Optical gas thermal imaging camera for gas leak detection

The FLIR G300 Optical Gas Imaging (OGI) Thermal imager visualizes gases to monitor the presence of gas leaks in facilities located in remote or hazardous areas. Through continuous monitoring, you can detect dangerous or costly hydrocarbon or volatile organic compounds (VOC) leaks and take immediate action. OGI Thermal imaging cameras are widely used in industrial environments such as natural gas treatment plants and offshore platforms. FLIR G300 can be easily integrated into a housing with specific application requirements.

Fixed-OGI monitoring for remote facilities

Easy to control

FLIR G300 can be easily controlled from a secure distance over Ethernet and can be integrated into a TCP/IP network.

Found very small amounts of leaks.

A refrigeration detector with a 320x240 resolution that generates a clear thermal image with a high-heat sensitivity mode that can be used to detect very small amounts of leaks.

Detect a wide range of gases

Benzene, ethanol, ethylbenzene, heptane, ethane, isoprene, methanol, methyl ethyl ketone, methyl isobutyl ketone, octane, pentane, E, toluene, xylene, butane, ethylene glycol, methane, propylene glycol, ethylene and propylene.

The company sellsPortable Thermal Imaging Camera, Thermal imaging cameras, infrared imager and other products, welcome to inquire.

Detector type Focal Surface Array (FPA), Refrigeration type indium antimony (InSb)

Shell material Aluminum

Infrared resolution 320x240 pixels |

Wavelength Range 3.2-3.4µm

Zoom 1 – 8 times times Continuous digital zoom

OTHER

Cameras size incl Lens [L x W x H] 242x80x105mm, including 14.5° lens

Measurement & amp; analysis

Temperature range -20°C to +350°C

Thermal sensitivity/NETD <15 mk="" at="">

Imaging & amp; optics

Automatic Image adjustment Continuous/Manual; linear or histogram

Digital Image Enhancements Noise reduction filtering, high sensitivity mode (HSM)

Number of aperture 1.5

Field of view angle (FOV) 14.5x10.8 ($ mm lens)

Focusing UseFLIR SDK Autofocus or manual focusing

Full Frame Frequency $ Hz

Image mode Infrared images, High sensitivity mode (HSM)

Manual image Adjustment Level/Span

Limit small focal length The limit small focal length of the A-mm lens is 0.5 m

Non-radiant Infrared video stream RTP/MPEG4

Power

DC operation 10–28 V DC, polarity protection

Startup time Usually7 minutes at °C

Environmental parameters

Instructions Low voltage instructions:2006/95/Ec,emc:2004/108/ec,rohs:2002/95/ec,weee:2002/96/ec

Electromagnetic compatibility (EMC) EN61000-6-4 (radiation)/EN61000-6-2 (anti-jamming)/FCC-part 15th, class A (radiation resistant)/EN 000-4-8,L5

Humidity (work & amp; storage) IEC 68-2-30/24 hours, 95% RH, +25°C to +40°C (2 cycles)

Operating Temperature range -20°C to +50°C

Impact resistant G (IEC 60068-2-27)

Storage Temperature Range -30°C to +60°C

Vibration Resistant 2 g (IEC 60068-2-6)

Connectivity & amp; communication

Ethernet Control, measurement results and images

Ethernet Communication Based onTCP/IP Sockets, FLIR proprietary

Ethernet Connector Type RJ-45

Ethernet Image Stream Maximum 16-bit 320x240 pixels at a time of five Hz

Ethernet Protocol TCP, UDP, RTSP, RTP, HTTP, ICMP, IGMP, FTP, DHCP, MDNS (Bonjour), SMB/CIFS

Ethernet Standard IEEE 802.3

Ethernet Type Mbps

Ethernet Video Streaming Limit large 640x480 pixels at Hz, Mpeg-4,iso/iec 14496-1 MPEG-4 ASP@L5

Interface Ethernet/HDMI

Usb Control and image

USB-Communications Based onTCP/IP Sockets, Microsoft RNDIS and/or USB video categories

USB-Connector Type MiniUSB interface

USB-Image Stream 16-bit 320x240 pixels at 30Hz

USB-protocol TCP, UDP, RTSP, RTP, HTTP, ICMP, IGMP, FTP, DHCP

USB-Standard 2.0 High Speed

USB-Video Streaming 640x480 pixels at 30Hz

Video output Digital video output (image)