminals are powered on by operations from one keyboard terminal, the power signal from the keyboard terminal is sequentially delayed by a certain period of time. Configure the inrush current to be transmitted to each terminal so that the peak values of inrush current of individual terminals do not overlap.

[Industrial application field]

The present invention relates to a power supply control method for a system to which a large number of terminals are connected, and particularly to an inrush current control method that prevents inrush current from becoming excessive.

A system in which a plurality of display terminals are connected to and controlled by one keyboard terminal is used as a terminal for, for example, financial companies such as securities companies. In such systems, the display terminal is typically controlled by keyboard input from a keyboard terminal. For example, a power-on operation is performed by a power-on command signal from a keyboard terminal.

[Conventional technology]

FIG. 4 is a block diagram showing a conventional terminal control method. In the figure, 40 is a keyboard terminal, 41-1
-41-n are display terminals. Each display terminal is connected by a power-on signal line 42, a reception line 43, and a transmission line 44, and the power-on signal line 42 receives a power-on signal from the keyboard terminal 40.

Now, when the power switch 45 is turned on in the keyboard terminal 40, this is transmitted to each of the terminals 41-1 to 41-n through the power-on signal line 42, and the power of each terminal is turned on. Figure 5 shows the situation at this time.
Almost at the same time as the keyboard terminal is turned on, each terminal 41-1 to 41-4
This shows that the power of 1-n is turned on.

[Problem that the invention seeks to solve]

According to such a conventional control method, each terminal 4
Since the power supplies of 1-1 to 41-H are turned on almost simultaneously,
The problem is that the peak values of the inrush currents overlap, and the total inrush current becomes a large current that is approximately n times the inrush current of each terminal.

The present invention has been made in view of these points, and it is an object of the present invention to provide an inrush current control method that prevents an excessive inrush current when the power is turned on in a system in which a large number of terminals are connected. purpose.

[Means for solving problems]

FIG. 1 is a schematic diagram showing the principle of the invention.

In FIG. 1, lO is a keyboard terminal, and 11-
1.11-2 to 11-n are display terminals and the like that perform display. Each terminal has one receive data line
3. Outside the transmission data line 14, power-on signal line 1
2 are connected.

The power-on signal line 12 connects terminals 11-1 to 11-
Up to n, the terminals are connected in series through each terminal in turn. When the power switch 15 of the keyboard terminal 10 is turned on, a power-on signal is input to the terminal 11-1 after a predetermined time T, and the power of the terminal 11-1 is turned on. Note that POW is a switch power supply section having a power supply and a switch section for turning on the power supply. When the terminal 11-1 is powered on, the delay unit DL outputs a power-on signal to the power-on signal line 12 after a predetermined time T, and the signal is input to the next terminal 11-2. The terminal 11-2 receives this signal and is powered on. Thereafter, this operation is repeated one after another until all terminals 11-1, 11-n are turned on.

Note that each terminal is configured so that it is not controlled by the power-on signal line 12 when a keyboard terminal is connected.

FIG. 2 is a waveform diagram showing the above-mentioned operation. When the keyboard terminal is turned on, the terminal 11-1 is turned on after a predetermined time. Further, after the terminal 11-1 is turned on, a power-on signal is similarly issued to the next terminal 11-2 after the decay time T,
Terminal 11-2 receives this signal and turns on.

Therefore, the system inrush current has a peak current of each terminal shifted by a predetermined time.

[Effect]

As described above, according to the present invention, the power supply of each terminal is turned on with a lag of a predetermined time T, and the peak value of the inrush current accompanying the turning on of each terminal is also shifted by T. Therefore, the inrush current of the entire system is greatly limited.

〔Example〕

An embodiment of the present invention will be described based on FIG. 3 and FIGS. 1 and 2.

FIG. 3 shows a delay circuit that generates a power-on signal to turn on the next terminal after a predetermined time has elapsed after the power is turned on.
This is a specific example of the delay unit DL in FIG. 1.

FIG. 3 shows an example in which a delay circuit is used, and in particular, a CR delay circuit is used. Keyboard or previous terminal OU
Upon receiving the power-on signal from the T terminal, the power of the terminal is turned on (not particularly shown), and this signal turns TRr on.
Turn on and charge the charging circuit consisting of C+Rt.

If necessary, this output is added to the IN side of the next stage terminal via a comparator or the like.

The next stage terminal receives the power-on signal with a delay of the time determined by C+Rt (T in FIG. 2).

As another example of the delay unit DL, for example, a counter may be used. That is, a counter is provided to count the clock, and the counter of the terminal 11-1 is started by a power-on signal from the keyboard terminal 10.

After counting a predetermined number, a power-on signal is sent to the next terminal 11-2. Upon receiving this power-on signal, the terminal 11-2 starts counting the counter, and after performing a predetermined count, starts the next terminal 11-2.
-3 is the terminal 11-1.
It is similar to

In this way, the power to the terminals will be turned on one after another. By adjusting the value to be counted by the counter, the next terminal can be powered on after an arbitrary time delay.

〔Effect of the invention〕

As described above, according to the present invention, the terminals can be powered on after a predetermined time has elapsed in response to the power-on signal from the keyboard terminal, so it is possible to suppress the inrush current to a low level. There are no restrictions on the number of terminals.

[Brief explanation of the drawing]

Fig. 1 is a schematic configuration diagram showing the principle of this invention, Fig. 2 is a waveform diagram for explaining the operation, Fig. 3 is a diagram showing an embodiment of the delay means in this invention, and Fig. 4 is a conventional example. FIG. 5 is a diagram for explaining the operation of the conventional example. 10-Keyboard 11-1~1l-n-...Display terminal patent distributor Fujitsu Limited

Claims (1)

[Claims] In a data processing device in which a plurality of terminal devices are powered on by one keyboard terminal (KB), each terminal device (11-1, 11-2...11-n)
It is equipped with a means (POW) for turning on the power in response to a power-on signal from a keyboard terminal (KB), and a delay means (DL) for delaying the power-on signal by a predetermined time and transmitting it to the next terminal device. An inrush current control method characterized in that the power to each terminal device is sequentially turned on at predetermined time intervals.