KR940003041B1 - Mode exchanging circuit - Google Patents

Abstract

The mode converting circuit includes a photosensor attached to the cover of a camera lens for sensing the amount of light, and a signal generator for inputting a signal for performing a camera mode to a microcomputer, thereby enabling simple and instant recording of a video signal.

Description

Mode conversion circuit

1 is a block diagram showing a conventional mode conversion circuit.

2 is a side view showing the attachment state of the optical sensor according to the present invention.

3 is a detailed circuit diagram showing a mode conversion circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Micom 2: DC / DC converter

3: VTR section 4: camera section

10: optical sensor 20: signal generating circuit

AND: AND gate INV1: inverter

OR: Oa Gate SW1: Slide Switch

VTR, CAM1, C1: output signal

The present invention relates to a video camera capable of recording and reproducing an input video signal. More particularly, the present invention relates to a mode conversion circuit capable of recording an instantaneous video signal by converting a mode according to whether or not a lens cap of a camera is used. .

Conventionally, as shown in FIG. 1, a video tape recorder (hereinafter, abbreviated as VTR) mode or a camera switch of the slide switch SW1 and the signal selected by the system according to the selection of the slide switch SW1 Selected according to the output microcomputer (1), the power input from the microcomputer (1), the DC / DC converter (2) is converted into the power required for each mode, and the power input from the DC / DC converter (2) It consists of the VTR part 3 and the camera part 4 which a mode is operated. In the conventional video camera configured as described above, when the VTR mode of the slide switch SW1 is selected, a signal VTR for selecting the VTR is output from the microcomputer 1 and output from the microcomputer 1. The power inputted according to the signal is converted into the power required for the camera mode (5V) by the signal inputted to the DC / DC converter 2, and the converted power is applied to the camera unit 4 to operate the camera mode. . Therefore, the slide switch is switched when selecting the camera mode, and the standby state of the camera mode is completed only by opening the lens cap attached to the front of the camera. The conventional solution for eliminating the inconvenience of the slide switch switching as described above is configured such that power is supplied to the camera unit at the same time as the handle portion of the video camera. However, in the conventional video camera, the mode conversion is a problem that the camera mode operation is performed by the user's slide switch switching or the contact of the handle and the lens cap is opened, and the time taken for the video signal to be captured momentarily is considerably longer. there was.

The present invention is to solve such a problem, an object of the present invention is to provide a mode conversion circuit in which the camera mode is performed by the presence or absence of light input when switching the slide switch or opening the lens cap. In order to achieve the above object, the present invention provides a video camera in which power input through a slide switch is transmitted to a video tape recorder or a camera, and a selected mode is performed. When the video tape recorder mode is selected from the optical switch and the slide switch, a signal for inputting the camera signal to the microcomputer by the output signal of the microcomputer and the signal input through the optical sensor is always output. It is characterized by consisting of the generating means and.

Hereinafter, a mode conversion circuit according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 2 is a side view showing a state in which the optical sensor according to the present invention is attached to the cap of the lens, the optical sensor 10 is connected to the lens cap LC and the power supply terminal of the main body SYS. 3 is a detailed circuit diagram showing a mode conversion circuit according to the present invention. Here, SW1 is a slide switch for mode conversion, and 1 is a microcomputer to output signals VTR and CAM1 for driving the mode according to the selected mode input through the slide switch SW1. In this case, a signal configured to select a camera mode from a signal C1 output from the microcomputer 1 and a signal input through the optical sensor 10 of FIG. 2 is output and applied to the microcomputer 1. The generation circuit 20 is connected. The signal generation circuit 20 includes an inverter INV1 in which the signal C1 output from the microcomputer 1 is inverted, a high signal output when light is input to the optical sensor 10, and the inverter INV1. The AND gate AND is combined with the signal output from the signal, and the OR gate OR is combined with the signal output from the AND gate AND and the signal CAM1 output from the microcomputer 1. . On the other hand, the DC / DC converter 2 is converted to the power required for each mode by the signal output from the microcomputer 1 is connected to the output side of the microcomputer 1, the DC / DC converter ( On the output side of 2), the converted power is input, and is composed of a VTR unit 3 and a camera unit 4 in which a selected mode is performed. In the mode conversion circuit configured as described above, when the cap of the lens is opened and light is input, a high signal is output from the optical sensor 10, and the output high signal is an AND gate of the signal generation circuit 20. ) Is applied to one terminal. In this case, when the video mode of the slide switch SW1 is selected, the output signal C1 of the microcomputer 1 is output as a high signal, and the output high signal is transmitted through the inverter INV1 of the signal generation circuit 20. Is reversed. The low signal inverted by the inverter INV1 and the high signal output through the optical sensor 10 are applied to the AND gate AND of the signal generation circuit 20 to be output as a low signal, and the output low signal. And the signal CAM1 output through the microcomputer 1 are output as a high signal by the OR gate of the signal generation circuit 20, and the output high signal is applied to the microcomputer 1. The signal to be performed in the camera mode is output. The signal output from the microcomputer 1 is converted into power required by the DC / DC converter 2, and the converted power is applied to the camera unit 4 to perform a camera mode. That is, the VTR mode of the slide switch SW1 is selected, and the camera mode is performed by light input through the lens when the lens cap is open. On the other hand, the case where the VTR mode of the slide switch SW1 is selected and the lens cap is closed will be described. When the VTR mode of the slide switch SW1 is selected, the output signal C1 of the microcomputer 1 is output as a high signal, and the output high signal is output by the inverter INV1 of the signal generation circuit 20. Is reversed. The inverted signal C1 bar is applied to the AND gate AND of the signal generation circuit 20, and a low signal output from the optical sensor 10 is also applied to the AND gate AND to be output as a low signal. . The output low signal and the low signal CAM1 output from the microcomputer 1 are output as low signals by the OR gate OR, and the output low signal is input to the microcomputer 1 and the microcomputer 1 The select signal VTR of the VTR mode is output. The signal VTR output from the microcomputer 1 and the input power are applied to the DC / DC converter 2 and converted into DC power required in the VTR mode, and the converted power is applied to the VTR unit 3. VTR mode is operated.

As described above, the present invention provides power to the camera unit by light input through the optical sensor of the lens cap connected to the main body of the video camera, and the camera mode is opened by opening the lens cap regardless of the selection of the slide switch. Since the setting of the camera mode is easy, the instantaneous video signal can be recorded.

Claims (2)

A video camera in which power input through a slide switch is transmitted to a video tape recorder or a camera to perform a selected mode, respectively, comprising: an optical sensor 10 which is attached to a lens cap of a camera and senses an input amount of light, and the slide switch When the video tape recorder mode is selected from SW1, a signal for allowing the camera mode to be performed by the output signal C1 of the microcomputer 1 and the signal input through the optical sensor 10 is always output. A signal conversion means (20) input to the microcomputer (10), and a mode conversion circuit consisting of. 2. The signal generating means (20) according to claim 1, wherein the signal generating means (20) includes an inverter (INV1) in which the signal (C1) output from the microcomputer (1) is inverted, a signal output from the optical sensor (10), and an inverter (INV1). When the signal output from the high signal is at the same time, the AND gate (AND) output as a high signal, the signal output from the AND gate (AND) and the signal output from the signal (CAM1) output from the microcomputer 1 at the same time In case of a low signal, an OR gate outputted as a low signal and a mode conversion circuit consisting of.