JPH0277921A - Overcurrent preventing circuit - Google Patents

Abstract

PURPOSE:To attain the working of a system in a power supply application state in case the factors of the overcurrent can be eliminated by preventing the flow of the overcurrent to a data input/output device and detecting the make and break states of the power supply at occurrence of the overcurrent. CONSTITUTION:The overcurrent higher than a prescribed level is supplied to a data input/output device while the power is supplied to this device from a data processor via a power supply division supply line 20. In such a case, a relay forming an overcurrent detecting circuit 12 is turned on and an overcurrent detecting signal of an L level is inputted to a reset terminal R of a DFF 18. Thus the DFF 18 is reset. As a result, a signal of an L level is inputted to the gate of a MOS FET of a power supply make/break part 10 from an output terminal Q of the DFF 18 as a power supply make/break control signal. Thus the part 10 is cut off and therefore the power supply is cut to the data input/ output device.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an overcurrent prevention circuit for a device that divides and supplies power from a data processing device to data input/output equipment.

[Conventional technology]

In conventional overcurrent prevention circuits of this type, a fuse is provided in the power supply division supply line from the data processing device to the data input/output equipment as an overcurrent prevention means, and when an overcurrent flows through the power supply division supply line, a fuse is installed. This prevents data input/output equipment from burning out due to the fuse blowing out.

[Problem to be solved by the invention]

As mentioned above, in the overcurrent prevention circuit installed in the power supply division line between the data processing device and the data input/output equipment, data input/output is interrupted by the fuse blowing when an overcurrent flows through the power supply line. This prevents excessive current from flowing through the equipment, so if a fuse blows, it must be replaced.

Therefore, in the event that an overcurrent flows through the power supply division supply line due to a failure or mishandling of data input/output equipment, repair work is required and cannot be completed even though the root cause can be immediately removed. There was a problem in that the data input/output device could not be used until the process was completed.

The present invention was made in view of these circumstances, and
The purpose of this invention is to provide an overcurrent prevention circuit that allows the system to continue operating immediately while the power to the data processing device is turned on if the root cause of overcurrent occurrence can be immediately removed. It is something to do.

[Means to solve the problem]

In order to achieve the above-mentioned object, the present invention provides a device that divides and supplies power from a data processing device to data input/output devices. a power on/off means for turning on or cutting off the data; an overcurrent detection means for detecting an overcurrent state when the amount of current supplied to the data input/output device exceeds a predetermined value; The present invention is characterized by having a power supply control means that controls the operation of the power supply/cutoff means based on the detection output or external human power, and recognizes whether the data input/output device is powered on or cut off.

According to the present invention, when an overcurrent occurs in the power supply line, it is possible to prevent the overcurrent from flowing to the data input/output device, and to recognize whether the power is turned on or off to the data input/output device. In other words, since it is equipped with a detection function, by creating a program that uses this detection function, if an abnormality is detected during the operation of data input/output equipment due to overcurrent, it will notify the operator of this fact. be able to.

In addition, overcurrent can be cut off by an electronically controlled switch (so if the root cause is simple and can be removed immediately, the system can continue operating immediately after the cause is removed). .

〔Example〕

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

FIG. 1 shows the configuration of an embodiment of an overcurrent prevention circuit according to the present invention. In the figure, the overcurrent prevention circuit includes a power on/off circuit 110 provided in the middle of a power supply division supply line 20 connected between a data processing device and data input/output equipment, an overcurrent detection circuit 12, and an overcurrent detection circuit. circuit 1
2 or a power supply control section 14 that controls the operation of the power on/off section 10 based on external human power and detects the operating state of the power on/off section.

The power supply/cutoff section 10 is composed of a MOS FET, and its drain 10a is connected to the power supply in the data processing device.
The source 10b is connected to a data input/output device via an overcurrent detection circuit 12, and the source 10c is connected to a power supply control unit 14.
are connected to each other.

The overcurrent detection circuit 12 is a relay that is turned on when an overcurrent flows through the power supply division supply line 20, and the excitation coil 1
2a and a contact 12b.

The power supply control section 14 includes a 3-state gate 16 and a D
It consists of a type flip-flop 18 and a pull-up resistor 21. A power on/off state sense command is input from the terminal 102 to the control terminal of the 3-state gate 16, and as a result, the power on/off section 100 is turned on or off, in other words, the data input/output device is turned on or off. A blockage condition can be detected.

An input signal from the outside via the terminal 101 or a signal from the 3-state gate 16 is input to the data input terminal of the D-type flip-flop 18. ing. Further, the power output control command is sent to the terminal CP of the D-type flip-flop 18 via the terminal 103, the reset signal is sent to the set terminal S via the terminal 104, and the overcurrent detection circuit 12 is sent to the reset terminal R. Detection signals are respectively input. The output terminal Q of the D-type flip-flop 18 is connected to the gate of a MOS FET constituting the power on/off section 1-0.

In the above configuration, when power is turned on from the data processing device to the data input/output device, the D type flip-flop 1
A high-level signal is input from the outside (data processing device) to the data input terminal 8 via the terminal 101, and a pulse signal of the power output control command is input to the terminal CP from the terminal 103. As a result, the output terminal Since the output of Q (power on/off control signal) is at a high level, the MoS FET of the power on/off section 10 is turned on, and power is supplied to the data input/output device from the radio wave input terminal 100 through the radio wave output terminal 110. Supplied.

When an overcurrent of more than a predetermined value is supplied to the data input/output device while power is being supplied from the data processing device to the data input/output device via the power supply division supply line 20, the overcurrent detection circuit 12 is configured. The relay is turned on, and a low-level overcurrent detection signal is input to the reset terminal R of the D-type flip-flop (hereinafter simply referred to as flip-flop) 18, so that the flip-flop 18 is reset. As a result, a low level signal is input from the output terminal Q of the flip-flop 18 as a power on/off control signal to the gate of the MoS FET in the power on/off section 10, and the power on/off section 10 enters the cutoff state. , the power supply to the data input/output equipment is cut off.

In order to turn on the power to the data input/output device again in this state, a high level signal is input as an external input from the data processing device side to the data input terminal of the flip 70 knob 18 in the power supply control section 14 via the terminal 101. At the same time, a pulse signal of a power output control command may be supplied to the terminal CP of the flip-flop 18.

Furthermore, the 3-state gate (16) in the power supply control section 14
By inputting a low level signal as a power on/off state sense command from the terminal 102 to the control terminal of the power on/off section 10, the on/off state of the power on/off section 10, in other words, the power on state is controlled via the 3-state gate. Alternatively, a signal indicating the cut-off state can be extracted. That is, if the data input/output is powered on, a high level signal appears, and if it is cut off, a low level signal appears.

〔Effect of the invention〕

As explained above, in the present invention, an electronically controllable switch is used to prevent overcurrent from being supplied to the data input/output device, and the switch is used to prevent overcurrent from being supplied to the data input/output device. According to the present invention, by creating a program using the detection function, if an abnormality is detected due to overcurrent during operation of data input/output equipment, it will be possible to detect the abnormality. can be notified to the operator. Furthermore, if the root cause of the overcurrent is simple and can be removed immediately, it is possible to continue operating the system immediately after removing the cause.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit diagram showing the configuration of an embodiment of an overcurrent prevention circuit according to the present invention. 10...Power on/off unit, 12...Overcurrent detection circuit, 14...Power control unit, 16...
・3-state gate, 18...D type flip-flop. Applicant NEC Corporation Shizuoka NEC Corporation Agent

Claims (1)

[Scope of Claims] In a device that supplies power to the data processing device in a divided manner from the data processing device to the data input/output device, the power is turned on or off from the data processing device side to the data input/output device. A power supply on/off means, an overcurrent detection means that detects an overcurrent state when the amount of current supplied to the data input/output device exceeds a predetermined value, and a detection output or external input of the overcurrent detection means. What is claimed is: 1. An overcurrent prevention circuit comprising: a power supply control means for controlling the operation of a power supply/cutoff means based on the power input/output device, and for recognizing whether a data input/output device is powered on or cut off.