IQAN-SV vision system camera
The IQAN-SV is a new generation of digital, high resolution IP camera using an Ethernet video link to work together with IQAN-MD4 master displays.
Settings and control of the IQAN-SV camera are easily accomplished by using IQAN software for:
• Rear view
• Video size picture scaling
• Split screen view
• Easy application logic integration
The IQAN-SV camera has plug-and-play functionality and all addressing is handled automatically by IQAN software. There is no need for time consuming, complex IP address allocation.
IQAN-MD4 and the vision system is expandable to a number of cameras by use of an Ethernet switch. The IQAN-SV camera has 120° field of view, excellent video quality, color and light sensitivity. The fast frame rate provides a high quality video stream with no noticeable latency.
The IQAN-SV is designed for outdoor use on mobile machinery. The enclosure is sealed for outdoor use and the camera is robust to handle heavy vibrations and other stresses found in mobile equipment.
The IQAN-SV is fully adjustable to accommodate any mounting location and capture the desired field of view.
Settings and control of the IQAN-SV camera are easily accomplished by using IQAN software for:
• Rear view
• Video size picture scaling
• Split screen view
• Easy application logic integration
The IQAN-SV camera has plug-and-play functionality and all addressing is handled automatically by IQAN software. There is no need for time consuming, complex IP address allocation.
IQAN-MD4 and the vision system is expandable to a number of cameras by use of an Ethernet switch. The IQAN-SV camera has 120° field of view, excellent video quality, color and light sensitivity. The fast frame rate provides a high quality video stream with no noticeable latency.
The IQAN-SV is designed for outdoor use on mobile machinery. The enclosure is sealed for outdoor use and the camera is robust to handle heavy vibrations and other stresses found in mobile equipment.
The IQAN-SV is fully adjustable to accommodate any mounting location and capture the desired field of view.