KR920008986Y1 - Strobo control circuit for a camera - Google Patents

Abstract

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Description

Camera strobe oscillation control circuit

1 is a strobe oscillation control circuit diagram showing an embodiment of the present invention.

2 is a conventional strobe oscillation control circuit diagram.

* Explanation of symbols for main parts of the drawings

1 battery 2 switching unit

3: high voltage oscillator 4: rectifier

5: trigger unit 6: flash signal generator

7: high voltage charger 8: oscillation control unit

NE: Indicator lamp XE: Flash lamp

The present invention relates to a strobe oscillation control circuit of a camera, and more particularly, to a strobe oscillation control circuit of a camera which stops the strobe oscillation with a single charge when the user does not shoot a camera using an auto flash. It is about.

2 shows a conventional strobe oscillation control circuit diagram, in which 1 denotes a battery.

The positive terminal of the battery 1 is connected to the switching unit 2 via a power switch SW ₁ . The collector of the switching unit (2) is the power switch (SW _1), a resistance (R _2), the diode (D ₁₎ cathode and a transistor (Q ₂₎ being connected to the base, the transistor (Q ₂₎ of the connected to the transistor Is connected to the base of Q ₄ , and the emitter of transistor Q ₂ is connected to the emitter of transistor Q ₃ .

The collector of the transistor (Q ₃₎ is connected to the coil (L ₁₎ of one side is grounded, and the base of the transistor (Q ₃₎ is connected to the collector of the transistor (Q _4), emitter emitter of the transistor (Q ₄₎ anode The wood is connected to the cathode of the grounded zener diode (ZD ₁ ).

The output terminal of the switching unit 2 is connected to the high voltage oscillator 3, and the high voltage oscillator 3 is connected to the trigger unit 5, the display lamp NE, the flash lamp XE and the high voltage charger through the rectifier 4. 7), the trigger unit 5 is connected to the fresh signal generator 6.

The trigger unit ₅ is connected to the primary side of the trigger transformer T ₂ through the resistors R ₅ and R ₆ connected to the cathode of the diode D ₂ of the rectifier 4 and the capacitor C ₂ . The secondary side of the trigger transformer T ₂ is connected to the trigger terminal of the flash lamp XE.

In addition, the fresh signal generator 6 has the common contact between the capacitor C ₂ and the resistor R ₅ connected to the anode terminal of the rectifier control element SCR, and the gate terminal of the rectifier control element SCR. Is connected to a capacitor (C ₃ ) and a resistor (R ₃ ) connected in parallel through a resistor (R ₇ ).

The effects of the strobe oscillation control circuit configured as described above will be described.

First, when the power switch SW ₁ is turned on, a DC voltage is supplied from the battery 1 to the switching unit 2 so that transistor Q ₂ is turned on, transistor Q ₂ is turned on, and transistor Q ₄ is also turned on. Therefore, a voltage is applied to the high voltage oscillator 3 through the transistor Q ₃ .

The voltage applied to the high voltage oscillator 3 is applied to the primary side of the transformer T ₁ and induced to a high voltage on the secondary side.

This high voltage is charged through the rectifier 4 to the high voltage charger 7 for operating the flash lamp XE.

In addition, the high voltage through the rectifier 4 is charged to the trigger capacitor C ₂ .

When a trigger input signal is applied to the gate terminal of the rectifying control element SCR of the fresh signal oscillation unit 6, the rectifying control element SCR is energized so that the voltage charged in the trigger capacitor C ₂ is rectified control element SCR. As it is discharged through, a trigger signal is generated and applied to the trigger terminal of the flash lamp XE.

Since the trigger signal is applied to the flash lamp XE and the flash lamp XE is energized, electrical energy charged in the high voltage charger 7 discharges the flash light while being discharged to the beach energy through the flash lamp XE.

When the voltage charged in the above-described high-voltage charger (7) is above a predetermined voltage, the indicator lamp (NE) is lit, since the high voltage is applied to the base of the transistor (Q ₂₎ transistors (Q ₂₎ that is turned off, the transistor (Q ₂ ) Is turned off to cut off the switching section 2, and the switching section 2 is cut off to start oscillation.

However, when a certain time elapses after the oscillation stops, the display lamp NE itself is discharged through the resistor R ₉ , and when the display lamp NE is turned off, the transistor Q ₂ is operated again to oscillate.

If the camera user keeps the power switch (SW ₁ ) on without taking a picture, the camera will be disturbed by the discharge of the display lamp (NE), and the transformer (T ₁ ) will be boosted and oscillated. As a result, the battery 1 continues to be used.

The present invention has been made to solve the problems of the prior art as described above, the user does not use the camera in the phenomenon that the battery is consumed in the order of oscillation → charging → discharge → oscillation of the strobe even when the camera user does not shoot. It is an object of the present invention to provide an oscillation control circuit of a strobe of a camera which stops oscillation of the strobe with a single charge to prevent battery consumption.

In order to achieve the above object, the present invention provides a high voltage charger for charging a voltage supplied from the high voltage oscillator through a high voltage oscillator and a rectifier through which a voltage supplied from a battery is supplied by a power switch through a switching unit; A trigger unit receiving the high voltage rectified from the rectifier, a flash signal generator operating by a trigger input signal, and converting and discharging the battery energy supplied from the high voltage charger into light energy by the operation of the trigger unit. In a strobe oscillation circuit having a flash lamp, a switch is connected to the power switch, and the other end of the switching is connected to the base of the transistor to which the emitter is grounded, and the collector of the transistor is grounded through a capacitor and through a resistor. The oscillation control unit connected to the switching unit Provided is a strobe oscillation control circuit of a camera configured to be connected between switching units.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 shows a strobe oscillation control circuit showing an embodiment of the present invention.

The switch SW ₂ connected to the power switch SW ₁ at the base of the transistor Q _{1 in} which the emitter is grounded between the battery 1 and the switching unit 2 of the conventional strobe oscillation control circuit shown in FIG. 2. ), The collector of transistor Q ₁ is connected to switching unit 2 via resistor R ₁ , and at the same time comprises an oscillation control unit 8 grounded through capacitor C ₁ .

It will be described in detail the effect of the present invention having such a configuration.

When a power switch (SW ₁₎ on via a resistor (R ₂₎ of the resistor (R ₁₎ and the switching part (2) of the oscillation control unit 8 and the charge in the capacitor (C _1), wherein the transistor (Q ₂₎ Is turned on, and the transistor Q ₄ is also turned on. When the transistor Q ₄ is turned on, the transistor Q ₃ is turned on to apply a voltage to the primary side of the transformer T ₁ of the high voltage oscillator 3.

At this time, the voltage multiplied on the secondary side of the trigger transformer T ₂ of the trigger unit 5 is output, the high voltage charger 7 is charged, and after a predetermined time has elapsed, the voltage charged in the high voltage charger 7. Since the display lamp NE is turned on and voltage is generated at the display lamp NE due to the lighting of the display lamp NE, the voltage at the terminal A side of the display lamp NE causes the diode D ₁ to be turned on. Turn transistor Q ₂ off.

A capacitor (C _4), the said resistance (R _1, R ₂₎ and capacitor (C ₄₎ voltage resistance of the predetermined time elapses by the indicator lamp (NE) to complete the filling after by a time constant (R ₉₎ of Since the capacitor C ₄ is charged even when discharging through the transistor Q ₂ , the transistor Q ₂ remains in the off state.

In this way, even when the user does not use the flash of the camera for a certain time, there is no battery consumption. However, the leakage current of the capacitor C ₄ is extremely fine and can be ignored.

Here, the leakage current is about the capacitance X 0.1 of the resistors R ₁ and R ₂ X condenser C ₄ .

As described above, according to the present invention, when the camera is not used, there is almost no battery consumption, and when the power switch (lens cap switch) is stored without being turned off due to a user's mistake, the strobe oscillation → charge → The battery can be prevented from being discharged to oscillated in order to supply more stable power to the camera, and to improve consumer reliability.

Claims (1)

The voltage supplied from the battery 1 by the power switch SW ₁ is supplied from the high voltage oscillator 3 supplied through the switching unit 2 and the high voltage oscillator 3 supplied through the rectifier 4. A high voltage charger 7 for charging a voltage, a trigger unit 5 supplied with the high voltage rectified from the rectifier 4, a fresh signal generator 6 operating by a trigger input signal, and the trigger unit In the strobe oscillation circuit having a flash lamp (XE) for converting and discharging the battery energy supplied from the high voltage charger (7) to light energy by the operation of (5), the switch (SW ₁ ) is the power switch ( is connected to the SW _1), switching (the other end of the SW ₂₎ is and connected to the base of an emitter grounded transistor (Q _1), the collector of the transistor (Q ₁₎ is as soon ground through a capacitor (C ₁₎ at the same time resistance Oscillation configured to be connected to the switching unit 2 via (R ₁ ) A strobe oscillation control circuit of a camera, characterized in that the control unit (8) is connected between the battery (1) and the switching unit (2).