KR900005314Y1 - Autofocus checking ckt for video camera - Google Patents

Abstract

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Description

Video camera autofocus check circuit

The accompanying drawings are circuit diagrams of the present invention.

* Explanation of symbols for main parts of the drawings

10: auto focus check switching unit 20: infrared driving unit

30: autofocus motor drive unit 40: infrared detection unit

50: external noise detection unit 60: focus manual switching unit

21: infrared driving stage 31: motor driving stage

41: light receiving element 42: analog integrated circuit

61: microcomputer SW ₁ , SW ₂ : switch

G ₁ : Oagate OP ₁ , OP ₂ : Operational Amplifier

D ₁ : Infrared light emitting diode D ₂ : Light emitting diode

M: Motor VR ₁ : Variable resistor

The present invention relates to a malfunction prevention circuit caused by external noise of an infrared oppo focus lens in a video camera.

In the conventional video camera, the infrared light emitted at 7KHz is received by the infrared sensing unit during autofocus operation to supply two DC outputs to the autofocus motor driving stage to drive the autofocus motor, but the infrared noise is mixed. Autofocus malfunctioned. This is due to the presence of infrared noise at all times around the autofocus lens, because the frequency of the pulse changes due to the mixing of infrared noise when the emitted infrared rays are reflected at the subject by pulsed at about 7KHz for distance measurement. .

The present invention was devised to improve the auto focus malfunction of the video camera described above. When the autofocus malfunction function is large due to external noise, the user is automatically switched to the manual mode while warning the user. It is an object of the present invention to provide an autofocus check circuit which prevents malfunctions of the autofocus so that an image can always be composed of a clear focus.

In order to achieve the above object, the present invention is configured to warn through an adder and a comparator in an external noise detector using a DC level output of an infrared light receiver, and to switch from auto focus to manual focus by a microcomputer.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention consists of an autofocus check switching unit (10), an infrared driver (20), an autofocus motor driver (30), an infrared detector (40), an external noise detector (50), and a manual focus switch (60). The autofocus check switching unit 10 is configured to apply power to the bases of the transistors Q _{1 to} Q _{3 of the} respective units when the switch SW ₁ is turned on, and the infrared driving unit 20 is the microcomputer 61. The infrared light emitting diode D ₁ is operated by the infrared driving stage 21 connected to the LED, and the infrared light emitting diode D ₁ is cut off by the turn-on of the transistor Q ₁ , and the autofocus motor driver 30 ) Is configured to drive the focus motor M by the motor driving stage 31 and stop driving the focus motor M by the turn-on of the transistor Q ₂ , and the infrared sensing unit 40 includes the light receiving element 41. To receive infrared light reflected from the subject It is configured to output two DC level outputs, A and B, to the autofocus motor driver 30 and the external noise detector 50 through the log integrated circuit 42. The external noise detector 50 is an infrared detector. The two outputs of 40 are added by the adder and compared to the preset voltage by the comparator so that the light emitting diode D ₂ is turned on or off when the transistor Q ₃ is turned on, and the manual and automatic switching of the focus state is also performed. It is connected to the OA gate (G ₁ ) input terminal of the focus manual switching unit 60, the focus manual switching unit 60 is a high output signal of the external noise detection unit 50 or a high signal of the manual switching switch (SW ₂ ) The microcomputer 61 is driven through the oragate G ₁ to stop the auto focus mode and to perform the manual focus mode.

The operation of the invented circuit having the above configuration along the flow of the signal, when turning on the takteu switch (SW ₁₎ of the autofocus check switching unit 10 to check the possibility of auto-focus mode of the erroneous operation from the power The high signal is applied to the bases of the transistors Q ₁ -Q ₃ , and the transistor Q ₁ is turned on at the instant when the tact switch SW ₁ is turned on in the infrared driver 20 so that the infrared light emitting diode D ₁ is turned on. It will stop emitting infrared light. In addition, in the autofocus motor driver 30, the transistor Q ₂ is turned on the moment the duct switch SW ₂ is pressed, thereby stopping the rotation of the motor M.

Meanwhile, the infrared detecting unit 40 detects the amount of infrared rays regardless of the output of the autofocus check switching unit 10 and outputs two DC voltages corresponding to a specified frequency component, and the infrared detecting unit 40 ) Is applied to the external noise detector 50 and added by an adder consisting of operational amplifiers OP ₁ and resistors R ₃ -R ₅ to be applied as a non-inverting terminal of the operational operational amplifier OP ₂ . It is compared with the preset voltage applied to the inverting terminal. At this time, when a high signal is output to the output terminal of the operational amplifier OP ₂ due to external noise by comparing the preset voltage with the addition voltage of the infrared sensing unit 40 output, the tact switch SW ₁ at the base of the transistor Q ₃ . ) Is turned on and a high signal is applied, so that transistor Q ₃ is turned on to warn the autofocus of malfunction due to external noise by light emitting diode D ₂ , and at the same time, high signal to focus manual switch 60. In this case, the focus manual switching unit 60 switches from the autofocus to the manual focus mode by applying the high output signal of the external noise detection unit 50 to the microcomputer 61 through the oragate G ₁ . .

On the other hand, even when the tact switch SW ₁ of the autofocus check switching unit 10 is turned on, the output of the operational amplifier OP ₂ maintains a low signal when the infrared frequency received from the infrared sensing unit 40 is normal without noise. The light emitting diode D ₂ does not grow and the focus manual switching 60 does not operate either.

According to the circuit of the present invention as described above, the autofocus state can be checked by simple switch operation, and the inconvenience of conventionally checking the autofocus state through the playback screen or the view finder screen, By automatically switching to the manual focus mode, there is an advantage in that it is possible to perform convenience and function improvement and to perform screen shooting of a clear state at all times.

Claims (1)

In an autofocus circuit of a video camera that emits infrared rays and detects infrared rays reflected from a subject to drive a focus motor, the infrared driver 20 when the switch SW1 is turned on to check autofocus in autofocus mode. ), An autofocus check switching unit 10 for supplying power to the autofocus motor driving unit 30 and the external noise detection unit 50, and a switch SW ₁ of the autofocus check switching unit 10. The transistor Q2 is driven by an infrared driver 20 for driving (Q ₁ ) to stop infrared development of the infrared light emitting diode D1 and a switch SW1 of the autofocus check switching unit 10. After detecting the amount of infrared rays emitted from the motor driving unit 30 and the infrared light emitting diode D1 by the light receiving element 41 to stop the driving of the focus motor M, the analog integrated furnace 42 is turned off. through Infrared detector 40 for outputting two DC voltages (A, B) corresponding to the specified frequency component, and the output of the infrared detector 40 is applied to the non-inverting terminal of the operational amplifier OP1 for the adder After the addition, it is input to the non-inverting terminal of the operational amplifier OP2, and the transistor Q3 is driven to drive the light emitting diode D2 in comparison with the preset voltage applied to the inverting terminal. The external noise detection unit 50 warns the malfunction of the focus to the outside, and the external noise detection unit 50 outputs the output of the oar gate G1 when the external noise detection unit and the switch SW2 are turned on. And a focus manual switching unit (60) for inputting to and applying the output to the infrared driving unit (21) of the infrared driving unit (20).