JPH0530346B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a video camera equipped with an automatic focusing mechanism, and particularly to a video camera in which information on the distance measurement range of the automatic focusing mechanism is displayed on an electronic viewfinder. Regarding the camera.

[Background technology and its problems]

In a video camera equipped with an automatic focusing mechanism, the automatic focusing mechanism measures the distance to a subject and automatically adjusts the focus. When attempting to operate the above video camera, the viewfinder will display which area of the subject is in focus during autofocus, that is, which area of the subject is covered by the autofocus mechanism. This is advantageous for accurately focusing on the subject. Furthermore, the smaller the distance measurement range of the automatic focusing mechanism is, the better, in order to increase the resolution of the focused portion of the captured image, and for this purpose, it is necessary to display the distance measurement range on the viewfinder.

Conventionally, it has been known to display the angle of view on the view indexer of an optical still camera or the optical view indexer of a video camera. If you try to display the distance measurement range on the optical viewfinder of a video camera using the same method as this method of displaying the angle of view, if the optical viewfinder is a twin-lens reflex type, parallax will occur between the distance measurement system and the imaging optical system. The accurate distance measurement range cannot be displayed. Furthermore, even if it is displayed, if it is displayed in a fixed manner by printing or the like, there are disadvantages in that the distance measurement range cannot be changed, and in that it becomes a hindrance when the automatic focusing mechanism is not used.

[Object of the Invention] Therefore, the present invention was proposed in view of the above-mentioned circumstances, and provides an electronic viewfinder for a video camera equipped with an automatic focusing mechanism that electronically optionally controls the electronic viewfinder only when the automatic focusing mechanism is operating. It is an object of the present invention to provide a video camera that displays a distance measurement range of 2 and which improves operability during automatic focusing.

[Summary of the invention]

To achieve this object, the present invention provides a video camera equipped with an automatic focusing mechanism, which includes an electronic viewfinder for monitoring captured images, and a display signal generator for generating a display signal indicating the distance measurement range of the automatic focusing mechanism. a ranging range specifying unit that specifies the position, horizontal range, and vertical range of the ranging range in the electronic viewfinder to vary the position and size of the ranging range, and a display from the display signal generator. a signal synthesis circuit that superimposes a signal on a video signal obtained by the imaging unit and supplies the signal to the electronic viewfinder only during automatic focusing, and the position and size of the distance measurement range are variable and when automatic focusing is performed. Only the distance measurement range is displayed on the electronic viewfinder.

〔Example〕

Hereinafter, one embodiment of the present invention will be described based on the drawings.

FIG. 1 is a block diagram showing the basic configuration of a video camera according to the present invention. The video camera is equipped with an automatic focusing mechanism that automatically focuses a subject, and further includes an electronic viewfinder 1 using a small cathode ray tube for monitoring captured images.

In the video camera described above, incident light from a subject passes through an imaging lens 2 and forms an optical image on an image sensor 3, which converts the light into an electrical signal. This electrical signal is sent to the video signal generator 4,
The video signal obtained here is obtained at the signal output terminal 5. The video signal is also supplied to the electronic viewfinder 1, and the video camera can be operated while monitoring the video displayed on the electronic viewfinder 1. Note that the image pickup device 3 and the video signal generation section 4 constitute an image pickup section.

On the other hand, when photographing a subject using the automatic focusing mechanism, first, the power switch 6 for supplying power to the automatic focusing mechanism is turned on. Next, the user manually specifies in the side distance range specifying section 7 which range of the image displayed on the electronic viewfinder 1 is to be focused. As a result, the distance measurement range designation section 7 generates a distance measurement range designation signal indicating which range of the subject the automatic focusing mechanism should measure and focus on. This signal is sent to the distance detection section 8.
Further, a part of the incident light from the subject is reflected by the half mirror 9, further reflected by the reflection mirror 10, and is imaged on the optical sensor 11. The electrical signal obtained by the optical sensor 11 is sent to the distance detecting section 8.
The distance to the subject within the specified distance measurement range is detected based on the distance measurement range designation signal. The detection signal obtained by the distance detection section 8 is sent to the motor drive signal generation section 12, and the motor 13 is driven based on the motor drive signal obtained from the motor drive signal generation section 12. There is. By driving this motor 13, the imaging lens 2 is moved back and forth in the direction of the subject, and the subject within the specified distance measurement range is automatically brought into focus.

Further, the electronic viewfinder 1 is provided with a mechanism for electronically displaying the distance measurement range. The outline of this mechanism is as follows.

The distance measurement range display signal generator 14 generates a distance measurement range display signal based on the distance measurement range designation signal and the video signal, the display signal and the video signal are synthesized by the signal synthesis circuit 15, and the synthesized signal is displayed on the electronic viewfinder. Supply to 1. As a result, the distance measurement range is displayed on the electronic viewfinder 1. Further, the display signal is supplied to a signal synthesis circuit 15 via a switch 16 that is linked to the power switch 6. Therefore, the distance measurement range is displayed on the electronic viewfinder 1 only when the automatic focusing mechanism is operating. Therefore, when trying to manually focus without using the automatic focusing mechanism, the distance measurement range is not displayed on the electronic viewfinder 1, so it does not interfere with the operation. Also, the distance measurement range is displayed on the electronic viewfinder 1 at the same time as the power is turned on to the automatic focusing mechanism, so by checking the displayed distance measurement range in the electronic viewfinder 1,
You can see that the autofocus mechanism is working.

Next, the distance measurement range display signal generator 14 is
This will be explained in detail with reference to FIG. 3, FIG. 4, and FIG.

First, a part of the video signal shown in FIG. 3A generated by the video signal generating section 4 is supplied to the horizontal/vertical synchronizing signal separating section 14A. This synchronization signal separation section 14
At A, the horizontal synchronization signal and the vertical synchronization signal are separated and extracted. This extracted horizontal synchronizing signal is sent to the sawtooth wave generating section 14B, which generates the sawtooth wave shown in FIG. 3B having the same period as the horizontal synchronizing signal. The maximum amplitude voltage level V _H from the 0 level of this sawtooth wave is the fourth
It corresponds to 0 to V _H , which is the horizontal length of the cathode ray tube of the electronic viewfinder 1 shown in the figure converted into voltage.
Further, the separated vertical synchronizing signal is sent to a sawtooth wave generating section 14C, which generates a sawtooth wave having the same period as the vertical synchronizing signal shown in FIG. 3D. The maximum amplitude voltage level V _V from 0 level of this sawtooth wave corresponds to 0 to V _V when the vertical length of the cathode ray tube is converted into voltage.

In addition, the distance measurement range designation signal generated by the distance measurement range designation section 7 is sent to the level setting section 14D, so that the level setting section 14D converts the horizontal range of the distance measurement range into voltage levels V ₁ and V. Generates ₂ .
Further, the distance measurement range designation signal is transmitted to the level setting section 14.
E, the level setting unit 14E converts the vertical range of the ranging range into a voltage level.
Generates V ₃ and V ₄ .

Furthermore, the sawtooth wave generated by the horizontal synchronization signal and voltage levels V ₁ and V ₂ in the horizontal range of the distance measurement range are supplied to the slice section 14F. This slice section 14
At F, the sawtooth wave is sliced at voltage levels V ₁ and V ₂ to produce the rectangular wave shown in FIG. 3C. Further, the sawtooth wave generated by the vertical synchronization signal and the voltage levels V ₃ and V ₄ in the vertical range of the ranging range are supplied to the slice section 14G. This slicing section 14G slices the sawtooth wave and the voltage levels V ₁ and V ₂ to produce a rectangular wave shown in FIG. 3E.

FIG. 3C created by the slicing section 14F
By sending the rectangular wave shown in FIG. 3 and the rectangular wave shown in FIG.
The signal shown in FIG. 3F is produced.

The signal shown in FIG. 3F is supplied to the signal synthesis circuit 15 via the switch 16 and superimposed on the video signal. The superimposed signal is supplied to an electronic viewfinder 1. As a result, as shown in FIG. 4, two vertical bright lines 1A are displayed, and the area sandwiched between these two bright lines 1A indicates the ranging range.

Voltage level corresponding to the horizontal range of the distance measurement range above
V ₁ , V ₂ and the voltage level corresponding to the vertical range V ₃ ,
Since V ₄ can be set arbitrarily, the electronic viewfinder 1 displays an arbitrary range of distance measurement.

In this way, the distance measurement range is displayed on the electronic viewfinder 1 only during automatic focus operation, and the distance measurement range can be specified and displayed as desired, making it easier to operate the video camera during automatic focus operation. can improve sex.

The distance measurement range displayed on the electronic viewfinder 1 can be displayed using circular and rectangular bright lines 1A as shown in FIG. A method such as blurring the outer contour 1C of the distance measurement range is possible.

〔Effect of the invention〕

As is clear from the above description, in the video camera according to the present invention, the position and size of the distance measurement range can be arbitrarily varied by specifying the horizontal range and the vertical range using the distance measurement range specifying section 7. By varying the position and size of the distance measurement range according to the pattern and size of the subject, it is possible to increase the resolution of the focused portion of the image capture screen and improve the focusing accuracy. Further, an arbitrary distance measurement range can be displayed on the electronic viewfinder 1 only when the automatic focusing mechanism is operating. Therefore, by confirming that the distance measurement range is displayed on the electronic viewfinder 1, it is possible to know that the automatic focusing mechanism is operating. Also, if you try to focus manually, the distance measurement range will not be displayed on the electronic viewfinder.
It does not interfere with manual operation. Furthermore, during automatic focusing operation, the video camera can be operated while checking the arbitrarily specified distance measurement range displayed on the electronic viewfinder 1, which significantly improves the operability during automatic focusing of the video camera. I can do it.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a video camera showing an embodiment of the present invention, FIG. 2 is a block diagram of a ranging range display signal generator of the video camera, and FIG. 3 is a block diagram of each part in the signal generator. FIG. 4 is a diagram showing the distance measurement range displayed on the electronic viewfinder, and FIG. 5 is a diagram showing the distance measurement range displayed on the electronic viewfinder using various other patterns. 1...Electronic viewfinder, 14...Distance measurement range display signal generator, 15...Signal synthesis circuit.

Claims (1)

[Claims] 1. A video camera equipped with an automatic focusing mechanism, comprising: an electronic viewfinder that monitors captured images; a display signal generator that generates a display signal indicating a distance measurement range of the automatic focusing mechanism; a distance measurement range specifying section that specifies the position, horizontal range, and vertical range of the distance measurement range in the electronic view finder to vary the position and size of the distance measurement range; and an imaging section that receives the display signal from the display signal generator. and a signal synthesis circuit that superimposes the video signal obtained by autofocusing and supplies the superimposed signal to the electronic viewfinder, and the position and size of the distance measurement range are variable, and the distance measurement circuit only superimposes the video signal obtained during autofocusing and supplies it to the electronic viewfinder. A video camera characterized in that a range is displayed on the electronic viewfinder.