KR101169017B1 - Day and night auto switching type cctv camera using for high resolution cmos - Google Patents

Abstract

PURPOSE: A day and night auto-switching mode monitoring camera using a high resolution CMOS camera is provided to automatically switch a mode according to the amount of surrounding light. CONSTITUTION: An encoder(11) converts a digital image signal into an analog signal wherein the digital image signal is transmitted from a high resolution CMOS camera(10). An ISP(Image Signal Processor)(22) transmits a clear analog image signal to a second video amplifier(23) through a noise cancellation process. A first video amplifier(12) and the second video amplifier amplify signals outputted from the encoder and the ISP. A video switch(40) switches the amplified signal by a control signal of a CdS circuit unit(50).

Description

Day and night auto switching type CCTV camera using for high resolution CMOS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infrared camera capable of photographing at night using infrared ray (IR) LEDs, and in particular, having a high resolution CMOS camera for daytime and a CCD camera for nighttime, each of which automatically switches according to the amount of ambient light to provide an image signal. The present invention relates to a day and night automatic switching surveillance camera with a high resolution CMOS camera which can always obtain an optimal clear image by outputting the.

In general, security surveillance cameras (closed circuit television cameras) photograph certain places or objects that are far away and send them to the closed circuit television so that abnormalities of the photographed places or objects can be checked on the closed circuit television without going to the field. As a photographing device, a variety of uses have been diversified in buildings, parking lots, apartment complexes, and the like, as well as general surveillance cameras for improving the efficiency of management and expenses, as well as automobile safety devices.

Recent security surveillance cameras are generally equipped with a plurality of Infrared Rays Light Emitting Diodes (IR LEDs) that supplement the amount of light of the lens by irradiating infrared rays forward from both sides of the lens, thereby recognizing human vision. Even in the dark night without a separate lighting device can be performed security surveillance.

The camera industry replaced the conventional film camera and changed to a digital camera using a charge-coupled device (CCD) device.

The CCD is an abbreviation of the term meaning a solid-state image pickup device, a 6mm x 4mm photoelectric conversion sensor that converts light into an electrical signal, and stores a photoelectric conversion portion and a converted charge that convert light into an electrical signal. The principle of operation is that the intensity of light from the lens is first recorded on the CCD (equivalent to the film of the optical camera), and the light of the captured image is transferred to the RGB color filter attached to the CCD. By different colors.

The separated color is then converted into an electrical signal from the hundreds of thousands of optical sensors that make up the CCD (410,000 pixel digital cameras have 410,000 optical sensors attached to it), and the analog signal from the CCD The video signal is converted into 0 and 1 digital signal, and is output through the monitor. However, the sensitivity and image quality are high, while the circuit integration is difficult, resulting in high production cost.

Conventional security surveillance cameras (Day & Night) using color CCD at the same time during the day and night, reproduces the image in color during the day and the image recorded in color at night is switched to the monochrome mode by software. .

However, in general, the sensitivity characteristic of color CCD is 1.5 (LUX), and the monochrome CCD is 0.15 (LUX). When shooting at night, the color CCD shows a much lower image than the monochrome CCD. While there was an advantage of displaying vivid color reproducibility during daytime photography, color noise caused by color burst appeared during nighttime photography, which prevented the camera from properly serving as a surveillance camera. As a result, problems caused by focus shift due to different wavelengths of visible and infrared bands have occurred.

The color burst is a specific signal component having several periods in front of the video signal, and is used as a reference signal indicating gain of the color video signal. Rather, it acts as color noise.

On the other hand, a camera using a complementary metal oxide semiconductor (CMOS) device refers to a camera that receives light from a subject and converts an analog signal into a digital signal therein to output a digital image signal.

In this case, the conventional CMOS camera is easy to mass-produce and have low power consumption (1/10 of the CCD) due to high integration of the circuit with the encoder embedded therein, while noise characteristics (especially low light measurement at night) Due to this fall, it has been mainly used in low-quality low-cost digital input devices, but recently, the performance has been greatly improved, and in particular, when the amount of ambient light is sufficient, the image quality is not inferior to that of the CCD.

However, such a CMOS camera has a problem in that it is not suitable for a surveillance camera that requires a clear image because it is intended for simple photography.

The present invention is to solve the above problems, in particular, having a high-definition CMOS camera and a night CCD camera for each day in one body to automatically switch and output according to the amount of ambient light to always obtain an optimal clear image Its purpose is to provide a day and night automatic switching surveillance camera with high resolution CMOS camera.

In addition, day and night with a high resolution CMOS camera that converts images captured by a high resolution CMOS camera into an analog signal in a separate encoder and acquires clear daytime surveillance images through the algorithm of the first EEPROM that processes the images according to the surrounding environment. An object of the present invention is to provide an automatic switching surveillance camera.

Day and night automatic switching monitoring camera to which the high-resolution CMOS camera according to the present invention is applied according to the amount of ambient light sensed by the CdS generates a predetermined electrical signal in the CdS circuit unit and transmits to the LED driver module, in the LED driver module In the surveillance camera that operates the IR LED (IR LED) when the amount of ambient light is less than the set value, it is installed on the front of the body 1 so that the front can be photographed, one side of the CdS (50a) for detecting the ambient illumination and A high resolution CMOS camera and a CCD camera provided with a remote controller receiving unit 70 for receiving an external radio signal, the plurality of IR LEDs 52 being radially installed for night photographing; An encoder for converting the digital video signal transmitted from the high resolution CMOS camera into an analog signal through a signal processing algorithm stored in a first EEPROM; An AGC (Auto Gain Control) for automatically controlling the gain of the analog video signal transmitted from the CCD camera and an ISP for converting the signal controlled by the AGC to a video signal without noise by comparing the data value stored in the second EEPROM ( An image signal processor; First and second video amplifiers for amplifying signals output from the encoder and the ISP; It is characterized in that it comprises a video switch for switching the signals amplified in the first and second video amplifiers according to the control signal of the CdS circuit unit to distinguish between day and night.

Day and night automatic switching surveillance cameras to which the high resolution CMOS camera according to the present invention is applied are provided with a high resolution CMOS camera for day and a CCD camera for night, respectively, in one body, and through the video switch according to the control signal of the CdS circuit unit By selectively outputting the image signal captured by the high-resolution CMOS camera and CCD camera according to the amount of light, there is an effect that can always obtain the optimal clear image.

1 is a front view of a surveillance camera implemented a day and night automatic switching function is applied high resolution CMOS camera according to the present invention,
Figure 2 is a block diagram schematically showing the configuration of the surveillance camera implemented the day and night automatic switching function to which the high resolution CMOS camera according to the present invention,
3 is a perspective view schematically showing an internal configuration of a camera as an embodiment of the present invention;
4 is a schematic diagram schematically illustrating a connection method for partial enlargement and signal input / output of the key adjustment panel shown in FIG. 3;

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Day and night automatic switching monitoring camera to which a high resolution CMOS camera according to the present invention is applied, a high resolution CMOS camera 10 for daytime photographing and a CCD for night photographing as shown in FIG. The technical features of the camera 20 are implemented at the same time.

At this time, a plurality of IR LEDs (IR LEDs) are integrally included around the cameras 10 and 20 to secure night illumination, and the surroundings of the cameras 10 and 20 can sense the illumination of the surroundings. A remote control receiver 70 is provided to receive a wireless signal transmitted from the CdS 50a and an external remote controller.

In this case, the present invention selectively outputs the image information captured by the high-resolution CMOS camera 10 and the CCD camera 20 according to the peripheral illumination as shown in FIG. 2 to obtain more clear image information Is implemented.

That is, the ambient light is detected by the CdS 50a of the CdS circuit unit 50, and the CdS circuit unit 50 generates a control signal for distinguishing the day and night according to the amount of light, thereby providing a high resolution CMOS camera 10 or a CCD camera. The video information photographed at 20 is selectively output through a video switch to be described later.

At this time, at night, a specific control signal is generated to turn on the IR LED (IR LED) through the LED driver module 51.

In one embodiment of the present invention, a high resolution CMOS camera having a resolution of 1440 x 1024 or higher, and a color CCD camera of 270K or 410K pixels or more that reproduces 480 or 600 TV lines, and images captured by the color CCD The signal removes a color burst that generates color noise at an ISP described later. Of course, a black and white CCD may be used instead of the color CCD.

In addition, it is also possible to adopt a high-definition CMOS camera with a high resolution of 1027X768, 1280X960, 1920X1080 for clearer shooting during the day.

Since the video signal photographed by the high resolution CMOS camera 10 is a digital signal, an encoder 11 converts the digital video signal into an analog signal according to an algorithm programmed in advance in the first EEPROM 31 to convert the first video into a first video. The first video amplifier 12 amplifies a video signal to be output to an external monitor (not shown).

On the other hand, since the video signal photographed by the CCD camera 20 is an analog signal, it is transmitted to the AGC (Auto Gain Control) 21 without a separate conversion process, and the AGC 50 passes through a predetermined signal processing process to the CCD camera. Various gains are optimally controlled according to the amount of light incident on the beam 20, and are transmitted to the ISP (Image Signal Processor) 22. The ISP 22 according to the algorithm pre-programmed in the second EEPROM 32. After passing through a predetermined signal processing process to remove noise, a clear analog video signal is transmitted to a second video amplifier 22, and the second video amplifier 23 is output to an external monitor (not shown). Amplify the video signal so that it can be.

In this case, only one of the video amplifiers 12 and 23 is selectively output through a switching process of the video switch 40 according to the control signal of the CdS circuit unit 50.

For example, the CdS circuit unit 50 outputs 'low' when the amount of light incident on the CdS 50a is greater than or equal to the reference value, and outputs 'high' when it is less than or equal to the reference value, and the CdS circuit unit is output by the video switch 40. When 'low' is input at 50, the image signal photographed by the high resolution CMOS camera 10 is output. When 'high' is input by the CdS circuit unit 50, the image signal captured by the CCD camera 20 is output. Will print.

Therefore, the external monitor outputs the video signal of the high resolution CMOS camera 10 during the day by the video switch 40, and the IR LED lit through the LED driver module 51 lights up at night. In this state, the video signal photographed by the CCD camera 20 is output.

The video amplifiers 12 and 23 are a type of image amplifier IC used as an embodiment for amplifying a video signal in the present invention. In the present invention, the Y signal amplification is 6 dB, the C signal amplification is 10 dB, and the composite signal is It uses MITSUMI's product with a chroma mute input that can amplify 6dB and eliminate color bursts on port 6.

In addition, as an example of a CCD, a sample test was conducted using a dual 1/3 ˝ 410,000 pixel SONY Super HAD IT CCD, which is a color CCD, and when the IR LED is turned on, the second video amplifier 23 is used. By virtue of muting the burst signal through a color killer circuit, a sharper picture quality is realized.

Figure 3 is a perspective view schematically showing the internal configuration of the surveillance camera according to the present invention, the front of the cylindrical body 1 made of a plurality of LEDs 52 and the CdS (50a) for sensing the ambient illumination and the outside Remote control receiver 70 for receiving a wireless signal of the high resolution CMOS camera 10 and CCD camera 20 for photographing the front is provided, respectively.

The CdS 50a transmits a predetermined electrical signal to the CdS circuit unit 50 according to the ambient illuminance to light up the ID LED 52, and the remote control receiver 70 controls a control signal transmitted by a manager through a remote controller. It is delivered to the control panel 5 including the CAPI oil, to enable the remote control of the surveillance camera of the present invention.

In addition, the front panel (2) in which each electronic component is installed inside the body (1), the camera panel (3) for converting images captured by a plurality of cameras into video signals, and supplying power to each electronic component A power panel 4, a control panel 5 equipped with a CPU and a multiplexer (MUX), and a key adjusting panel 6 provided with a plurality of function switches for changing adjustment values, Each of the components is connected to the rear cover 12 by a support shaft 8.

In this case, since each component is installed at a predetermined distance apart for the installed electronic components or cables, between the front cover 2 and the rear cover 9 coupled to the rear surface of the body 1 to improve overall coupling stability. The intermediate support 7 is provided with a plurality of through holes (not shown) on the side.

Accordingly, the plurality of support shafts 8 inserted through the through holes of the intermediate support 7 cover the front panel 2, the camera panel 3, the power panel 4, and the control panel 5 with the rear cover ( 12) is firmly supported. Of course, the auxiliary support shaft (not shown) can be installed between the adjacent panels in addition to the support shaft (8).

And, as shown in Figure 4, by forming a through hole (not shown) in the center of the rear cover 12 is configured to expose a plurality of control devices provided in the key (pan) adjustment panel (6) to the outside.

In one embodiment of the present invention, the key adjustment panel 60 has a function switch 61 for adjusting the LED brightness for screen brightness of the surveillance camera, and a control knob for adjusting the volume of the aperture (DC Iris). 62, a moving stick 64 for moving the image captured by the camera in front, rear, left and right, and an enlargement switch 65 for enlarging the captured screen.

In addition, an external input port 63 for receiving an external video signal and transmitting it to a multiplexer (not shown) provided in the control panel 5 and a signal for an external sensor to be described later are provided in the control panel 5. A sensor input port 66 may be provided to the CPI (not shown), and an output port 67 may be provided to output a photographed image signal to a test monitor described later.

Since the functions and signal processing operations of the CPU and the multiplexer (MUX) included in the control panel 4 have been described in detail in the patent application No. 10-2010-96971 of the present applicant, the following description will be given. Omit.

As described above, the present invention provides a video signal of the daytime high resolution CMOS camera 10 or the night CCD camera 20 fixedly installed on the body, and an image signal of an externally installed external camera input through an external input port 63. By simultaneously inputting to the multiplexer of the control panel 4, it is possible to display a variety of images to the monitor multiple display by the PIP function.

On the other hand, according to the present invention, even after the surveillance camera is installed, the reference value (ambient brightness, gain, aperture value) of the camera can be easily controlled through the function switch 61 and the adjusting knob 62 according to the change of the surrounding environment. By transferring the values selected by the moving stick 64 and the enlargement switch 65 to CPI, the camera moves or enlarges the image captured by the camera and checks the image on the test monitor to set the exact position of the camera.

In addition, the present invention is provided with the remote control receiver 70, so that the administrator can control the reference value (ambient brightness, gain, aperture value) of the camera and the position and size of the video signal output to the monitor with a remote control (not shown) It can be freely wireless control, in addition to the remote control by the communication means (for example, RS485 communication) by a separate wire is, of course.

The present invention as described above is not limited to the above-described specific embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various changes without departing from the gist of the present invention as claimed in the claims. will be.

1: Body 2: Front Panel
3: camera panel 4: power panel
5: control panel 6: key adjustment panel
7: intermediate support 8: support shaft
9: rear cover
10: high resolution CMOS camera 11: encoder (ENCODER)
12: Video AMP
20: CCD camera 21: AGC
22: ISP 23: second video amplifier (VIDEO AMP)
31: first EEPROM 32: second EEPROM
40: VIDEO SWITCH
50: CdS circuit part 50a: CdS
51: LED driver module (LED driver module)
52: IR LED
60: key adjustment panel 61: function switch
62: adjusting knob 63: external input port
64: moving stick 65: enlargement switch
66: sensor input port 67: output port
70: remote control receiver

Claims (3)

According to the amount of ambient light detected by CdS, the CdS circuit unit generates a predetermined electrical signal and transmits it to the LED driver module. The LED driver module operates an IR LED when the amount of ambient light is less than a set value. To
It is installed on the front of the body (1) so that the front can be photographed, one side is provided with a CdS (50a) for detecting the ambient illumination and a remote control receiver 70 for receiving an external radio signal, a plurality of for night shooting A high resolution CMOS camera and a CCD camera radially provided with an IR LED 52;
An encoder for converting the digital video signal transmitted from the high resolution CMOS camera into an analog signal through a signal processing algorithm stored in a first EEPROM;
An AGC (Auto Gain Control) for automatically controlling the gain of the analog video signal transmitted from the CCD camera and an ISP for converting the signal controlled by the AGC to a video signal without noise by comparing the data value stored in the second EEPROM ( An image signal processor;
First and second video amplifiers for amplifying signals output from the encoder and the ISP;
A video switch for switching the signals amplified by the first and second video amplifiers according to a control signal of a CdS circuit part and distinguishing day and night;
Day and night automatic switching monitoring camera applied high resolution CMOS camera, characterized in that is configured to include.
The method of claim 1,
The high resolution CMOS camera is composed of a high resolution CMOS device of 1.5 M pixels or more with 1440 × 1024 resolution for clear daytime shooting,
The CCD camera is a day-and-night automatic switching monitoring camera with a high-resolution CMOS camera, characterized in that made of a CCD device of 270K or 410K pixels or more capable of clear nighttime shooting with excellent low light characteristics.
The method of claim 1,
The CdS circuit unit outputs 'low' when the amount of light incident on the CdS is greater than or equal to the reference value, and outputs 'high' when it is less than or equal to the reference value.
The video switch outputs an image signal photographed by a high resolution CMOS camera when 'low' is input from the CdS circuit unit, and outputs an image signal photographed by a CCD camera when 'high' is input from the CdS circuit unit. Day and night automatic switching camera with high resolution CMOS camera.

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