JPS6329821A - Automatic power supply control system - Google Patents

Abstract

PURPOSE:To obtain an inexpensive, space-saved and highly functioned automatic power supply control system by adding a sub-CPU and a local memory to the system and forming a power supply starting signal on the basis of an external power supply starting request to open/close an AC input line. CONSTITUTION:A CI signal for an RS232C is activated by an access outputted from a remote place, branched by an RS232C interface circuit 11 and inputted to the sub-CPU 12 through a signal line 101. The sub-CPU 12 is always kept at an operating state by current supply from an auxiliary power supply part 142 in a power supply device 14, detects the CI signal (line 101) by executing a program stored in a local memory 13 and generates a power supply starting signal (line 102). The power supply starting signal transmitted through the line 102 drives a relay control part 143, generates an exciting signal for a relay 144 and closes the relay 144 to supply the AC input to a main power supply part 141. Consequently, the main power supply part 141 generates various DC outputs to hold the whole data processor 10 at a current supply status.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to an automatic power control system suitable for use in a remotely located data processing device.

(Prior art) To turn on the power of a data processing device by remote control,
Conventionally, this has been realized using the device configuration shown in FIG. This will be explained using the timing chart shown in FIG. First, the data processing device 22 is called via the communication line 21. As a result, the data processing device 22 and the communication port #j
network control device (Nα) and modem 23 interposed between
is the called response (CI) on the R8232C interface 24.
) activate the signal. The signal is branched and input to an automatic power supply device (APS 25 ) inserted between the AC input terminal of the CI double signal data processing device 22 and the AC input power source.

The APS 25 is composed of a relay placed in series on the AC line and a drive section for this relay, and this relay performs 0N10FF of the AC input of the data processing device 22. The CI double signal relay input to the APS 25 is driven to turn on the AC input of the data processing device 22, and as a result, DC output is supplied to each part of the data processing device H22.
The device is activated.

(Problems to be Solved by the Invention) The conventional system start-up method using remote control has been described above, but this method has the following drawbacks.

(1) It is expensive because it requires a dedicated APS.

(2) Since a dedicated APS is required, installation space is required accordingly.

(3) A means for branching part of the R8232C signal is required.

(4) It is not possible to set complicated operation modes, and therefore it is not possible to use a flexible control method.

The present invention has been made in view of this, and it is an object of the present invention to provide an automatic power supply control system that is inexpensive, space-saving, and highly functional, without requiring the addition of a small amount of hardware.

[Configuration of the Invention (Means and Effects for Solving Problems)] In order to realize the automatic power control described above, the present invention provides local memory used by a sub CPU and a 7" CPU in addition to the main CPU. In addition, a power start signal is generated in response to a power start request coming from the outside, and the fiAc input signal is activated based on this power start signal.

By programming the above-mentioned operations into the local memory, APS is not required and automatic power supply control can be realized at low cost, and by changing this program, it is possible to set various operation modes. .

(Example) Examples of the present invention will be described in detail below. FIG. 1 is a block diagram showing an embodiment of the present invention. In the figure, No. 1 is an R8232C interface circuit included in the data processing device. 12 is a sub CPU; 13 is a local memory; the sub CPU 12 reads and executes programs stored in the local memory 13; Sub C with
The PU 12 and local memory 13 are the power supply device 1 which will be described later.
Even when the system is not energized, it is energized by the auxiliary power supply section 142 in the system so that it is always in an operating state. 14 is a power supply device, which includes a main power supply section 141. Auxiliary power supply section 142, relay control section 143. It consists of a relay 144. As described above, the auxiliary power supply unit 142 always energizes a part of the data processing device. Reference numeral 144 denotes a relay for turning on and off the AC input, and the relay is opened and closed by the relay control section 143. The main power supply unit 141 is powered by an AC power source, D
This outputs the C power supply voltage to put the entire system into operation.

In addition, 15 is the main CPU, z6 is the main memory,
The above-mentioned RS 232 C interface circuit 11° and sub CPU J 2 are commonly connected to a system path 17 consisting of a plurality of lines for address/data control.

Hereinafter, the operation of the embodiment of the present invention will be explained in detail. First, as in the conventional example shown in FIG. 2, the CI signal of the fiR8232c becomes active due to a call from a remote location. This CI signal is sent to the R8232C interface circuit 11.
sub CPU 1 via signal line 101.
2 is input. Sub CPU7. ? The 5CI signal (line 101
) to generate a power activation signal (line 102).

The power activation signal propagating through line 102 drives a relay control section 143 in power supply 14 to generate an excitation signal for relay 144 , which closes relay 144 and supplies AC input to main power supply section 141 . As a result, the main power supply section 141 is +5V
It generates various DC outputs including , and makes the entire data processing device energized. The above completes the automatic power start-up by remote control.

In the embodiments of the present invention, the activation source is a CI signal, but it is not limited to this. It does not matter if the signal is

[Effects of the Invention] As explained above, according to the present invention, the following effects can be obtained.

(1) Automatic power supply control can be realized at low cost by adding a small amount of hardware to the power supply unit for the entire data processing device.

(2) Since a dedicated APS device is not required, space can be saved.

(3) Since the contents of the local memory program are arbitrary, complex control can be performed.

(4) Various operating modes can be set by rewriting the program in local memory.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a block diagram showing the configuration of a conventional example, and FIG. 3 is a diagram showing the operation timing of the conventional example. 11...R8232C interface circuit, 12...
・Sub CPU, 73...Local memory, 14...
Power supply device, 142... Auxiliary power supply section, 143... Relay control section. Applicant's agent Patent attorney Takehiko Suzue Figure 1

Claims (1)

[Claims] Power supplies that supply power to the system and system energization/
A control circuit that is always set to a energized state regardless of whether it is in a non-energized state, a signal line through which a power start request signal input to the control circuit is propagated, and a power start that is in the control circuit and arrives via the signal line. The system includes means for generating a power start signal in response to a request signal, and switching means in the power supply device for opening and closing an AC input line in response to the power start signal, and for controlling the system in response to a power start request issued from the outside. An automatic power supply control method characterized by starting up the power supply.