JPH05207653A - Power supply interrupter - Google Patents

Abstract

PURPOSE:To provide a power supply interrupter in which circuit elements are protected against breakdown by a constitution wherein other power supply voltages are turned OFF when the interruption of current is detected in any one of power supply voltage lines. CONSTITUTION:When overcurrent is fed from any one of a plurality of power supply voltage lines and a current interrupting means 11 interrupts the current, a current interruption detecting means 12 for that power supply voltage line detects the interruption of current. Upon receiving a signal, a logic means 13 delivers a signal for turning a switching means 14 OFF thus interrupting power supply voltages (VOUT1-VOUTn) of arbitrary lines simultaneously with the power supply voltage line interrupted through the current interrupting means 11. Elements in an analog circuit can be protected against breakdown by a constitution wherein other power supply voltages are interrupted when overcurrent is fed from any one of a plurality of power supply voltages and the power supply voltage is interrupted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply cutoff device for an analog circuit which requires supply of a plurality of power supply voltages, and more particularly, to an overcurrent flowing in any one of the plurality of power supply voltages, so The present invention relates to a power cutoff device capable of preventing destruction of circuit elements of an analog circuit by preventing the power supply voltage of lines other than the power supply voltage line from being simultaneously output when output is stopped.

[0002]

2. Description of the Related Art Generally, in an analog circuit using an integrated circuit such as a linear IC, it may be necessary to supply a plurality of positive and negative power source voltages.

Conventionally, a circuit for supplying a power supply voltage to an analog circuit of this type has an overcurrent in its power supply voltage line for a plurality of power supply voltage inputs, as shown in the basic block diagram of FIG. A current cutoff circuit 1 that cuts off an overcurrent when a current flows is provided corresponding to each power supply voltage line. Therefore, the power supply voltage is not supplied only to the power supply voltage line where the overcurrent flows.

However, in an analog circuit using such an integrated circuit such as a linear IC, when an overcurrent flows through one power supply voltage line and the current stops flowing due to the current cutoff circuit 1, the power supply of the other power supply voltage line. Only the voltage may be applied to the circuit element such as the linear IC, and the circuit element may be destroyed.

[0005]

As described above, in the conventional power supply voltage supply circuit, when an overcurrent flows in one power supply voltage line and the current is cut off, the power supply voltage of the other power supply voltage line is cut off. However, there is a problem that only the circuit element is destroyed and the circuit element of the analog circuit is destroyed.

An object of the present invention is to prevent output of power supply voltages of lines other than the power supply voltage line at the same time when an overcurrent flows in any one of a plurality of power supply voltages and the power supply voltage is no longer output. Therefore, it is another object of the present invention to provide an extremely reliable power interruption device capable of preventing the destruction of the circuit elements of the analog circuit.

[0007]

In order to achieve the above-mentioned object, the power cutoff device of the present invention has a plurality of power supply voltage (V _{IN1 to} V _INn ) lines as shown in the block diagram of FIG. Correspondingly provided current interrupting means (11) for interrupting the overcurrent when the overcurrent flows through the line.
A current interruption detecting means (12) provided corresponding to each current interruption means (11) and detecting that the current is interrupted by the current interruption means (11), and each current interruption detection means (12). ), A logic means (13) for determining whether to supply a power supply voltage to the analog circuit based on an output signal from the analog circuit, and a power supply voltage for the analog circuit based on the determination signal from the logic means (13). And a switching means (14) for turning on / off the output of each of the power supply voltage lines, and when any one of the current interruption detection means (12) of each power supply voltage line detects the interruption of the current, the lines other than the line concerned are detected. Output of the power supply voltage of any line (V _OUT1 ~
V _OUTn ) is turned off. Here, a fuse is used as the current interrupting means (11). A photocoupler is used as the current interruption detection means (12). Further, an analog switch is used as the switching means. Furthermore, in the above-mentioned power cutoff device, display means for displaying that the current cutoff means (11) has cut off overcurrent is added.

[0008]

Therefore, in the power interruption device of the present invention, normally, the current is flowing from the power source to the respective current interruption means (11), and the fact that the current is flowing in that line is the current interruption detection means (12). ), A signal indicating that a current is flowing is output from the current interruption detection means (12) to the logic means (13). Then, the logic means (13) receiving this signal outputs a signal for turning on the switching means (14), and the signal causes the switching means (14) to supply a power supply voltage (V _{IN1 to} V _INn ) are output as they are.

On the other hand, when an overcurrent flows in any one of the plurality of power source voltages and the current stops flowing by the current interrupting means (11), the current interrupts by the current interrupting detecting means (12) of the power supply voltage line. When it is detected that the current has stopped flowing, a signal indicating that the current has been cut off is output from the current cutoff detection means (12) to the logic means (13). The logic means (13) receiving this signal outputs a signal for turning off the switching means (14), and the switching means (14) cuts off the current by the current interruption means (11). At the same time as the power supply voltage line, the power supply voltage (V _OUT1
.About.V _OUTn ) is also prevented from being output.

Thus, when an overcurrent flows through any one of the plurality of power supply voltages and the power supply voltage is no longer output, the power supply voltages of lines other than the power supply voltage line are not output at the same time. It is possible to prevent the destruction of the circuit elements of the analog circuit.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the drawings.

FIG. 2 is a block diagram showing a concrete example of the configuration of the power shutoff device according to the present invention. That is, as shown in FIG. 2, the power cutoff device of the present embodiment includes a fuse 21, which is a current cutoff means, a photocoupler 22 and a resistor 23, which are current cutoff detection means, a logic circuit 24, and a switching means. It is composed of an analog switch 25. In addition, 26 is a logic power supply, 27 is a delay circuit, 2
Reference numerals 8 indicate LEDs, respectively.

The fuses 21 are provided corresponding to a plurality of (two in this example) power supply voltage (+ V _IN , -V _IN ) lines, and when an overcurrent flows through the lines, It is for cutting off the overcurrent. The photocoupler 22 is provided corresponding to each fuse 21, and detects that the current is cut off by the fuse 21.

Further, the resistor 23 is connected to each photocoupler 22.
For limiting the amount of input current and output current to the photocoupler 22. On the other hand, the logic circuit 24 determines whether to supply a power supply voltage to an analog circuit (not shown) based on the output signal from each photocoupler 22.

Further, the analog switch 25 turns on / off the output of the power supply voltage to an analog circuit (not shown) using an integrated circuit such as a linear IC based on the determination signal from the logic circuit 24. That is, when any one of the photocouplers 22 of each power supply voltage line detects the interruption of the current, the power supply voltage outputs (+ V _OUT , -V _OUT ) of all the lines other than the line are turned off. Is. The logic power supply 26 supplies a current flowing to the output side of each photocoupler 22 and the logic circuit 2
The power supply for operation is given to 4. The delay circuit 27 is for delaying power supply fluctuation when the fuse 21 is blown. Further, the LED 28 is for displaying whether or not the fuse 21 is blown. Next, the operation of the power shutoff device of the present embodiment configured as described above will be described using the timing chart diagram shown in FIG.

In FIG. 2, normally, a current flows from the power source to each fuse 21, and a current flows and a voltage is applied. Therefore, a current flows to the input side of the photocoupler 22 and the photocoupler 22 is turned on. Current also flows to the output side. As a result, the input of the logic circuit 24 becomes "low" level, and each input of the logic circuit 24 becomes "low" level, so that the output of the logic circuit 24 becomes "high" level. Therefore, the control input 29 of the analog switch 25 becomes "high" level, the analog switch 25 is turned on, and the power supply voltage is output as it is. Moreover, since all the fuses 21 are not blown, all the LEDs 28 are turned on.

On the other hand, even if any one of the plurality of power source voltages is blown by the overcurrent, the photocoupler 2 does not receive a voltage from the power source voltage line.
No current flows into the input side of the second transistor 2, the photocoupler 22 is turned off, and no current flows into the output side. As a result, the input of the logic circuit 24 on the power supply voltage line with the blown fuse 21 becomes "high" level, and the output of the logic circuit 24 becomes "low" level regardless of the other power supply voltage lines. Therefore, the control input 29 of the analog switch 25 becomes "low" level, and the analog switch 25 is turned off.

Further, the power supply voltage of the line whose current is cut off by the fuse 21 is delayed by the delay circuit 27 to such an extent that the voltage drop until the analog switch 25 is turned off is not so affected, and the delayed signal is delayed. 30 is input to the analog switch 25, and the analog switch 2
It is output (31) as it is until the control signal 29 of 5 becomes the "low" level. Then, when the control signal 29 of the analog switch 25 becomes “low” level and the analog switch 25 is turned off, the analog switch 25 causes the power supply voltage of the line whose current is cut off by the fuse 21 and the power supply of the other lines at the same time. Do not output voltage. A timing chart diagram at this time is shown in FIG. Further, only the LED 28 connected to the power supply voltage line in which the fuse 21 has blown out is turned off to inform which power supply voltage line the fuse 21 has blown.

Even when any one of the plurality of power supply voltages approaches 0 V and becomes a potential at which the photocoupler 22 cannot be turned on, the same operation as when the fuse 21 is blown is performed. In this case, the photo coupler 22
When the voltage returns to a level that can turn on, the power supply voltage is supplied again.

As described above, the power cutoff device of this embodiment has a plurality of (two in this embodiment) power supply voltages (+ V _IN , −).
(V _IN ), each of which is provided corresponding to each line, and has a fuse 21 for interrupting the overcurrent when an overcurrent flows through the line, and a fuse 21 provided corresponding to each fuse 21. A linear I based on an output signal from each photocoupler 22 and a photocoupler 22 for detecting that the photocoupler 22 has been cut off, a resistor 23 for limiting the amount of input current and output current to the photocoupler 22, and an output signal from each photocoupler 22.
A logic circuit 24 that determines whether or not to supply a power supply voltage to an analog circuit using an integrated circuit such as C, and based on a determination signal from the logic circuit 24, turns on the output of the power supply voltage to the analog circuit. Photoswitch 2 for each power supply voltage line
When the current interruption is detected in any one of the two, the outputs (+ V _OUT , -V _OUT ) of the power supply voltage of all lines other than the relevant line are turned off.

Therefore, in an analog circuit using an integrated circuit such as a linear IC connected to the present power cutoff device, even if the fuse 21 is blown by an overcurrent flowing in one power supply voltage line,
Since the power supply voltage is not supplied at the same time to both power supplies without becoming a single power supply, it is possible to reliably prevent destruction of circuit elements such as a linear IC.

Further, when either one of the power supply voltages approaches 0 V and reaches a certain potential, both power supply voltages are not supplied at the same time, and it is possible to prevent malfunction. In addition, the LED indicates which fuse 21 has blown.
Since it can be determined by 28, maintenance is extremely easy. The present invention is not limited to the above embodiment, but can be implemented in the same manner as described below.

(A) In the above embodiment, the case where the LED 28 is provided as the display means for indicating whether or not the fuse 21 which is the current interruption means has been described, but this is not an essential element of the present invention. .. (B) In the above embodiment, the case where the fuse is provided as the current interrupting means has been described, but the present invention is not limited to this. (C) In the above embodiment, the case where the photo-coupler is provided as the current interruption detecting means has been described, but the present invention is not limited to this. (D) In the above embodiment, the case where the analog switch is provided as the switching means has been described, but the present invention is not limited to this.

(E) In the above embodiment, the case where the present invention is applied to an analog circuit which needs to be supplied with two power source voltages has been described, but the present invention is not limited to this, and three or more circuits are provided. The present invention can be similarly applied to an analog circuit that needs to be supplied with a plurality of power supply voltages.

[0025]

As described above, according to the present invention, the current cutoff means is provided corresponding to each of a plurality of power supply voltage lines, and cuts off the overcurrent when the overcurrent flows through the line. , The current interruption detecting means provided corresponding to each of the current interruption means and detecting the interruption of the current by the current interruption means, and the analog circuit based on the output signal from each current interruption detection means. And a switching means for turning on / off the output of the power supply voltage to the analog circuit based on the determination signal from the logic means. When any one of the line current interruption detecting means detects the interruption of the current, the output of the power supply voltage of any line other than the line is turned off. If an overcurrent flows in any one of the power supply voltages and the power supply voltage is no longer output, the power supply voltage of lines other than the power supply voltage line is not output at the same time, preventing the circuit elements of the analog circuit from being destroyed. It is possible to provide an extremely reliable power cutoff device capable of performing the above.

[Brief description of drawings]

FIG. 1 is a block diagram showing a basic configuration example of a power shutoff device according to the present invention.

FIG. 2 is a block diagram showing an embodiment of a power cutoff device according to the present invention.

FIG. 3 is a timing chart diagram for explaining an operation in the embodiment.

FIG. 4 is a block diagram showing a basic configuration example of a conventional power supply circuit.

[Explanation of symbols]

11 ... Current interruption means, 12 ... Current interruption detection means, 13 ...
Logic means, 14 ... switching means, 21 ... fuse,
22 ... Photo coupler, 23 ... Resistor, 24 ... Logic circuit, 2
5 ... Analog switch, 26 ... Logic power supply, 27 ... Delay circuit, 28 ... LED.

Claims (5)

[Claims] 1. A power cutoff device for an analog circuit, which requires supply of a plurality of power supply voltages, wherein the power supply cutoff devices are provided corresponding to the respective power supply voltage lines, respectively.
A current interruption means for interrupting the overcurrent when an overcurrent flows through the line, and a current interruption means provided for each of the current interruption means and detecting that the current is interrupted by the current interruption means. Detecting means, based on the output signal from each of the current interruption detecting means, logic means for determining whether to supply a power supply voltage to the analog circuit, based on the determination signal from the logic means, Switching means for turning on / off the output of the power supply voltage to the analog circuit, and when any one of the current cutoff detection means of each of the power supply voltage lines detects the cutoff of the current, the lines other than the line concerned are detected. The power cutoff device is characterized in that the output of the power supply voltage of any line is turned off. 2. The power cutoff device according to claim 1, wherein a fuse is used as the current cutoff means. 3. The power cutoff device according to claim 1, wherein a photocoupler is used as the current cutoff detection means. 4. The power interruption device according to claim 1, wherein an analog switch is used as the switching means. 5. The power shutoff device according to claim 1,
A power cutoff device further comprising display means for indicating that the current cutoff means has cut off an overcurrent.