JP2629182B2 - Strobe device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a strobe device for a camera which is built in or externally connected to a camera.

(Prior Art) In a camera strobe device, a first voltage detection level different from the first voltage detection level is set in order to detect a voltage of a main capacitor in which electric charges for causing a flash tube to emit light are stored.
And a second charging voltage detecting means. The first charging voltage detecting means detects, when a voltage capable of emitting light (first voltage) required for light emission of the strobe tube is generated in the main capacitor, and outputs a charging completion signal. When not output,
Release of the camera is prohibited, and / or an uncharged warning is issued. The second charging voltage detecting means outputs a main capacitor charging stop signal when the charging voltage of the main capacitor exceeds an upper limit charging voltage (second voltage) which is higher than the light emission enabling voltage (first voltage). The oscillation of the oscillation circuit for charging the main capacitor is stopped by the charge stop signal, and as a result, the charging of the main capacitor is stopped.

[Problems to be solved by the invention]

In the prior art as described above, when the main capacitor is charged to a voltage equal to or higher than the first voltage, the strobe tube can emit light due to oscillation noise of the oscillation circuit of the strobe circuit. The charge completion signal of the first charge voltage detection means as the first charge voltage detection means is erroneously recognized to determine that the main capacitor is not charged, or the charge completion signal by the first charge voltage detection means is a strobe oscillation. In the circuit configuration that can be obtained only when the circuit is in the oscillation state, when the charge is stopped inadvertently by the charge stop signal of the main capacitor, the charge completion signal is not obtained, and therefore, the uncharged signal is output. This means that even if the charging voltage is sufficient for flash photography, camera release prohibition and warnings are mistakenly performed. There was.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a strobe device that outputs a charge completion signal when a main condenser is in a state capable of emitting light from a strobe tube.

(Means for Solving the Problems) The present invention solves the above problems by the following means.

A main capacitor, an oscillating circuit for charging the main capacitor, release prohibiting means, and first charging voltage detecting means for outputting a charge completion signal when a terminal voltage of the main capacitor becomes a first voltage necessary for light emission of the arc tube. Release prohibition releasing means for releasing release prohibition by the release prohibiting means based on the charge completion signal, and outputting a charge stop signal when the charging voltage of the main capacitor becomes a second voltage higher than the first voltage. In a strobe device having a second charging voltage detecting means and a control circuit for stopping oscillation of the oscillation circuit based on the charging stop signal, the charging completion is performed on the release prohibition releasing means based on the charging stop signal. Means for outputting a signal is provided.

It is further preferable that the release prohibition canceling means includes a non-charge warning circuit, and the non-charge warning circuit prohibits a non-charge warning by the non-charge warning circuit based on the charge completion signal. is there.

(Operation) In the present invention, a charge completion signal is output to the release prohibition canceling means based on a charge stop signal. The provision of the means for outputting the charge completion signal to the release prohibition canceling means based on the charge stop signal provides not only when the first charge voltage detection means outputs the charge completion signal, but also when the second charge voltage is output. The release prohibition by the release prohibiting means is also released when the detecting means outputs the charging stop signal.

〔Example〕

FIG. 1 shows an embodiment of the present invention. The PNP transistor 1 whose emitter is connected to the positive common terminal is an input element for a strobe charge control signal. PNP transistor 2 having an emitter connected to the collector of transistor 1; NPN transistor 12 connected to the collector of transistor 2 via resistor 11; resistor 4 connected between the collector of transistor 2 and ground; A resistor 10 connected between the base and ground, a diode 7 having a cathode connected to the positive common terminal and an anode connected to the base of the transistor 2, a capacitor 8 connected between the positive common terminal and the base of the transistor 2, A primary winding is connected between the common terminal of the transistor 12 and the collector of the transistor 12, and a transformer 9 having a secondary winding connected between the base of the transistor 2 and the output terminal forms an oscillation circuit A. The diode 13 has an anode connected to the output terminal of the oscillation circuit A and rectifies the AC output on the secondary side of the step-up transformer 9, and has a cathode connected to the main capacitor 27 and the strobe discharge tube 24 through the leak preventing diode 14. Are connected to the respective anodes. The trigger circuit B is constituted by the resistor 20, the trigger capacitor 21, the trigger coil 23, the thyristor 22, the resistor 25, and the capacitor 26. The trigger circuit B is activated by a signal from the trigger signal generation circuit 19. A neon tube 16 as a charge completion voltage detection element connected to the cathode of the rectifier diode 13 via a resistor 15 is connected to a charge completion signal detection circuit 28, and the output of the charge completion signal detection circuit 28 is connected to one of the OR gate circuits 34. Connected to input terminal. Its or gate 34
Is connected to a charge completion signal latch circuit 32, and the output terminal of the latch circuit 32 is connected to the uncharged warning circuit 30.

On the other hand, the anode of the main capacitor 27 is connected to a resistor 17 and the other to a resistor 5 via a Zener diode 18 as a charge completion voltage detecting element. The resistor 17 is connected to the ground via the resistor R and to the charging stop signal detecting circuit 29. The output of the charge stop signal detection circuit 29 is connected to a charge stop signal latch circuit 31, and the output of the latch circuit 31 is connected to a strobe charge control circuit 33. A Zener diode 18 as a charge completion voltage detecting element has a base resistor 5 in parallel with a resistor 17 and a resistor R.
Resistors 6 and 10 are connected. The connection point between the base resistors 5 and 6 is connected to the base of the transistor 3. The emitter of transistor 3 is connected to the base of transistor 2. The resistor 6 is inserted between the base and the emitter of the transistor 3 in order to prevent the transistor 3 from being operated carelessly. The output of the charge stop signal detection circuit 29 is also connected to the input of the OR gate circuit.

The operation of the flash circuit configured as described above will be described with reference to FIG. When the release button of the camera (not shown) is half-pressed, the latch circuits 31 and 32 are reset, and a signal for turning on the transistor 1 is output from the strobe charging control circuit 33 for a predetermined time. , 11, an oscillation transformer 9, a capacitor 8, and a diode 7 operate the strobe oscillation circuit A. The high voltage output on the secondary side of the oscillation transformer 9 causes the main capacitor 27 to be connected via the rectifier diode 13 and the diode 14. Try to charge. At this time, a neon tube 16 as a charge completion voltage detecting element is connected to the cathode of the rectifier diode 13 via the resistor 15 so that the charging voltage of the main capacitor 27 can be used for flash photography as shown in FIG. sufficient voltage, that is, if luminescable voltages V ₁ or less, current does not flow through the neon tube 16 as the charging completion voltage detection device, the signal of the charging completion signal detection circuit 28 remains "L" the signal Is input to one input terminal of the OR gate 34. Charge completion signal detection circuit 28 due to presence of diode 14
While the oscillation circuit A is in operation, and is only detected current flows configuration when the voltages V ₁ or more, the main capacitor 27
The Zener diode 18 as a charge stop voltage detecting element connected to the voltage detecting element is a voltage detecting element for preventing unnecessary current consumption and overcharging.
Because it set the detection voltage to a higher voltage V ₂ than V _1, if the charging voltage of the main capacitor 27 is V ₁ or less, are not naturally detection signal to the charging stop signal detecting circuit 29 is input. Therefore, its output remains “L”, and this signal
The output of the OR gate 34 which is input to the other input terminal of 34 remains "L". As a result, the charge completion signal latch circuit 32
An uncharged signal "L" is output from the OR gate 34, and the output signal is input to the uncharged warning circuit 30, so that release of the camera is prohibited or an uncharged warning is provided by an LED or the like.
In this case, when returning the release button to release the release button (not shown), charging of the main capacitor 27 is further performed, the charging voltage of the main capacitor 27 reaches the voltage V ₂ shown in FIG. 2, the charge A current flows through the Zener diode 18 as a stop voltage detecting element, and the current is detected by a charge stop signal detecting circuit 29, and the output of the detecting circuit 29 is "L".
From “H” to “H”. Then, the output of the detection circuit 29 is latched by the charge stop signal latch circuit 31, and the charge stop signal "H" is output to the strobe charge control circuit 33. The transistor 1 is turned off by the output of the strobe charge control circuit 33, and the oscillation circuit A Oscillation stops. Doing half-press again the shutter release button in this state, the charging voltage of the main capacitor 27 is charged fully charged voltages V ₁ or more, by a predetermined time after the half press charging, neon as the charging completion voltage detecting element tube
16 flows, the charge completion signal is detected by the charge completion signal detection circuit 28, and its output becomes “H” and is inputted to one input terminal of the OR gate 34. Therefore, the output of the OR gate 34 becomes “H” and the charge completion signal The signal H is latched by the latch circuit 32. When this signal H is input to the non-charge warning circuit 30, the release of the camera is not prohibited or a warning is not performed. If the release button is pressed until the second stroke, the shutter is released.

Next, a description will be given of the case where the voltage V2 shown in FIG. ₂ is detected and the half-pressing of the release button is repeatedly turned on and off in a state where charging is stopped. When the release button (not shown) is half-pressed, the main capacitor 27 is charged for a predetermined time, and the completion of charging is determined based on the detection signal of the charging completion voltage detecting element (neon tube) 16, but the camera is not released. , the half-press of the oN of the release button, the repeat off, the charging voltage of the main capacitor 27 gradually increases, thus reaching the voltage V ₃ exceeds the voltage V ₂ as shown in Figure 2. Then, the current flowing through the charge stop voltage detecting element (zener diode) 18 increases, and the transistor 3 finally turns on via the base resistor 5. At this time, since the transistor 2 remains cut off and the oscillation circuit A stops oscillating, the current flowing to the charge completion voltage detecting element (neon tube) 16 is cut off even if the charging voltage of the strobe is sufficiently high. The output of the charge completion signal detection circuit 28 becomes "L". However, charging stop voltage detection element (Zener diode) 18 is connected directly to the main capacitor 27, the detected current flows if the charge voltage V ₂ or more, the output of the charge stop signal detection circuit 29 "H" next to the OR circuit Since the output of 34 becomes "H", the charge completion state is judged by the charge completion signal latch circuit 28.

The charge stop voltage detecting element (zener diode) 18 starts conducting when the charge voltage of the main capacitor 27 exceeds a predetermined level. Therefore, by setting the resistance values of the resistors 17 and 5, the charge stop voltage detection circuit 29 detects the charge stop voltage. And a forced charge stop voltage by the transistor 3 can be selected.

Another purpose of the forced charging stop by the transistor 3 is that the charge stop signal detection circuit 29 and the charge stop signal latch circuit 31
Failure of the strobe charge control circuit 33, disconnection of wiring material,
Even if there is a banding failure of the resistor 17, it operates as overcharge protection.

As described above, according to the embodiment of the present invention, when the strobe oscillation is performed to determine the level of the charging voltage of the main capacitor, that is, to prevent unnecessary current from flowing from the main capacitor to the charging completion detecting element. If the diode is connected in reverse and can be detected only during charging of the strobe, charging is performed for a predetermined time immediately after half-pressing the camera, and this operation is repeated continuously to determine the completion of charging. The charge gradually rises and exceeds the charge stop voltage, and finally the strobe charge is forcibly stopped by the overcharge prevention circuit. In such a case, the charge completion detection element cannot be detected to determine the charge completion, but the signal of the voltage detection element for directly stopping the charge and being connected to the main capacitor can be detected. There is an advantage that the charge completion is correctly determined using the signal, and the release of the camera is not prohibited or a warning is not erroneously performed.

(Effects of the Invention) As described above, the present invention has the release prohibiting means, and when the first charging voltage detecting means outputs a charging completion signal, and when the second charging voltage detecting means outputs a charging stop signal. The release prohibition by the release prohibition means is released. Therefore, the release in a state where the arc tube cannot emit light is reliably prohibited, and the inconvenience that the release is prohibited in spite of the fact that the arc tube can emit light does not occur.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of an embodiment of a strobe device according to the present invention, and FIG. 2 is a graph showing a time change of a charging voltage of a main capacitor and a detection voltage. [Explanation of Signs of Main Parts] A: Oscillation circuit 16: Neon tube 18: Zener diode 27: Main capacitor 28: Charge completion signal detection circuit 29: Charge stop signal detection circuit 31: Charge stop signal Latch circuit 33 ... Strobe charge control circuit 34 ... OR circuit

Claims (1)

(57) [Claims] A main capacitor; an oscillating circuit for oscillating the main capacitor; a release prohibiting means; and a second signal for outputting a charge completion signal when a terminal voltage of the main capacitor becomes a first voltage required for light emission of the arc tube. (1) charging voltage detecting means; release prohibition releasing means for releasing release prohibition by the release prohibiting means based on the charging completion signal; and charging when the charging voltage of the main capacitor becomes a second voltage higher than the first voltage. A strobe device having a second charging voltage detecting means for outputting a stop signal; and a control circuit for stopping oscillation of the oscillation circuit based on the charging stop signal. A strobe device provided with a means for outputting the charge completion signal to the electronic device.