DE1223691B - Arrangement for electronic exposure time control - Google Patents

Description

Arrangement for electronic exposure time control - The invention relates to an arrangement for electronic exposure time control for photographic devices, in particular for cameras with electromagnetic shutter actuation.

, Electromagnetic shutter release and the replacement of Medhanic inhibitors for exposure time control has been known for a long time due to a large number of electronic switching devices. Essentially, use is made of the delay effect of an RC element which, as a time-determining element, controls either a single tube - n # I »- or a thyratron. In newer devices, this RC-Plied is either included in a monostable multivibrator or connected between a transformer fed by a StoAgenerator with exposure-dependent premagnetization and a magnetic system that closes the shutter.

The known delay circuits have the disadvantages that the. with them achievable delay periods both after short as well as limited and required, especially after longer shutter speeds Scope are not sufficiently temperature stable.

The object of the invention is to provide an arrangement for electronic exposure time control to create by means of a changeable RC element for photographic equipment whose Switching range between short and long shutter speeds, in particular by a Enlargement of the latter while maintaining defined switching points significantly is extended and a high temperature stability of the shutter times in this Area guaranteed.

According to the invention this object is achieved in that the changeable RC-Ghed is arranged in the base circuit of an oscillator transistor and from the beginning the exposure to the vibration insert of one formed with this transistor Oscillator delayed according to the necessary exposure time and that a transformer is provided in the collector circuit of the oscillator transistor, whose a secondary winding forms the input of a switching stage, in whose output a the exposure process terminating electromagnet is switched.

Preferably the oscillator transistor is a silicon transistor educated. According to a further feature of the invention, the electromagnet is in the Collector circuit of a transistor that was opened before the oscillator began to oscillate the switching stage arranged. However, the switching stage can also. from a transistor amplifier are formed, the electromagnet in the collector circuit before the start of the oscillation of the oscillator is blocked transistor.

. The invention is explained in more detail below on the basis of an illustrated embodiment: The oscillator consists of a silicon transistor 1 and a transformer 2, the coil capacitance of which simultaneously forms the resonant circuit capacitance. The secondary winding 3 of the transformer is on the one hand led to the base of the transistor 1 via a limiting resistor 4. The other end of the winding is connected to an RC element consisting of a photoresistor 5 or switchable fixed resistors 6 and a capacitor 7 . The secondary winding 8 of the transformer 2 is connected together with a resistor 9 and a capacitor 10 to the base of a transistor 11 acting as an audio. In the collector circuit of this transistor there is an electromagnet 12 which terminates the exposure. If the transistor 11 represents the input of a direct current amplifier, the circuit variant shown in dashed lines results. The solenoid 12 is then in the collector circuit of a transistor 13, and connected in parallel with it is a capacitor 14. Instead of the electromagnet 12 in the collector circuit of the transistor 11 then a resistance occurs 15. By means of a switch 16 and a with this coupled further switch 17 is a Relay 18 acting as an indicator can be switched into the circuit of the photoresistor 5 and to the voltage sources 19, 20, 21. The switch 16, which can only be brought into its second position causing the release of the shutter after a pressure point has been overcome, is still coupled to a switch 22. With a 23 arranged in front of the photoresistor 5 and with the objective diaphragm, not shown, standing in gear connection with gray filter is referred to.

The mode of operation is as follows: the capacitor 7, preferably a tantalum capacitor, is charged by the voltage source 21 via the switch 22, which is closed before each recording , so that there is a positive potential at the base of the oscillator transistor 1 and thus blocks it. After the lens diaphragm necessary for a depth of field has been set by hand and the gray filter # is in front of the photoconductor 5 with a certain degree of transparency, the switch 16, which is coupled to the shutter release, is turned to its first working position and thus - as a flag - Acting relay 18 is connected to the circuit of the photoresistor 5 . . The circuit is closed via switch 22 on the one hand and switch 17 and voltage source 21 on the other hand. In this switching position, a control is possible on the relay 18; whether with a preselected aperture value and the prevailing light conditions the electronic heminwerk will cause a shutter speed that is still without. Tripod is controllable. If the indicator becomes visible, the switch 16 can thus be pressed down further by actuating the camera release and brought into its second working position. As a result, the shutter part which initiates the exposure is first released in a known manner mechanically or by means of an additional electromagnet. The shutter part which ends the exposure is held in the blocking position at this point in time by the current-carrying electromagnet 12, since a negative potential is present at the base of the transistor 11 via the now closed switch 17 , that is to say the transistor 11 is open. When the shutter release is actuated, the switch 22 is also opened at the same time, so that the capacitor 7 can be reloaded by the voltage source 20 via the photoresistor 5. The positive reverse voltage of the oscillator transistor 1 is thus reduced more and more until the base bias voltage has become slightly negative. At this point in time, with a suitable coupling of the coils of the transformer 2, the feedback condition for the oscillator is met, and it suddenly begins to oscillate. This sudden start of oscillation represents the switching pulse for the electromagnet 12 which ends the exposure, in that part of the oscillation energy is coupled out to the base of the transistor 11 via the secondary winding 8. As a result, the base bias voltage is shifted into the positive at the resistor 9 and the capacitor 10 , so that the transistor 11 , which is open until the start of oscillation, is now blocked and the electromagnet 12 is de-energized. # As a result, the still locked shutter is released and the exposure is automatically terminated according to the prevailing light conditions.

In the event that the transistor 11 functions as the input stage of a direct current amplifier, the voltage drop across the collector resistor 15 does not apply when it is blocked, so that the transistor 13 is turned on. The electromagnet 12 is energized and triggers the second locking device The collector circuit of transistor 13, which still occurs despite the rectifying effect of transistor 11 , is used by capacitor 14.

If the described automatic shutter speed setting is to be replaced by a manual setting if necessary, one of the numerous fixed resistors 6 must be connected to the capacitor 7 in place of the photoresistor 5 . Of course, this does not change the way the electronic escapement works. To input film sensitivities, an adjustable pinhole diaphragm (not shown) is arranged in front of the photoresistor 5.

The shutter speeds that can be achieved with the fumbling around according to the invention encompass the entire time range occurring in practice. The feedback condition of the oscillator used is given over a very wide range, so that the same oscillates with certainty both with extremely short delay times and with extremely long delay times. This provides the necessary reproducible switching impulses both for exposures with 1 / looo seconds and for those with over 100 seconds. In addition which it must be said that the deviations of - lie 10 to + 40 'C. addition, within the allowable tolerance times - this time through the normally required temperature interval.

Claims (2)

Claims: 1. Arrangement for electronic exposure time control by means of a variable RC element for photographic devices, -in particular cameras with electromagnetic shutter actuation, characterized in that the variable RC element (5; 6; 7)-arranged in the base circuit of an oscillator transistor (1) and from the beginning of the exposure to the start of oscillation of an oscillator (1; 2; 3) formed with this transistor is delayed according to the exposure time required in each case and that a transformer (2; 3; 8) is provided in the collector circuit of the oscillator transistor, one of which is a secondary winding ( 8) forms the input of a switching stage, in the output of which an electromagnet (12) terminating the exposure process is connected. 2. Arrangement according to claim 1, characterized in that the oscillator transistor (1) is formed by a silicon transistor. 3. Arrangement according to claim 1, characterized in that the electromagnet (12) is arranged in the collector circuit of a transistor of the switching stage which is open before the oscillation start of the oscillator. 4. Arrangement according to claim 1, characterized in that the switching stage is formed by a two-stage transistor amplifier (11, 13) , wherein the electromagnet (12) is located in the collector circuit of the transistor (13) which is blocked before the start of oscillation of the oscillator. 5. Arrangement according to claim 1, characterized in that the winding of the electromagnet (12) is also designed as an oscillator voice coil. 6. Arrangement according to claim 1, characterized in that a limit value indicating relay (18) is connected in series with the primary winding (2) of the transformer. Considered publications: German Patent Specifications No. 1095 107, 1 155 009, 1156 643.