VIVOTEK IP8365EH is a professional outdoor bullet network camera offering 30 fps at 2-Megapixel resolution. It provides improved visibility in the extremely dark & light environment. IP8365EH adopts a Smart IR technology which prevents overexposure and provides noise reduction to adjust the IR lighting intensity instantaneously based on the changes of light in the ambient environment.
| Make | VIVOTEK |
|---|---|
| Manufacturer | VIVOTEK |
| Model code | IP8365EH |
| Series | Fixed Series |
| Chip Inch Size | 1/3 inch |
| Colour Type | Colour / Monochrome |
| Resolution | 2 MP resolution |
| Digital (DSP) | Yes |
| Specialist Type | Network |
| Sensitivity Lux | 0.001 |
| Auto Iris | Yes |
| Electrical Specifications |
Voltage: 24 V AC Power Consumption: 30 W |
| Motion Activated | Yes |
| Focal Length mm | 3 ~ 9 |
| Mount Type | Wall |
| Wide Dynamic Range | Yes |
| Picture Elements HxV | 1920 x 1080 |
| Network Properties |
Image Frame Rate: 30 fps Inclusion DVR/ Web Server: Yes Interface: 10Base-T/100 BaseTX Ethernet (RJ-45) Network Protocols: IPv4, IPv6, TCP/IP, HTTP, HTTPS, UPnP, RTSP/RTP/RTCP, IGMP, SMTP, FTP, DHCP, NTP, DNS, DDNS, PPPoE, CoS, QoS, SNMP, 802.1X, UDP, ICMP Software: ST7501 32-channel recording software |
| Back Light Compensation | Yes |
| White Balance | Yes |
| Electronic Shutter Range | 1/5 ~ 1/10,000s |
| Compression Type | H.264, MJPEG |
| Physical Specifications |
Dimensions mm: 85 x 219 Weight g: 1,314 |
| Environmental Specifications |
Protection: IP67 Operating Temperature oC: -40 ~ +50 C (-40 ~ +122 F) |
| System Requirements |
Operating System: Microsoft Windows 8/7/Vista/XP/2000 Web Browser: Mozilla Firefox 7~10 (streaming only) Internet Explorer 7/8/9/10 |
| Additional info |
VIVOTEK IP8365EH is a professional outdoor bullet network camera offering 30 fps at 2-Megapixel resolution. It provides improved visibility in the extremely dark & light environment. IP8365EH adopts a Smart IR technology which prevents overexposure and provides noise reduction to adjust the IR lighting intensity instantaneously based on the changes of light in the ambient environment. |