KR910002765Y1 - Power circuit - Google Patents

Abstract

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Description

Constant voltage circuit

1 is a conventional constant voltage circuit diagram.

2 is a constant voltage circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

TR ₁ -TR ₄ , Q ₁ , Q ₂ : Transistor ZD: Zener Diode

LD: light emitting diode R ₁ -R ₁₂ : resistance

D ₁ : Diode C ₁ : Capacitor

Va: Input power i ₁ , i ₂ : Current

The present invention relates to a constant voltage and a constant current supply circuit, and when supplying power with a constant voltage to the load from the power supply, the constant current from the power supply to the set value is supplied to the load, and when the current is higher than the set value The main focus is on the power off to protect the main power circuit.

Conventional constant voltage circuit hayeoseo to switch the transistor (TR ₂₎ as a first control signal (ct), such as help, and connect the transistor transistor (TR ₁₎ to cut off power (Va) by (TR ₂₎ Switching transistors TR ₃ and TR ₄ and resistors R ₆ and R ₇ are connected to the output of the transistor TR ₁ , and a zener diode DZ is connected to the output side to supply a constant voltage to the load Lo. The current i flowing in the resistor (R ₅ ) is (V _BE is the voltage between the base _emitters of TR ₄ ). In this case, it is difficult to supply a constant current to the load side because the temperature characteristics due to V _BE are displayed on the output i.

In addition, there was a problem that the output voltage becomes unstable when the instantaneous current at the load is required.

Therefore, in order to solve the conventional problems as described above, by connecting the light emitting diode in parallel with the transistor, the effect of the temperature of the light emitting diode forward voltage cancels the temperature change of the transistor, thereby preventing the current change according to the temperature change. The purpose is to enable the set voltage and current supply.

When described according to the accompanying drawings as follows.

As the second tile, a control signal (ct) and a switching transistor (TR _2), and a transistor (TR ₂₎ turned on, is turned off transistor as (TR ₁₎ so as to supply and cut off the power supply (Va) by At the output of the transistor TR ₁ , a resistor R ₁ and a transistor Q ₁ are connected to the base of the transistor Q ₂ , and a bladder diode LD ₂ is connected, and the resistor R _{1 is} connected. The light emitting diode LD _{2 is} connected in parallel to the base of the transistor Q ₁ via the light emitting diode LD ₁ , and the transistor Q ₂ is connected to the resistor R ₂ .

A load Lo may be connected to this output by connecting a zener diode (ZD) and a capacitor (C ₁ ) through a diode (D ₁ ) at a terminal point connecting the light emitting diode (LD ₂ ) and a resistor (R ₂ ). Configure the constant current circuit so that

Referring to the operation and effect of the present invention composed of such a circuit is as follows.

When the control signal (ct) is high to become the transistor (TR ₁₎ is conducting a transistor (TR ₁₎ on supply (Va) is input to the constant current circuit (a).

At this time, current i ₂ flows through the collector emitter of the light emitting diode LD ₁ and the transistor Q ₂ and the resistor R ₁₂ , the emitter collector and the light emitting diode LD of the resistor R ₁ and the transistor Q ₁ . ₂ ) current i ₁ flows.

If the forward voltage drop of the light emitting diode LD ₁ is V _f , Since i is i = i ₁ + i ₂ = When a constant current is formed and there is no load resistance, a constant voltage is formed by the zener diode (ZD) to form a constant voltage and a constant current.

When the load current i ₁ flows by connecting a resistor to the load Lo, when the load current i ₁ is smaller than the output current i, it flows to the i _L -i separate Zener diode (ZD).

In addition, when the load current i _L is greater than the output current i, the voltage drops drastically and no current more than the current i flows, thereby operating as a current limiting circuit.

Therefore, the output current i always flows a constant current, and when the instantaneous spark current is needed on the load (Lo) side, the charge charged in the capacitor (C ₁ ) is output so that the spark current of the load is stably allowed (ie, the capacitor). The current in the C ₁ ) is supplied, and the diode D ₁ is connected for the reverse prevention to prevent the current charged in the capacitor from flowing in when the current limiting circuit is operated.

In addition, when the temperature function of the inter-meter voltage V _BE at the base of the transistors Q ₁ and Q ₂ is changed by V _BE + ΔV, the light emitting diodes LD ₁ and LD ₂ also have a voltage V _f and the voltage V _BE. Will rise at the same rate. If you look at it like this, Since the current change according to the temperature change is canceled, the constant current i irrespective of the temperature change can be supplied to the load Lo side.

As such, the present invention is useful because it is possible to supply a stable current to the load side at all times by making a constant voltage circuit which is not affected by temperature change, thereby preventing the damage of the load to the maximum.

Claims (2)

The transistors TRI and TR2 are switched as the control signal ct to supply the power supply Va, and the power supply Va is used to output a constant power supply, so that a resistance is output at the output of the power supply Va. (R ₁₁₎ and the transistor (Q ₁₎ and the light emitting diode and flows (LD ₂₎ a through current i _1, a light emitting diode (LD ₁₎ and the transistor (Q ₂₎ and a resistor (R ₁₂₎ to flow a current i ₂ And a reverse direction diode (D ₁ ), a zener diode (ZD) for constant voltage generation, and a capacitor (C ₁ ) for spark current charging. The constant voltage circuit according to claim 1, wherein a light emitting diode (LD ₁ ) and a transistor (Q ₂ ) are connected in parallel to the transistor (Q ₁ ) and the light emitting diode (LD ₂ ) in order to cancel the temperature change.