JPH0545079Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a power supply circuit that reduces the power consumption of a display means for indicating that a main circuit is in operation and extends the life of a power supply.

(Prior Art) A conventional power supply circuit will be described below with reference to FIG. 2, which is a circuit diagram thereof.

1 is the battery that serves as a power source, 2 is the output terminal, 3 is the main circuit connected to the output terminal 2, D ₁ is the battery 1
_D2 is a Zener diode, _Q3 is an NPN transistor, and _R4 and _R5 are resistors.

In this power supply circuit, when a power switch (not shown) of the main circuit 3 is turned on, a power supply voltage V ₁ is supplied from the battery 1 to the light emitting diode D ₁ and the main circuit 3 . The power supply voltage V ₁ must be higher than the minimum voltage V _D2 + V _BE (V _D2 : Zener voltage of Zener diode D ₂ , V _BE : base-emitter voltage of transistor Q ₃ ) to maintain stable operation of main circuit 3. For example, light emitting diode D ₁ lights up and main circuit 3
indicates that the device is in stable operating condition.

On the other hand, if the power supply voltage V ₁ is lower than the minimum voltage V _D2 +V _BE , the light emitting diode D ₁ is turned off, indicating that the main circuit 3 is not in an operating state.

Here, the total current I ₂ supplied from the battery 1 is: I ₂ = I _D1 + I _D2 + I ₃ ≒ I _D1 + I ₃ ... (I _D1 : Current flowing through the light emitting diode D ₁ , I _D2 :
The current flowing through the Zener diode _D2 , _I3 : the current flowing through the main circuit 3). This is because I _D2 ≪ I _D1 + I ₃ .

(Problems to be solved by the invention) In the conventional power supply circuit described above, the light emitting diode _D1 , which is the display means, and the main circuit 3 are connected in parallel, so a large amount of current flows, and the battery 1, which is the power supply, is connected in parallel. It had a short lifespan.

(Means for Solving the Problems) Therefore, in order to solve the above problems, the present invention is a power supply circuit that indicates that the main circuit connected to the output terminal is operating. A power supply whose voltage decreases over time, a display means connected in series between the power supply and the output terminal, a transistor connected in parallel to the display means, and a transistor whose voltage decreases with the passage of time, with the Zener voltage of the Zener diode as a reference. The present invention provides a power supply circuit characterized by comprising a control means which, when turned on, reduces impedance across the display means as the voltage of the power supply decreases.

(Embodiment) A power supply circuit according to the present invention will be described below with reference to FIG. 1, which is a circuit diagram showing one embodiment thereof. In addition,
The same parts as in the conventional example are given the same reference numerals, and detailed explanations of those parts will be omitted.

As shown in FIG. 1, in the power supply circuit of this embodiment, a light emitting diode _D1 is connected in series between a battery 1 serving as a power source and an output terminal 2. The emitter of PNP transistor Q ₁ is connected to the anode of this light emitting diode D ₁ , and the transistor is connected to the cathode.
Q ₁ collector is connected. transistor
The emitter of Q ₁ is connected to the base of its transistor Q ₁ via a resistor R ₁ .

Further, the base of the transistor _Q1 is connected to the collector of an NPN transistor _Q2 whose emitter is grounded via a resistor _R2 . Furthermore, the transistor
The base of Q ₂ is an NPN transistor with a grounded emitter.
Connected to Q ₃ collector.

The base of this transistor Q ₃ is connected to the cathode of the light-emitting diode D ₁ through the Zener diode D ₂ , and the collector is connected to the light-emitting diode through the resistor R ₃ .
each connected to the anode of D ₁ .

The above transistors Q ₁ to Q ₃ and resistors R ₁ to _{R 3}
constitutes a control circuit that adjusts the impedance at both ends of the light emitting diode _D1 .

Next, the circuit operation of this embodiment will be explained.
In the power supply circuit of this embodiment, the light emitting diode D ₁ and the main circuit 3 are connected in series, so as the power supply voltage V ₁ decreases, the impedance at both ends of the light emitting diode D ₁ is adjusted by the control circuit. By lowering the voltage, the voltage supplied to the main circuit 3 can be maintained at a predetermined value or higher for a longer period of time. This will be explained in detail below.

The voltage V ₃ supplied to the main circuit 3 can be expressed as V ₃ =V ₁ −V _D1 .

(1) When the power supply voltage V ₁ is V ₁ > V _D2 + V _BE , transistor Q ₃ is turned on, and transistors Q ₁ ,
Q ₂ is off. Therefore, the resistance in the control circuit connected to both ends of the light emitting diode D ₁ becomes infinite, and all of the current I ₁ supplied from the battery 1 is supplied to the main circuit 3 via the light emitting diode D ₁ .

(2) When the power supply voltage V ₁ is V ₁ < V _D2 + V _BE , transistor Q ₃ is turned off, and transistors Q ₁ ,
Q ₂ turns on. Therefore, the impedance across the light emitting diode D ₁ decreases, and current is supplied to the main circuit 3 via the light emitting diode D ₁ and the transistor Q ₁ . At this time, the current flowing through the light emitting diode _D1 is reduced compared to the case (1). However, even if the power supply voltage V ₁ falls below the voltage V _D2 +V _BE that allows the main circuit 3 to operate stably, the transistor Q ₁ remains inactive until the voltage V _D1 applied across the light emitting diode D ₁ reaches 0v. Since current can be continuously supplied, the voltage supplied to main circuit 3
V ₃ is kept at V _D2 +V _BE .

Therefore, the stable operation time of the main circuit 3 increases,
The light emitting diode _D1 always turns off before the main circuit 3 becomes unstable, indicating that the battery 1 is exhausted.

Here, the current I ₁ supplied from the battery 1 when V ₁ >V _D2 +V _BE will be explained. In this embodiment, the current I ₁ is I ₁ =I _D1 =I ₃ . From the formula, I ₂ = I _D1 + I ₃ , so I ₁ < I ₂ , and the current can be reduced compared to the conventional example.

Furthermore, in order to set the current _I3 flowing through the main circuit ₃ to be larger than the current ID1 flowing through the light emitting diode _D1 , a shunt resistor may be connected in parallel with the light emitting diode _D1 . At this _time , the current I ₁ becomes I ₁ =I _D2 +I ₃ ≒I ₃ because I D2 ≪I ₃ , and from the equation, I ₁ <I ₂ .

On the other hand, if it is desired to make the current I _D1 larger than the current I ₃ , a shunt resistor may be connected in parallel with the main circuit 3. At this time, the current I ₁ becomes I ₁ =I _D1 + _{I D2} ≒I _D1 because I D2 <<I _D1 , and from the equation, I ₁ <I ₂ .

Therefore, in any case, the power supply circuit according to the present invention can reduce the current supplied from the battery 1 compared to the conventional example, and can extend the life of the battery 1.

(Effect of the invention) As described above, the power supply circuit according to the invention can reduce the impedance at both ends of the display means connected in series with the main circuit as the power supply voltage decreases. Even if the voltage drops, stable voltage can be supplied to the main circuits for a longer period of time.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the power supply circuit according to the present invention, and FIG. 2 is a circuit diagram of a conventional power supply circuit. 1... Battery, 2... Output terminal, 3... Main circuit, D ₁ ... Light emitting diode, D ₂ ... Zener diode, Q ₁ ... PNP transistor, Q ₂ , Q ₃ ...
...NPN transistor, R ₁ to R ₃ ...resistance.

Claims (1)

[Scope of utility model registration request] A power supply circuit that indicates that the main circuit connected to the output terminal is in operation, and is connected in series between a power supply whose voltage decreases over time and the output terminal. display means;
control means for reducing the impedance across the display means as the voltage of the power supply decreases by connecting a transistor in parallel with the display means and turning on the transistor based on the Zener voltage of the Zener diode; A power supply circuit characterized by: