DE3007425C2 - Electronic flash unit with automatic light control - Google Patents

Description

The invention relates to an electronic flash device with

automatic light control according to the preamble of claim 1.

The problem with computer flash units is the correct dosage of the amount of light required for brightening. Computer flash devices emit light until the amount of light reflected by the object being recorded and picked up by a sensor has reached a specified target value or, if this cannot be achieved, until the storage capacitor is emptied due to the very different values of ambient light and flash light there is no correct consideration of the ambient light and the recordings tend to be overexposed.
From DE-PS 26 J8 030 a camera with a flash light device is known in which a certain ratio between exposure to daylight and flash light can be achieved. When the camera shutter is opened, the ambient light is first integrated by the sensor up to a predetermined value, which is lower than the integration value required for correct exposure.When this predetermined value is exceeded, the flash is triggered and then emits light until the correct exposure value is reached is this way

bo can be a constant ratio in all lighting conditions the exposure between ambient light and flash light can be achieved.

However, this arrangement has the disadvantage that the camera and flash unit must form a system, as for the

M Exposure control of the camera and for flash exposure the same sensor is used. In addition, the user has to choose between flash mode only and Aufhellbelricb are switched because the

3 4

Arrangement in case of low ambient brightness is not thus also conductive and bypasses the splitter is usable There are therefore also two Blitzauslöseein- resistance Rb The ignition voltage U ₁ is hereby directions is required, because the flash at The exclusive place reduced to the value:
chem flash operation can be triggered by the shutter

got to. 5 Ui "Ugk + UcEssi,

The present invention is based on the object of creating an electronic flash device that can be used independently of the Ucem on the switched transistor 74, depending on the exposure control of the camera for the still falling collector-emitter residual voltage, for daylight photos that are significantly lower is present as the dividers clamping Soft switching between exclusive to voltage of the voltage divider R _A, Rb by the lower Blilzlichtbetrieb and Aufhellbetrieb in daylight ignition voltage U ₂ is the thyristor Th is carried out after triggering of the flash Automatically light at lower values at

This object is achieved in that an integration capacitor C 1 is switched through and thus

Generic electronic flash device interrupts the emission of the flash earlier than this

Electronic means are provided, by means of which this is the case before loading when the ambient brightness is low

At the beginning of the emission of the flash the value of the environment will result in overexposure in fill mode

exercise brightness can be determined and that the integration daylight avoided.

value at which the emission of the flashlight can be interrupted. The capacitor C3 serves to maintain the base voltage The transistor 74 automatically reduces by a predetermined value during the duration of the flash is when the ambient brightness is to be held at a predetermined level so that its switching status does not change level exceeds changed

In the following the invention is based on several In the Ausführungsbeispiei according to Mg.2 are the Embodiments described. It shows switches S1 and 52 through semiconductor switches 75 and F i g. 1 a circuit arrangement for the BlitzRditunter- 76 replaces the one caused by the discharge of the lightning capacitor

refraction controlled in an inventive electron gate 25 Cl via coupling elements C 2 and CA

become a flash device.

F i g. 2 shows a circuit arrangement according to FIG. 1 with In F i g. 3 another exemplary embodiment is shown,

electronically controlled semiconductor switches, in which an existing in the camera arrangement for

F i g. 3 another embodiment of a scarf display of an exposure value, e.g. B. an underexposure arrangement to interrupt the flashlight in the event of a display, a signal for the ambient brightness Electronic flash device according to the invention and thus for the switching of exclusive

F i g. 4 supplies a further exemplary embodiment of a switching flashing light operation to brightening operation. The transit arrangement the flash light interruption in the event of a disturbance 74 is provided directly by the external exposure device according to the invention Electronic flash unit controlled by display electronics

In the circuit arrangement according to FIG. I will be a 35 F i g. 4 shows a further embodiment in the phototransistor 71 with that of the flash lamp L 1 Removing which a second light-sensitive sensor 72 for detecting the transmitted and reflected from the object light acted upon the ambient brightness position provided Here Schlagt and charges the integration capacitor CX by the switch can be S 2 or the semiconductor switch on a current dependent on the reflected light. 76 can be saved.

The switch 51 is open during this time. 2 and F i g. 4 are

If the capacitor voltage reaches the value U ₁ , then 2ün- regardless of the camera used and

det the thyristor Th and the quench tube Lq are not connected via any additional connecting lines,

the ignition electronics Zq ignited, whereby the flash tube Although in all embodiments an electric

L 1 is deleted. flash unit with quench circuit shown is the The voltage U is made up of the divider, of course, also in the case of electron flash

voltage of the voltage divider from Ra and R _B and the devices with series thyristor can be used.

Gate-cathode voltage of the thyristor. It

The following applies: 4 sheets of drawings

The voltage U _z at which the thyristor Th ignites,
can be influenced by the choice of the two divider resistances Ra and Ru and can be determined so that at 55
a certain value of the integration capacitor
C 1 a correct flash exposure takes place.

The switch 52 is during the emission of the flash
or during the open time of the camera shutter

is closed and is reopened after the recording m>
fent The opposite is true for switch S1: it is during
of the recording and is opened after the recording
closed.

If it now exceeds that on sensor 71 in daylight

falling ambient light a certain value, so 65
the transistor 73 is conductive, so that via a diode
Dl the capacitor Ci can be charged. Of the
transistor 74 connected to capacitor Ci

Claims (10)

Patent claims: 1. Electronic flash unit with automatic control of the amount of light emitted, in which the amount of light reflected from the object is recorded by means of a light-sensitive element and is converted into an electrical voltage value and this value by means of an electronic Circuit arrangement is integrated up to a predetermined value at which the Flash emission is interrupted when closing a first electronic switch, thereby characterized in that additional electronic means are provided by the before At the beginning of the emission of the flash, the value of the ambient brightness can be determined, and that the integration host, in which the emission of the flash can be interrupted, automatically by a predetermined one Amount can be reduced if the ambient brightness exceeds a given value. 2. Electronic flash device according to claim 1, characterized in that a second electronic switch (T 4) and a control circuit (R 1, 73, R 2, C3) cooperating with a light-sensitive element are provided as additional electronic means, the second electronic switch (74) can be switched through when a certain ambient brightness is exceeded by the control circuit (R I, 73, R 2, C3) and in this case the integration value at which the flash light emission is interruptible is reduced by the specified amount. 3. Electronic flash device according to claims 1 and 2, characterized in that the light-sensitive element (TI) of the electronic flash device is used in the drive circuit (Rl, 73, R2, C3) to determine the brightness of the surroundings. 4. Electronic flash device according to claims 1 and 2, characterized in that a further light-sensitive element (7 * 2) is provided in the control circuit (R 2, C3) for setting the ambient brightness. 5. Electronic flash device according to claims 1 and 2, characterized in that in the control circuit (R 2, C3) an existing circuit and measurement arrangement in an associated camera for displaying an exposure value is used to determine the ambient brightness. 6. Electronic flash device according to claims I to 3, characterized in that a resistor (RI) is connected in series in the control circuit (R 1. 73, R 2, C3) to the light-sensitive element (T I), which is connected by a switch ( S2) can be short-circuited during the emission of the flash and at the vo? the emission of the flash, the current caused by the ambient brightness in the light-sensitive element (71) causes a voltage drop which is a measure of the ambient brightness and is amplified in an amplifier element (73) and fed to a capacitor (C3) via a diode (D 2) and in this can be stored while the flash is being emitted. and that the control input of the second electronic switch (74) is connected to the capacitor (C 3) . 7. Electronic flash device according to claims 1, 2 and 4, characterized in that in the Anätcucrschalt (R 2, C3) to the further photosensitive element (T2) a resistor (R 2) is geschähet in series, on which the by the ambient brightness in the light-sensitive element (Γ2) caused current causes a voltage drop, which is a measure of the ambient brightness, that a capacitor (C3) is connected in parallel to the resistor (R 2) , and that the control input of the second electronic switch (T4) to the Parallel connection of resistor (R 2) and capacitor (C3) connected 8. Electronic flash device according to claims 1, 2 and 5, characterized in that in the control circuit (RZ C3) the second electronic switch (T4) can be controlled directly by the circuit arrangement present in a camera for displaying an exposure value 9. Electronic flash device according to claims 1 to 8, characterized in that to reduce the integration value, the response voltage (UJ des first electronic switch (Th) is determined by a voltage divider (R *, R _B ) , and that the second electronic switch (74 ) bridges a divider resistor (Rb) of the voltage divider (Ra, R _b) 10. Electronic flash device according to claim 6, characterized in that the switch (52) is designed as an electronic log (76) which can be controlled by the discharge of the flash capacitor (CiJ via a coupling element (C4)