JP2000258680A - High-speed zoom tracking device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a zoom lens driven at high speed to realize very accurate tracking at the time of automatic focusing in zoom tracking operation performed with a tracking curve as reference. SOLUTION: Information on a focusing position in a state where the zoom lens is set to a telephoto side is stored in a focusing optimum position storage part 9, and such a position is set to an optimum object distance in present photographing environment. Thus, very accurate tracking operation is realized by performing tracking with the stored optimum object distance position as a target when a high-speed zoom switch 11 is turned on and follow-up is difficult in automatic focusing zoom tracking by ordinary wobbling.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-speed zoom tracking device at the time of auto-focusing of an inner focusing system used for a video movie.

[0002]

2. Description of the Related Art In recent years, it has become common for video movies typified by a camera-integrated VTR to employ an inner focusing system for the purpose of reducing the size and weight.

Here, an autofocus zoom tracking system in an inner focusing system will be described.

As a feature of the inner focusing system, when performing zooming on a certain subject while maintaining a focused state, it is necessary to drive the focus lens in conjunction with the zoom lens. This is called zoom tracking. For example, a curve formed by connecting a focus best focus position at an arbitrary zoom position to a subject at a distance of 1 m is called a 1 m tracking curve, and the tracking curve at each representative distance differs depending on the lens. ~
I have ten.

FIG. 2 is a characteristic diagram showing a tracking curve of a certain lens. The horizontal axis represents the zoom lens position, and the vertical axis represents the focus lens position, and the tracking curve for each representative distance is drawn. T1 is an over-infinite curve, T2 is an infinite curve, T3 is a 3.8m curve, T4 is a 1.7m curve, T5 is a 1m curve, and T6 is 0.27m.
The curve, T7 is a 0.1 m curve, and T8 is a 0.03 m curve.

For example, in order to maintain a focused state while zooming on a subject at a distance of 3.8 m, the focus may be driven along a tracking curve of T3. In addition, in order to perform zooming on a subject at a distance of 2 m while maintaining the focus-focused state, interpolation calculation is performed using T4 and T3, and the focus is driven in accordance with the calculation result. do it. In addition, for a distance of about 10 m or more, the focus state can be maintained if almost along T2.

However, as shown in FIG. 2, the interval between these tracking curves is narrower on the wide-angle side and becomes wider toward the telephoto side. Therefore, to zoom from the wide-angle side to the telephoto side without knowing the distance to the target subject, the focus is finely oscillated back and forth, and the magnitude of the contrast component created from the video signal at the peak position of the amplitude is Are compared and the focus position is corrected in a higher direction.

[0008]

However, in the above-described conventional method, the focus oscillation frequency is 2 fields to 4 fields.
Since it takes about the same time as the field, the tracking ability deteriorates as the zoom speed increases, and eventually reaches the telephoto end without focusing on the image. there's a possibility that. Therefore, there is a problem that the zoom speed cannot be increased to secure the zoom tracking performance in the auto focus.

An object of the present invention is to solve the above-mentioned conventional problems, and an object of the present invention is to provide a high-speed zoom tracking in which zooming is performed while maintaining focus even at a zoom speed in which auto-focusing is difficult to follow. I do.

[0010]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, a high-speed zoom tracking apparatus according to the present invention can perform a normal or high-speed zooming operation on a telephoto side and a wide-angle side, and perform focusing according to the zooming operation. An operable high-speed zoom tracking device, comprising: imaging means for converting an optical signal from a subject into an electric signal; video signal processing means for separating a contrast component based on the electric signal from the imaging means; A tracking table storage unit having tracking data corresponding to a magnification of a zoom lens with respect to a distance; and a zooming operation and a focusing operation can be controlled by a contrast component from the video signal processing unit and tracking data from the tracking table storage unit. Zoom tracking control means; Serial in which and a selectable focus driving method selection means focusing method according to the zoom position or zoom speed under the control of the zoom tracking control means.

With such a configuration, it is an object of the present invention to provide a high-speed zoom tracking in which zooming is performed while maintaining in-focus even at a zoom speed at which auto-focusing is difficult to follow.

[0012]

According to the first aspect of the present invention, it is possible to perform a zooming operation at a first speed and a second speed higher than the first speed on the telephoto side and the wide-angle side. Yes,
A high-speed zoom tracking device capable of performing a focusing operation according to the zooming operation, comprising: an imaging unit that converts an optical signal from a subject into an electric signal; and a video signal that separates a contrast component based on the electric signal from the imaging unit. Processing means, a tracking table storage means provided with a plurality of data of zoom tracking characteristics according to a predetermined subject distance, and a zooming operation and a zooming operation by the contrast component from the video signal processing means and the tracking data from the tracking table storage means. A zoom tracking control unit capable of controlling a focusing operation, wherein when performing zooming at a second speed, a zoom tracking characteristic according to a subject distance is selected from the tracking table storage unit, and the zoom tracking characteristic is different from the selected zoom tracking characteristic. Is intended to perform a zoom tracking zoom tracking characteristics, such a structure,
The focus operation can be favorably performed even in the high-speed zoom.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1) FIG. 1 is a block diagram showing a configuration of a high-speed zoom tracking apparatus according to the present embodiment. In FIG. 1, reference numeral 15 denotes a subject, 1 denotes a fixed lens group having a positive refractive index with respect to an optical signal from the subject 15,
2 is a zoom lens group also having a negative refractive index, 3 is a fixed lens group having a positive refractive index (this need not be fixed), 4 is a focus lens group having a positive refractive index, Reference numeral 5 denotes an image pickup device which is an image pickup unit for converting an optical signal from the focus lens group 4 into an electric signal, and 6 denotes a video signal processing unit for separating the electric signal from the image pickup device 5 into a contrast component used when performing autofocus. A video signal processing circuit 7 controls the zoom lens driving unit 14 and the focus lens driving unit 13 based on the electric signal from the video signal processing circuit 6 and the information from the high-speed zoom switch 12 and the focus driving method selection unit 8. A zoom tracking control unit, which is a control unit, is
N is a high-speed zoom switch for operating high-speed zoom;
A focus drive method selection unit 9 is a focus drive method selection unit that selects a zoom tracking method according to the state of N or OFF, and stores position information of the focus lens group 4 that fluctuates by autofocus when the zoom is at the telephoto end. A focus lens position storage unit 13 for driving the focus lens group 4 under the control of the zoom tracking control unit 7;
Reference numeral 14 denotes a zoom lens driving unit that drives and controls the zoom lens group 2 under the control of the zoom tracking control unit 7.
Reference numeral 0 denotes a tracking table storage unit which is a tracking table storage unit in which data of a plurality of tracking curves is stored.

The operation of the high-speed zoom tracking device according to the present embodiment configured as described above will be described below.

In FIG. 1, an optical signal from a subject 15 includes a fixed lens group 1 having a positive refractive index, a zoom lens group 2 having a negative refractive index, and a fixed lens group 3 having a positive refractive index. , And a focus lens group 4 having a positive refractive index, and is converted into an electric signal by the image sensor 5. The converted electric signal is further separated by a video signal processing circuit 6 into a contrast component used when performing autofocus, and transmitted to a zoom tracking control unit 7.

The zoom switch 11 is operated by the user.
Is operated in the direction to zoom from the wide-angle side to the telephoto side,
The focus drive system selection unit 8 includes the high-speed zoom switch 1
The zoom tracking method is selected depending on whether or not 1 is pressed. When the high-speed zoom switch 11 is turned off, the zooming operation is performed at the normal speed. Therefore, a tracking table corresponding to the subject distance is selected from a plurality of tracking tables stored in the tracking table storage unit 10 to perform zooming. The zoom tracking operation is performed by controlling the lens driving unit 14 and the focus lens driving unit 13.

When the high-speed zoom switch 11 is ON, or when the zoom is at the telephoto end even when the high-speed zoom is OFF, first, the optimum focus position storage unit 9
The focus lens position information that fluctuates due to the autofocus operation is stored. Thereafter, when the zoom switch 12 is operated to the telephoto or wide-angle side, a tracking table corresponding to the subject distance is selected from a plurality of tracking tables stored in the tracking table storage unit 10. And based on the selected tracking table,
Set the optimal tracking characteristics during high-speed zoom. A method for setting the optimum tracking characteristics will be described below.

FIG. 4 is an enlarged view of a part of FIG. 2 and shows the details of the information stored in the optimum focus position storage section 9. For example, when the focus position is located at F1 when the focus position is in focus when the zoom position is Z1, the distance information of the subject includes the distance α from L1 to L2 between the tracking curves L1 and L2 sandwiching F1, and F1. From the distance to L2. The distances α and β can be estimated as the optimum distances in the current shooting environment.

The zoom tracking control unit 7 controls the focus lens drive unit 13 and the zoom lens drive unit 14 to maintain the ratio of the distance β / α, and operates the zoom lens group 2 and the focus lens group 4. Let it.

Here, selection of the tracking method will be described in detail with reference to FIG.

FIG. 3 is a flowchart showing the tracking method selection processing. First, it is determined whether or not the zoom switch 12 has been operated (S1). When the zoom switch is not pressed and the zoom position is on the telephoto side (S5), the focus on the current photographing subject is determined by autofocus. The focus lens is driven to a suitable position. At this time, the focus optimum position storage unit 9 keeps storing and updating the continuously changing focus position information (S6).

Next, zooming is performed to the wide-angle side by the zoom switch 12, and thereafter, zooming to the telephoto side is performed by the zoom switch 12 (S
1) If the high-speed zoom switch 11 is OFF (S2), the zoom tracking control unit 7 and the focus drive method selection unit 8 select the conventional auto-focus zoom tracking method (S4), and the tracking table storage unit 10 A tracking calculation is performed based on the stored zoom tracking information and the contrast component from the video signal processing circuit 6 to control the focus lens driving unit 13 and the zoom lens driving unit. The zoom tracking characteristic at this time is a characteristic as indicated by L3 in FIG.

In S2, if the high-speed zoom switch 11 is ON, the high-speed zoom tracking method (optimal focus method) is selected (S3), and the zoom tracking information stored in the tracking table storage unit 10 is read. The focus lens drive unit 13 and the zoom lens drive unit 14 are controlled so that the ratio of “β / α” is maintained between the tracking curves L1 and L2 stored in the focus optimum position storage unit 9, and the zoom lens group 2 And the focus lens group 4 are operated. The zoom tracking characteristic at this time is a characteristic as indicated by L4 in FIG.

When the zoom is stopped, a high-speed search operation may be performed by auto-focusing so as to cope with the possibility that the subject distance is largely changed. And again,
The optimum focus position storage unit 9 stores and updates the focus lens position information, and repeats the following procedure.

As described above, according to the present embodiment, when performing high-speed zoom, the zoom tracking information stored in the tracking table storage unit 10 and the tracking curves L1 and L2 stored in the optimal focus position storage unit 9 are used.
By controlling the focus lens drive unit 13 and the zoom lens drive unit 14 so as to maintain the above-mentioned ratio of “β / α”, a focus operation can be performed well even in high-speed zoom.

[0027]

As described above, according to the present invention, there is obtained an effect that the tracking operation with the optimum focus position can be realized during the high-speed autofocus zooming.

[Brief description of the drawings]

FIG. 1 is a block diagram of a high-speed zoom tracking device according to an embodiment of the present invention.

FIG. 2 is a characteristic diagram showing a tracking curve in a zoom operation.

FIG. 3 is a flowchart of a tracking method selection process according to the embodiment;

FIG. 4 is a main part characteristic diagram of focus position storage information according to the embodiment;

FIG. 5 is a characteristic diagram showing a conventional autofocus zoom tracking operation.

FIG. 6 is a characteristic diagram showing an auto-focus zoom tracking operation in the high-speed zoom tracking device according to the embodiment;

[Explanation of symbols]

 Reference Signs List 2 zoom lens group 4 focus lens group 5 image sensor 6 video signal processing circuit 7 zoom tracking control unit 8 focus drive system selection unit 9 optimal focus position storage unit 10 tracking table storage unit

Claims (1)

[Claims] 1. A zooming operation is possible on a telephoto side and a wide-angle side at a first speed and a second speed higher than the first speed, and a high-speed focusing operation according to the zooming operation is possible. An imaging means for converting an optical signal from a subject into an electric signal, which is a zoom tracking device,
Video signal processing means for separating a contrast component based on an electric signal from the imaging means; tracking table storage means having a plurality of data of zoom tracking characteristics corresponding to a predetermined subject distance; and contrast from the video signal processing means. A zoom tracking control unit capable of controlling a zooming operation and a focusing operation based on the components and the tracking data from the tracking table storage unit, and when performing zooming at the second speed, the zoom tracking characteristic according to the subject distance is adjusted. A high-speed zoom tracking apparatus characterized in that zoom tracking is performed with a zoom tracking characteristic different from the zoom tracking characteristic of the tracking table storage means.