JPH0229782Y2 - - Google Patents

Description

[Detailed description of the invention] (A) Technical field of the invention The invention relates to a power cutoff circuit that can stop the power supply when a short circuit occurs on the load side, and can also stop the power supply to the load side when the short circuit condition is released. .

(B) Background of the technology When power is supplied from a power supply unit to electronic equipment, if the potential of the power supply terminal to the electronic equipment becomes the ground level due to a short circuit, etc., in order to protect the power supply unit, the load side It is necessary to stop the power supply to.

A conventional circuit is shown in FIG. When the output terminal T has a predetermined potential (when power is being supplied to the load F from the power supply unit U ₁ via the cutoff circuit U ₂ ), the transistor TR 2 passes through the diode D ₁ and the resistor R ₃ .
Current flows to the base of transistor TR2, which turns on, and as a result, transistor TR1 also turns on. When the power supply line L is short-circuited and the potential of the output terminal T drops, no current flows through the diode _D1 and the resistor _R3 , turning off the transistors TR2 and TR1, cutting off the power supply from the power supply unit _U1 .
The resistor _R1 is for ensuring the base potential of the transistor TR1 when the transistor TR2 is turned off. In the case of this cutoff circuit _U2 , when the power is turned on, both transistors TR1 and TR2 are off, and since a predetermined potential does not appear at the output terminal T, the circuit is not activated. For this reason, a resistor _R4 is added between the emitter and base of the transistor TR1, and current flows through it to the transistor TR2 and the load until the transistor TR1 is turned on. Therefore, it is not possible to use a much higher resistance value for the resistor _R4 than for the load F, so when the power supply line L is short-circuited, the transistor TR
1 is turned off, but has the disadvantage that current continues to flow through resistor _R4 . Another disadvantage is that even when the short circuit is temporarily released, the transistors TR1 and TR2 are turned on and power starts to be supplied from the power supply unit _U1 via the cutoff circuit _U2 .

(D) Purpose of the invention The present invention was developed in consideration of the above points. If a short circuit occurs on the load side, the power supply from the power source is stopped, and even if the short circuit is temporarily resolved, the load side An object of the present invention is to provide a power cutoff circuit that can sustain a stoppage of power supply to a device.

(E) Structure of the invention According to the invention, the purpose is to provide a first transistor whose emitter is connected to the power supply side and whose collector is connected to the load side; the collector receives the base current of the first transistor; a second transistor whose emitter is held at a predetermined potential and whose base is connected to the collector of the first transistor via a constant voltage element; a diode connected in a reverse direction between the collectors of the two transistors; a diode connected between the diode and the predetermined potential, and one pole of which is connected between the diode and the base of the first transistor and the second transistor; and a capacitor connected between the collectors of the capacitor and the other pole of which is held at the predetermined potential.

(F) Embodiments of the invention Examples of the invention will be described in detail below with reference to the drawings.

FIG. 2 is a configuration diagram of an embodiment of the present invention.
Parts equivalent to those in the figure are given the same reference numerals. In FIG. 2, D ₂ is a diode and C is a capacitor.

When the output terminal T has a predetermined potential (when power is being supplied to the load F from the power supply unit U ₁ via the cutoff circuit U' ₂ ), a current flows to the base of the transistor TR 2 through the diode D ₁ and the resistor R ₃ . flows, the transistor TR2 turns on, and as a result, the transistor TR1 also turns on, which is the same as in the conventional circuit, but the operation is different when the power is turned on and when the power supply line L is short-circuited.

When the power is turned on, transistors TR1 and TR2 are both off, and the specified potential does not appear at the output terminal T, so transistor TR2 does not turn on, but the charging current to capacitor C passes through resistor _R2 to the base of transistor TR1. Then, TR1 is turned on, a predetermined potential appears at the output terminal T, transistor TR2 is turned on, and the charge in the capacitor C is discharged through the transistor TR2 which is in the on state.

In steady state, two transistors TR1,
TR2 maintains the on state, and power is supplied from the power supply unit _U1 to the load F via the cutoff circuit _U'2 . By the way, the operation of the cutoff circuit _U'2 when the power supply line L is short-circuited while power is being supplied from the power supply unit _U1 to the load side will be explained.

When the power supply line L is short-circuited and the potential of the output terminal T decreases, current no longer flows through the diode D ₁ and the resistor R ₃ and the transistor TR 2 turns off.
Transistor TR1 is also turned off. Therefore, the power supply from the power supply unit _U1 is cut off.

At this time, transistor TR2 is off, so a charging current flows to capacitor C via resistor _R2 , and capacitor C is sufficiently charged, so even if the short circuit is temporarily released, the transistor
Since the base current of TR1 does not flow, transistor TR1 is not turned on, and power from power supply unit _U1 is not supplied to the load.

When the output of the power supply unit _U1 is turned off, the charge in the capacitor C is discharged to the power supply unit _U1 side via the diode _D2 , so when the output of the power supply unit _U1 is turned on again, the power supply line L
If the short-circuit condition is released, power is supplied from the power supply unit _U1 to the load side by the circuit operation as described above. Note that when the output of power supply unit _U1 is a negative voltage, transistor TR1 is NPN type, transistor TR2 is PNP type, and diode
The polarity of D ₁ and D ₂ may be reversed.

(G) Effect of the invention As described above, the power cutoff circuit according to the invention prevents power from being supplied from the power supply even if a short-circuit condition repeatedly occurs on the load side, and prevents the power supply from malfunctioning. The charge stored in the capacitor C can be quickly discharged.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a conventional power cutoff circuit, and FIG. 2 is a block diagram of an embodiment of the present invention. TR1, TR2: Transistor, _D1 , _D2 : Diode, _R1 to _R4 : Resistor, C: Capacitor.

Claims (1)

[Claims for Utility Model Registration] A first transistor whose emitter is connected to the power supply side, whose collector is connected to the load side, and a resistor is connected between the base and the emitter, and a base current of the first transistor. a second transistor having a collector received by the first transistor, an emitter held at a predetermined potential, and a base connected to the collector of the first transistor via a constant voltage element; Emit ivy and said second
a diode connected between the collectors of the transistor in a direction opposite to the power supply voltage; and a capacitor having one electrode connected to the collector of the second transistor and the other electrode connected to the predetermined potential. A power cutoff circuit characterized by: