LVDS-LVDS Thermal Camera
- Unbtek
- Beijing, China
- 5 working days
- 500 sets per month (Looking for distributors)
LVDS-LVDS thermal camera accepts RGB video signals (Sony 30pin LVDS or Tamron) coming in and forms EO+IR picture-in-picture display, while supporting target tracking function in both modes. We also designed a split version of the infrared core so that UAV gimbal camera designers could adjust the inner space of their pod system more flexibly. Ethernet video output allows users to use computer to images as well.
LVDS-LVDS Thermal Camera
Introduction
Supporting LVDS video in/output and Ethernet video output, the thermal camera mixes Sony video streaming with thermal imaging and forms a picture in picture display that is switchable by one-click control.
Moreover, the camera integrates target tracking module which is an essential function required by clients for observing, locating and tracking targets of unmanned aerial vehicles.
Features
No shutter non-uniformity correction technique
Keep video streams coherent and lower the failure rate by reducing a component, and make sure no frame would be missed out during target tracking.
Target tracking
Target tracking is the most important feaure our IR core has comparing to others, as we have integrated the tracking boards inside of the thermal core housing, simplifying the connections between modules, therefore, largely improves the stability.
Support for internal and external dual-video mode ( Picture in Picture )
External video source mostly refers to EO sensors (Sony EV 7520 series or Tamron cameras), and EO+IR switchable PIP display allows user to see same image spot under two wavebands, therefore, saves troubles and costs from having two separate sensors or even two gimbal cameras in some task. And more and more gimbal manufacuturers have their dual-light solutions, and this is where our IR core would perfectly fit in.
Temperature measurement ( Optional )
Temperature measurement is one of the characteristics that thermal sensor have as the strength of IR radiation an object sends out is corresponding to the heat the object has, and even different parts of a same object, the IR radiation emits is different.
High image quality, strong scene adaptability
Wide dynamic range (WDR) algorithm we have makes the IR core self-adaptive when observing objects across wide temperature ranges with great details being presented.
Multi-communication interface, easy for secondary development
The series of IR core supports quite many different video and communication interfaces, such as (for video interfaces) LVDS\HDMI micro\AV input, LVDS\HDMI micro\SDI\Ethernet output; (for communication interfaces)TTL\RS232
Small in size, low power consumption
Dimmension
Parameters
Imaging index | Working system | Un-cooled long wave (8μm~14μm) |
Detector pixels | 640×480 | |
Pixel size | 17μm | |
Focusing | Athermalizing | |
Emissivity correction | Emissivity 0.01~1 adjustable | |
NETD | ≤50mK(@25℃) | |
MRTD | ≤500mK( @Characteristic frequency) | |
Image enhancement | Automatically adjusts image brightness and contrast | |
Color palette | Black hot, white hot, pseudo color | |
Automatic non-uniformity correction function | Yes(without shutter) | |
Digital zoom | 2X 3X 4X | |
Temperature measurement mode (Optional) | Temperature bar (pseudo display) HT LT field center temperature | |
Temperature warning (Optional) | Warning temperature 0℃~120℃ | |
Tracking index | Data refresh rate | 25Hz or synchronize with Sony camera |
Output lag | <10ms | |
Tracking velocity | ±32 pix/frame | |
Target size | 16x16~128*128 pixels | |
Environmental adaptability | Working temperature | - 40℃~ 60℃ |
Storage temperature | - 40℃~ 65℃ | |
Shock | Meet the GJB 150A vibration test conditions | |
Strike | Meet GJB 150A impact test conditions | |
Electrical interface | Communication interface | TTL |
Video input | LVDS | |
Video output | LVDS, Ethernet | |
Power input | DC 12V | |
Others | Size of device | 77.3mm x 42mm x 42mm |
Weight | <155g | |
Power consumption | ≤4.6W(@25℃ with Sony RGB camera) |
