Unique digital to digital image processing technology without video loss

Most of standard lower cost IP cameras are using existing regular camera module with IP video server. The regular camera module has huge video loss from the image processing step to analog signal. A low cost IP camera is converting this low quality video to an IP signal, so that the converted image quality is poor even though their specs don't represent. However, AVS MPix13 converts the raw digital signal from CCD to IP signal directly to achieve high quality video. This high tech image processing could be found from a few big security manufacturers like SONY and AXIS.

Finally the camera make perfect at night

• High Resolution (Color: 580 TV Lines, B/W: 700 TV Lines @ F1.4)
• Min. Illumination: 0,00004 Lux (50 x IRE by Sens-up x 256)
• 1/3" Sony new High Sensitivity SUPER HAD CCD
• SENS DSP
• Mechanically switching IR cut filter (ICR)
3D noise filter SSNRII for clear low light images
• High Light Compensation (HLC)
• DC12V (500mA) or AC24V : Dual Voltage

High quality color images of 580TV Lines

High quality color image of 580 TV Lines The SENS camera delivers high quality 580 TV lines image utilizing a unique image processing technology found only in AVS SENS DSP.

Superior Digital Wide Dynamic Range (D-WDR)

The D-WDR feature in AVS SENS allows a camera to filter the intense back light surrounding a subject and thus enhances the ability to distinguish features and shapes on the subject. WDR cameras are usually recommended for situations where light enters a premise from various angles such as a multi-window room, A camera placed on the inside of the room will be able to see through the intense sunlight or artificial light coming in. If an indoor security camera is pointed towards a window or an entrance door, you will see the background washed out during daytime. This is very common situation in restaurants and stores which have big glass windows

Progressive Scan CCD

Interlaced scan means the lines that make up the picture on your screen are drawn in an alternating fashion. In the U.S., first the even lines appear on the screen, and then the odd lines appear. The slight delay between odd and even line refreshes creates some distortion or “jaggedness” This is because only half the line keeps up with the moving image while the other half waits to be refreshed. The disadvantage of interlaced scanning becomes vivid in the still image of the moving object. Unlike interlaced scan CCD, progressive scan CCD scans the entire picture line by line. In other words, captured images are not split into separate fields like in interlaced scanning. Therefore, the distortion or “Jaggedness” will not be seen on progressively scanned image. However, a high quality monitor is required to get the best out of this type of scan. AVS MPix13 series uses a progressive scan CCD to deliver the best image to the network video recorder.