The latest addition to the Wisenet P premium camera series manufactured by Hanwha Techwin has the capability of two video surveillance cameras in a single housing.
The PNM-7000VD is able to capture Full HD 2MP images of adjacent areas with the help of two separate lenses. A 270° viewing angle is achieved when two 2.4mm lenses are installed, making the PNM-7000VD, which supports H.265 compression, an ideal solution for monitoring large open spaces such car parks, shopping centres and warehouses. Depending on the required field of view, system integrators can also choose to fit 2.8, 3.6 or 6mm lenses.
PNM-7000VD multi-directional camera End-users are understandably looking for maximum value from their video surveillance system"
“End-users are understandably looking for maximum value from their video surveillance system. Our new two channel multi-directional camera significantly reduces the costs which would normally be associated with installing two separate cameras, perhaps either side of a building or site, without any compromise on quality,” said Bob (H.Y.) Hwang Ph.D., Managing Director of Hanwha Techwin. “It is an excellent example of how ‘We MOVE with trust’ by introducing innovative solutions which offer real-life practical benefits.”
The PNM-7000VD is equipped with the world’s best 150dB Wide Dynamic Range (WDR), Lens Distortion Correction and Digital Image Stabilisation technology to deliver optimised images in every situation. It also has a long list of other useful features including privacy masking and direction, face, fog, virtual line, appear/disappear, loitering and camera tampering detection. Two SD/SDHC/SDXC memory slots enable video to be automatically recorded in the event of network disruption.
WiseStream II technology
The PNM-7000VD supports H.264 and MJPEG compression, but bandwidth efficiency is improved by up to 99% compared to current H.264 technology when H.265 is utilised with WiseStream II, a complementary compression technology which dynamically controls encoding, balancing quality and compression according to movement in the image.
