JP2620543C - - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an imaging device. 2. Description of the Related Art Conventionally, as a means for continuously changing the angle of view of a subject to be imaged, a zoom lens using optical means has been known. As for the zoom lens, the higher the zoom magnification, the higher the ability to express a video, and therefore, it is required to increase the zoom magnification. On the other hand, for example, a video camera is desirably small and lightweight because it is necessary to enhance mobility. However, in a zoom lens, the larger the zoom magnification is, the larger the shape of the lens becomes and the weight increases. There is a disadvantage that it is difficult to configure the camera to be small and lightweight. Accordingly, an object of the present invention is to provide an imaging apparatus which eliminates the above-mentioned drawbacks of the conventional apparatus, is small and lightweight, and has a large zoom magnification to improve the ability to express images. Means for Solving the Problems The present invention provides imaging means for imaging a subject, a zoom lens for changing the magnification of an image incident on the imaging means, and a first lens for detecting a limit of a magnification change of the zoom lens. Detecting means, a scanning range changing means for changing a scanning range of a screen imaged by the imaging means, a second detecting means for detecting a limit of a magnification change by the scanning range changing means, a telephoto side and a wide angle side A zoom switch for selecting the zoom position, and when the telephoto side is continuously selected by the zoom switch, the magnification change by the zoom lens is changed to the telephoto side.
The first detecting means detects that the magnification change by the zoom lens has reached the limit on the telephoto side while enlarging the image by driving the zoom lens toward the telephoto side to the limit. Then, the scanning range changing means is operated, the subject image is enlarged by changing the scanning range of the screen imaged by the imaging means, and when the wide angle side is continuously selected by the zoom switch, Until the change in magnification by the scanning range changing unit reaches the limit, the scanning range changing unit is operated to change the scanning range of the screen imaged by the imaging unit, thereby reducing the subject image, and changing the magnification by the scanning range changing unit. If the second detection means detects that the zoom lens has reached the limit, control for driving the zoom lens toward the wide angle side is subsequently performed. Selection of the telephoto side Ri by the zoom switch by providing a stage, the
By simply continuing the operation, the scanning range is automatically changed from the optical zoom operation by the zoom lens.
The zoom switch is continuously switched to an electronic zoom operation by the
Switch automatically changes the scanning range changing means just by continuing the selection operation on the wide angle side.
The present invention is characterized in that it is possible to continuously switch from a child zoom operation to an optical zoom operation by a zoom lens . In other words, the present invention controls the zoom magnification over a wide range by combining a change in the zoom magnification of the zoom lens and a change in the scanning range of the imaging unit. Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of one embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a zoom switch for selecting a telephoto side or a wide-angle side. Reference numeral 4 denotes a zoom lens, and reference numeral 3 denotes a drive circuit for driving the zoom lens to a telephoto side or a wide-angle side. Reference numeral 5 denotes a zoom position detector that generates a detection signal when the position of the zoom lens 4 reaches the telephoto end or the wide-angle end. Reference numeral 11 denotes an image sensor, and 7 denotes a scan range setting circuit for setting a scan range in the image sensor 11. Reference numeral 9 denotes a drive circuit for scanning the image sensor 11, which scans the scan range set by the scan range setting circuit 7 with respect to the image sensor 11. Reference numeral 10 denotes a scanning speed control circuit, which receives a signal 71 indicating a scanning range from the scanning range setting circuit 7 and controls the driving circuit 9 so as to keep horizontal and vertical scanning synchronization constant even when the scanning range changes. Control.
The imaging element 11 photoelectrically converts the subject light via the zoom lens 4 and is scanned by the drive circuit 9 to read out an imaging signal. Reference numeral 12 denotes a scanning range detector which receives information from the scanning range setting circuit 7 and outputs a signal 121 indicating that the scanning range is maximum when the scanning range of the image sensor 11 is maximum. A signal 122 is output indicating that the scan range is not minimum (except when the range is minimum). Reference numeral 14 denotes a synchronizing signal generating circuit which generates synchronizing signals necessary for horizontal and vertical scanning of the image sensor 11, and outputs output synchronizing signals 141 and 142 to the scanning range setting circuit 7 and the scanning speed control circuit 10, respectively. . Reference numeral 15 denotes an AND circuit, which includes a signal 101 from the zoom switch 1 indicating that the wide angle side has been selected, a signal 503 from the zoom position detector 5 indicating that the position of the zoom lens 4 is not at the wide angle end, and a scanning range When all of the signal 121 indicating that the scanning range of the image sensor 11 from the detector 12 is the maximum is input, the output signal 15 is output to the drive circuit 3.
Enter 1. The drive circuit 3 drives the zoom lens 4 to the wide angle side when the output signal 151 is input from the AND circuit 15. Numeral 16 denotes an AND circuit, when a signal 102 indicating that the telephoto side from the zoom switch 1 has been selected and a signal 501 indicating that the position of the zoom lens from the zoom position detector 5 is at the telephoto end are off. When the signal 502 and the signal 502 obtained through the inverter 510 are input together (that is, the signal 502 is input to the AND circuit 16 when the position of the zoom lens 4 is not at the telephoto end), the output signal to the drive circuit 3 is output. Enter 161. The drive circuit 3 drives the zoom lens 4 to the telephoto side when the output signal 161 is input from the AND circuit 16. Reference numeral 17 denotes an AND circuit, which includes a signal 102 indicating that the telephoto side from the zoom switch 1 has been selected, a signal 501 indicating that the position of the zoom lens 4 from the zoom position detector 5 is at the telephoto end, and scanning. The output signal 171 is input to the scan range setting circuit 7 when all of the signal 122 indicating that the scan range of the image sensor 11 is not the minimum from the range detector 12 is input. The scanning range setting circuit 7 reduces the scanning range of the image sensor 11 when the output signal 171 is input. That is, it operates to achieve the telephoto effect electronically. Reference numeral 18 denotes an AND circuit, which turns off a signal 101 indicating that the wide angle side has been selected from the zoom switch 1 and a signal 121 indicating that the scanning range of the image sensor 11 from the scanning range detector 12 is the maximum. When the signal 123 and the signal 123 obtained through the inverter 150 are input together (the signal 123 is input to the AND circuit 18 when the scanning range is not the maximum), the output signal 181 is sent to the scanning range setting circuit 7. input. The scanning range setting circuit 7 enlarges the scanning range of the image sensor 11 when the output signal 181 from the AND circuit 18 is input. That is, the electronic device operates to achieve the wide-angle effect electronically. Since the apparatus of the present invention is configured as described above, it operates as described below. When the telephoto side of the zoom switch 1 is turned on, a signal 102 indicating that the telephoto side from the switch 1 has been selected is input to the AND circuits 16 and 17. When the position of the zoom lens 4 is not at the telephoto end, the signal 502 from the zoom position detector 5 is input to the AND circuit 16, so that the drive circuit 3 drives the zoom lens 4 to the telephoto side. At this time, since the signal 501 is not input to the AND circuit 17, the scanning range does not change (the scanning range is the maximum). Therefore, the zoom operation toward the telephoto side is performed only by the operation of the zoom lens 4. When the position of the zoom lens 4 reaches the telephoto end, the signal 501 is output, so that the output signal 161 of the AND circuit 16 is turned off. Therefore, the driving of the zoom lens 4 to the telephoto side is stopped. Further, if the telephoto side of the zoom switch 1 is selected, a signal 122 indicating that the scanning range is not minimum is input to the AND circuit 17, and
The scanning range setting circuit 7 starts the operation of reducing the scanning range of the image sensor 11 according to the output signal 171 from 17. That is, when the scanning range of the image sensor 11 is reduced while the zoom lens 4 is stopped at the telephoto end, the zoom operation to the telephoto side is continued electronically. When the scanning range is minimized, the signal 122 from the scanning range detector 12 is turned off, the output signal 171 of the AND circuit 17 is turned off, and the scanning range setting circuit 7 stops the scanning range reducing operation. That is, the electronic zoom operation stops. The output signal of the AND circuit 17 can be changed by turning off the zoom switch 1.
Since 171 is turned off, the scanning range reducing operation of the scanning range setting circuit 7 stops. Next, when the wide-angle side of the zoom switch 1 is turned on, a signal 101 indicating that the wide-angle side is selected is input to the AND circuits 15 and 18. If the scanning range of the image sensor 11 is not the maximum, the signal 121 from the scanning range detector 12 is off, so that the output signal 151 of the AND circuit 15 is off, and the driving circuit 3 does not operate. And the zoom lens 4 does not operate. On the other hand, since the output signal 121 is off, the output signal 181 from the AND circuit 18 is input to the scan range setting circuit 7 to control the drive circuit 9 so as to enlarge the scan range of the image sensor 11. Thereby, the zoom lens 4
Before the operation, the zoom operation to the wide-angle side starts electronically. Unless the wide-angle side of the zoom switch 1 is turned off, the scanning range is expanded until the scanning range of the image sensor 11 is maximized. When the scanning range of the imaging element 11 is maximized, the signal 121 from the scanning range detector 12 turns on, and the output signal 181 of the AND circuit 18 turns off. Further, when the wide angle side of the zoom switch 1 is turned on, the zoom position detector 5
, A signal 121 indicating that the position of the zoom lens 4 has not reached the wide-angle end, a signal 121 and a signal 101 are input to an AND circuit 15, and an output signal 151
Is input to the drive circuit 3, and the zoom lens 4 is driven to the wide-angle side. Then, when the position of the zoom lens 4 reaches the wide-angle end, the signal 503 from the zoom position detector 5 turns off, the output signal 151 of the AND circuit 15 turns off, and the zoom operation of the zoom lens 4 toward the wide angle side is stopped. Stop. Note that the zoom operation of the zoom lens 4 to the wide angle side also stops when the wide angle side of the zoom switch 1 is turned off. Here, as the scanning range setting circuit 7, for example, an up-down counter is used. That is, for example, when the output signal 181 from the AND circuit 18 is input, the numerical value is increased each time the clock signal 141 is input from the synchronizing signal generation circuit 14, and the scanning range of the image sensor 11 is expanded. This value indicates the starting point of the scanning range of the image sensor 11, and the horizontal and vertical starting points are set to change while maintaining the aspect ratio of the imaging surface (monitor surface). The scanning speed control circuit 10 controls the scanning speed of the imaging surface so that the horizontal and vertical scanning periods are kept constant even if the scanning range changes, and for example, a phase locked loop is used. When an image pickup tube is used as the image pickup device 11, the amplitude of the sawtooth wave is controlled. Further, the scanning speed control circuit 10 receives the synchronization signal 142 from the synchronization signal generation circuit 14 and the signal 71 indicating the scanning range from the scanning range setting circuit 7 and inputs the scanning speed (the sawtooth in the case of the image pickup tube). (Wave) signal 111 is input to the drive circuit 9. In changing the scanning range of the image sensor 11, instead of changing the scanning range of the image sensor 11 itself, a signal is read from the entire surface of the image sensor 11, temporarily stored in a frame memory or a field memory, and the stored image signal is read. The same effect can be obtained by sequentially reading out at the timing of the scanning signal generated by the scanning speed control circuit 10 in accordance with the instruction of the scanning range indicated by the scanning range setting circuit 7. As described above, according to the present invention, the telephoto side selection operation by the zoom switch is performed.
From the optical zoom operation by the zoom lens to the scanning range changing means
Electronic zoom operation is continuously switched to the wide-angle side by the zoom switch.
Only by continuing the selection operation, the electronic zoom
The operation is continuously switched to the optical zoom operation by the camera lens. Therefore, the operation
Even beginners who are unfamiliar with the work can automatically zoom in while maintaining the best image quality.
Can do the work. Also, since only one zoom lens is used,
An imaging device having a large system magnification can be configured to be smaller and lighter than a conventional one.

[Brief description of the drawings]     FIG.   FIG. 2 is a block diagram showing a configuration of one embodiment of the present invention.     [Explanation of symbols]   4 Zoom lens   11 Image sensor

Claims (1)

Claims: 1. An image pickup means for picking up an image of a subject, a zoom lens for changing a magnification of an image incident on the image pickup means, and a first detection for detecting a limit of a change in the magnification of the zoom lens. Means, a scanning range changing means for changing a scanning range of a screen imaged by the imaging means, a second detecting means for detecting a limit of a magnification change by the scanning range changing means, and selecting a telephoto side and a wide angle side. a zoom switch for, in the zoom lens when the telephoto side is continued to be selected by the zoom switch
Particular magnification change due to drive toward the zoom lens to the telephoto side to the limit of the telephoto side
Therefore, while enlarging the image, when the first detecting means detects that the change in magnification by the zoom lens has reached the limit on the telephoto side, the scanning range changing means is subsequently operated, and the imaging means is operated. The subject image is enlarged by changing the scanning range of the screen captured by the above, and when the wide angle side is continuously selected by the zoom switch, the scanning range is changed until the magnification change by the scanning range changing means reaches the limit.
By operating the means and changing the scanning range of the screen imaged by the imaging means, the subject image is reduced, and the second detecting means detects that the magnification change by the scanning range changing means has reached the limit. only the self continued selection operation on the telephoto side Ri by the zoom switch by providing a control means for controlling so that subsequently the zoom lens is driven toward the wide angle side when it is
From the dynamic zoom operation by the dynamic zoom lens to the electronic by the scanning range changing means
The zoom switch is continuously switched to a typical zoom operation, and the wide-angle side is selected by the zoom switch.
Only by continuing the selection operation, automatically from the electronic zoom operation by the scanning range change means
An imaging apparatus characterized in that it can be continuously switched to an optical zoom operation by a zoom lens .