DE3050691C2 - Focusing determination device of a camera with a device for determining the average lighting of an object to be photographed - Google Patents

Description

The invention relates to a focusing determination device a camera with a device for determining the average lighting of a to object to be photographed, which comprises a self-scanning photoelectric element having a number of microphotoelectric Elements, a contrast detection circuit for generating a contrast signal of the to be photographed Object, a scanning control circuit for controlling the scanning speed of the photoelectric Element and another photoelectric element to determine the average illumination of the to be photographed, and wherein the optical system for projecting the image of the to be photographed Object is formed on the photoelectric element

From JP-OS 53-15 131 a method and a device for determining the image resolution is under Use of an optical system to scan the contrast of an image of a person to be photographed Known object. According to this known method, the image of the object to be photographed is on a projected optical sensor array comprising a plurality of optical sensor elements, a portion of which is from the optical sensor arrangement received light depending on the contrast distribution of the image is changed, which takes place by changing the scanning speed by the optical sensing arrangement.

According to this known method, the contrast distribution of the image is also determined via the optical sensor arrangement and the scanning speed is controlled as a function of the determined value so v / ürd ?, this leads to undesirable fluctuations in the contrast signal

ίο lead, so that a precise determination of the focus would be impossible.

The invention is now based on the object of having a focusing determination device of a camera to create a device for determining the average lighting of the type mentioned, which an exact focus setting regardless of a movement of the object to be photographed or of the camera and therefore independent of a change in the average brightness of the person to be photographed Object enables electronic measures to remove high-frequency components without doing this to have to meet the output signal of the further photoelectric element.

The object is achieved according to the invention

that the optical system is arranged in such a way that it is connected to the further photoelectric element for determination the average lighting provides an image of the object that is out of focus

The present invention makes the special

The advantage achieved is that the electrical signal obtained from the further photoelectric element already has one Integration value thus represents this signal in the subsequent evaluating circuit by a electronic integrator no longer needs to be integrated

In particular, the invention can thereby be an advantageous Further experience that the optical system has a diffuser plate and a lens which on a photoelectric plate for detecting the through-cut illumination collects the rays through the Diffuser plate were scattered.

In an advantageous embodiment it is further provided that the optical system has a half-mirrored mirror which guides a first part of the light towards the further photoelectric element to determine the average illumination and guides a second portion of the light to the self-scanning photoelectric element
In the following, the invention is explained in more detail on the basis of exemplary embodiments with reference to the drawing. It shows

F i g. 1 is an explanatory illustration, partly in the form of a block diagram, according to an embodiment the device with features according to the invention, and

Fig. 2 is an explanatory illustration of another Embodiment of the device with features according to the invention.

In Fig. 1 an embodiment of a device is

device with features according to the invention in conjunction with the mechanism of a single-lens reflex camera shown. The image of an object 6 to be photographed is imaged by a lens 7. A semitransparent mirror 23 is located behind the lens 7 in a such a position that the light from the object through the semi-transparent mirror 23 against a self-scanning Photoelectric element 8 is directed and an image of the object is projected thereon. The light that

passes through the semi-transparent mirror 23, arrives at a further photoelectric element 9 for determining the average illumination and delivers a Object image in front of the element 9. The device can be designed such that the object image behind the photoelectric element 9 or in front of the photoelectric element 9. Furthermore, the device can be designed such that, in contrast to the arrangement according to FIG. 1 the average lighting below Using a light is determined that is reflected by the semi-transparent mirror.

Would the image of an object on the further photoelectric Element 9 are accurately mapped to determine the average lighting, and the image would then experience an oscillation, for example, because the object to be photographed is moving or the camera is kept restless, the photoelectric output signal of the element 9 would become strong change.

In the arrangement according to FIG. 1 such a strong change in the output signal is effectively switched off, since the object image with respect to the further photoelectric Element 9 is out of focus

The photoelectric output signal from the photoelectric element 9 is then used to determine the average illumination converted into a voltage output signal by a current-voltage converter Changes in the voltage output signal of the current-voltage converter 10 are made by the frequency converter circuit 11 converted into a frequency, the output of this circuit being represented by a Clock pulse generator circuit is converted into a train of pulses of variable frequency. This pulse train is fed to a sampling circuit 13 and serves as a sampling pulse signal for controlling the self-3s scanning photoelectric element 8, from the output of which a contrast signal by a contrast detection circuit 14 is removed. In a device constructed in this way, the image of the object is the photoelectric Element 9 for determining the average lighting out of focus and therefore the photoelectric output signal is caused by movement of the object or a movement of the camera is only slightly changed. The contrast signal obtained is thus free from changes in the image of the object to be photographed caused by vibrations.

F i g. 2 ^ eigt another embodiment of the Device with features according to the invention. In this embodiment, the image of the to be photographed Object is formed on a diffuser plate 24 in order to reduce the high spatial frequency components of the image of the object. Light from the object 6 is transmitted through a semi-transparent mirror 23 to a self-scanning one photoelectric element and the diffuser plate 24 supplied by means of a lens 7, so that the image of the object 6 is imaged on both the photoelectric element 8 and the diffuser plate 24. That Image on the diffuser plate 24 is again detected via a lens 25 on the photoelectric element 9 the average lighting. The output of the photoelectric element 9 is shown in processed in a similar manner to the embodiment of Fig. 1 and a contrast signal is consequently obtained that is free from the effects of vibrations in the image of the object. The lens 25 be arranged so that the image on the photoelectric element 9 to determine the average illuminance misfocus: ί is. This gives a useful result. The arrangement of Figure 2 is similar to a single-lens reflex camera designed so that therefore the diffuser plate as a focusing plate can be used or parts of this camera can be used for the device with features according to the invention.

1 sheet of drawings

Claims (3)

3 (50 patent claims: 1. Focusing detection device of a camera with a device for determining the average illumination of an object to be photographed, which is a self-scanning photoelectric element with a number of microphotoelectric elements, a contrast detection circuit for generating a contrast signal of the object to be photographed, a scanning control circuit for controlling the scanning speed of the photoelectric element and a another photo-electric element to determine the average illumination of the comprises object to be photographed, and wherein the optical system for projecting the image formed object to be photographed on the photoelectric element of the, characterized in that the optical system 'is arranged such that it photoelectric the further Element (9) for determining the average illumination supplies an image of the object that is incorrectly focused 2. Apparatus according to claim 1, characterized in that the optical system is a diffuser plate (24) and a lens (7), which on a photoelectric plate for detecting the average illumination Collects rays that have been scattered by the diffuser plate. 3. Apparatus according to claim 1 or 2, characterized in that the optical system has a half-mirrored Mirror (2J) having a first part of the light against the further photoelectric Element (9) for determining the average lighting conducts and a second section of the Light guides to the self-scanning photoelectric element (8)