Vivotek FD8169 2MP 15M IR 3DNR Fixed Dome Network Camera The simple-to-use roof network camera Vivotek FD8169 2MP 15M IR 3DNR Fixed Dome Network Camera is specially designed for indoor surveillance with solid, sleek, and stylish exterior. The 2 Megapixel 15M IR 3DNR Fixed Dome Network Camera is equipped with CMOS Sensor supporting image viewing at a resolution of 1920x1080 at a smooth 30 fps. This compact network dome delivers exceptional quality and high-resolution videos up to 2 Megapixel. Vivotek FD8169 works at a Real-time H.264 and MJPEG Compression (Dual Codec) reducing the file sizes and works on a remarkable low bandwidth. Additionally, the removable IR-cut Filter for Day & Night function help the images and videos to be captured in clear precision. Integrating numerous advanced features the FD8169 supports ONVIF Standard to simplify integration and enhance interoperability and 3D noise reduction.
Furthermore, to emphasize the image quality the FD8169 has built-in IR illuminators that remain effective up to 15 meters delivering sharp and bright images and transmits to various devices like Micro SD/SDHC/SDXC card slot, and Vivotek’s 32-channel recording software. Undoubtedly, the Vivotek FD8169 2MP 15M IR 3DNR Fixed Dome Network Camera is an idyllic solution to suit indoor surveillance needs that also includes tamper detection.
Key features of Vivotek FD8169:
Resolution and Lenses: Built with a 2.8 ~ 12 mm varifocal, P-iris Lens with 2 Megapixel CMOS sensor with an image quality of 1920x1080 at 30 fps
IR illuminators and IR- Cut filters: Enables the camera to operate during day and night and enhances the visibility of the camera to 30 meters
MJPEG Compression and 3D noise reduction: This feature enables the camera to work on a lower bandwidth making it more economical.
Wide Dynamic Range Enhancement: The Wide Dynamic Range enhancement provides visibility on extreme lighting condition and unparalleled visibility
Smart IR Technology to Avoid Overexposure: The smart IR technology enhances the camera to work efficiently and controls overexposure