DE1912863A1 - Electronic flash unit - Google Patents

Description

Electronic flash device The invention relates to an electronic flash device, in which a gas-filled flash tube is connected to a supply voltage, preferably to a storage capacitor, and with an ignition electrode for triggering a Lightning discharge was provided.

With conventional electronic flash units, the illumination is provided by the The charging of the storage capacitor is determined and the lightning discharge continues until the storage capacitor is discharged.

The illumination of the picture then depends on the distance between the flash unit and object and must be taken into account by the aperture setting on the camera will. This is cumbersome and can lead to incorrect exposures. Also taken into account this procedure does not affect the brightness of the object (dark background or white Wall).

The invention is based on the object of an electronic flash device to create which automatically a correct one with a given constant camera aperture Illumination of the face area guaranteed.

The invention is also based on the object of an electronic flash device to train so that the flash rate can be increased, the electronic flash unit the invention is characterized by a photoelectric receiver made by to which light reflected from the object is applied, an integrating element for at least approximate integration of the luminous flux and a cancellation circuit for Cancellation of the lightning discharge when a specified luminous flux integral is reached to accomplish.

So the light is measured, which is actually also on the Camera lens falls. The luminous flux is integrated and if the right one Exposure required amount of light has been received becomes the flash discharge turned off. This is usually done before the storage capacitor is completely discharged happen. Correspondingly, less time is required to set up the storage capacitor recharge and make the device ready for the next flash. In addition, this saves energy, so that, if necessary, from an accumulator more flashes can be taken.

Two exemplary embodiments of the invention are shown in the drawings as Circuit diagram shown and described below: In the embodiment according to Fig. 1, a conventional flash tube 1 is provided, which via a resistor 2 to a storage capacitor 3 is located. The storage capacitor 3 is via a transformer 4 and a rectifier bridge 5 charged. The flash tube 1 contains an ignition electrode 6 for igniting the Blitzes.mittel a lightning contact 7 is an ignition capacitor 8, which is also fed from the rectifier bridge 5 via a voltage divider 9, 10 is charged, discharged via an ignition transformer 11, creating a high voltage surge is placed on the ignition electrode 6.

This is essentially the standard technique for flash units.

According to the invention, a phototransistor 12 is provided, whose Base via a voltage divider 13, 14 and a resistor 15 a suitable bias voltage receives. The phototransistor is connected to an emitter resistor via a collector resistor 16 17 at a supply voltage. An integrating capacitor 18 is across the phototransistor 12 according to the luminous flux falling on the phototransistor with a charging current charged, which is essentially proportional to the luminous flux. The tension on Cord capacitor 1 therefore essentially corresponds to the luminous flux integral.

An amplifier transistor 19 has its base on the capacitor 18. A potential is given at its emitter via a voltage divider 20, 2), which in the resting state is higher than the potential of the base. The transistor 19 is therefore at rest locked. In parallel with resistor 20 a capacitor 22 is connected to a voltage determined by the resistors 20 + 21 is charged. When the voltage across capacitor 18 has reached a predetermined threshold exceeds, namely greater than the emitter voltage of transistor 19, then the transistor 19 becomes conductive. The capacitor 22 discharges with a strong Current through the transistor 19 and a resistor 23 to the ignition electrode of a controlled rectifier 24.

The controlled rectifier 24 is in a circuit with the Resistor 2 and a capacitor 25, which is parallel to the storage capacitor 3 is charged via a decoupling resistor 26.

When the controlled rectifier 24 is triggered, the electrode 27 of the flash tube 1 from the capacitor 25 applied the same potential on which the other electrode 28 of the flash tube 1 is located. A corresponding occurs at resistor 2 Voltage drop on. This drops the supply voltage to the flash tube 1 and the discharge is deleted.

The circuit of FIG. 2 is constructed similarly to FIG. 1 and corresponding Parts are given the same reference numerals as in Fig. 1. Instead of the resistor 2 is the secondary winding 29 of a transformer in the discharge circuit of the flash tube 1 30 which is provided, the primary winding 31 of which is in the circuit with a controlled rectifier 24 and the capacitor 25 is located. Through the transformer 30 is in the Entladestronkreis one of the supply voltage on the storage capacitor 3 opposite voltage of fed in with a large amplitude. As a result, the polarity of the flash tube 1 is reversed, see above that the voltage applied to it goes through zero with certainty and the discharge is deleted.

Claims (5)

Claims X) Electronic flash device, in which a gas-filled flash tube to a supply voltage, preferably to a storage capacitor, and is provided with an ignition electrode for triggering a lightning discharge, marked by a photoelectric receiver (12), which is reflected from the object Light is applied to an integrating member (18) for at least approximate Integration of the luminous flux and an extinguishing circuit (2, 24,25) to extinguish the Lightning discharge when a specified luminous flux integral is reached. 2.) Electronic flash device according to claim 1, characterized in that that the quenching circuit has means (2, 30) for feeding in one of the supply voltage directed opposite Contains voltage in the discharge circuit of the flash tube (1). 3.) Electronic flash device according to claim 2, characterized in that that said means for feeding in one of the feed voltage is directed opposite Voltage contain a capacitor (25), which is controlled via a rectifier (24) is discharged and its discharge current via a resistor (2) or transformer (30) a voltage opposite to the supply voltage, which is equal to or greater than that Amplitude than the supply voltage feeds into the discharge circuit. 4.) Electronic flash device according to one of claims 1 to 3, characterized characterized in that the photoelectric receiver is a phototransistor (12) and the integrating member is formed by a capacitor (18) which is connected to the Phototransistor (12) with a charging current that is essentially proportional to the luminous flux being charged. 5.) Electronic flash device according to claim 3 and 4, characterized in that that the integrating capacitor (18) at the base of an amplifier transistor (19) whose emitter potential is predetermined by a voltage divider (20, 21) and which ignites the controlled rectifier (24).