Active pixels H x V | 2112 x 1432 |
Imaging sensor | LUXIMA |
Resolution (MP) | 3.0 MP |
Spectral options | monochrome |
Optical format | 16.84 (1”) |
Active pixels (H x V) | 6.6 μm |
Frame rate (FPS) | 778 FPS |
Dynamic Range 10bit/12bit | 54 dB |
Spinosaurus LX EVO is a highly customizable and user-programmable FPGA-based highspeed smart cameras, is a high-end FPGA camera with a Xilinx Zynq FPGA and highspeed imaging sensor and a 10 Gigabit Ethernet. It includes high-performance ARM System-on-Chip (SoC) technology combined with turbocharged industrial LUXIMA imaging sensors.
With high-performance FPGA System-on-Chip (SoC) technology, Spinosaurus LX EVO camera opens new dimensions in computer vision. It is a global shutter industrial camera with incredible frame rates and an open FPGA architecture. With its FPGA processing power the image processing algorithms can run in real-time on the camera. Spinosaurus LX EVO includes a fully customizable and user-programmable openreference design for its high-speed FPGA-based camera and application development system. Its emphasis is on an open hardware/software development model, high-frame rates, realtime image processing on FPGA and modern graphical user interface support on the PC side.
A suite of versatile and high-performance tools for Xilinx Zynq Ultrascale+ SoC FPGA is used to develop algorithms and process data in realtime. Images are acquired by Luxima LUX2810 sensors with 32x LVDS interface (29 Gbps) achieving brilliant images at a very high speed. The on-board 2GB LPDDR4 memory with 19 GB/s of bandwidth enables usage of complex buffered image processing.
The reference design can be easily edited with standard Xilinx Vivado tools. OptoMotive´s custom IP cores seamlessly integrate inside the Xilinx Vivado toolchain. A large portion of FPGA (PL) is free for the programming and development of new algorithms, or the implementation of additional IP cores. The 1.2 GHz Quad Core ARM Cortex A53 Programmable Subsystem runs Linux OS with custom made EVO control and streaming stack (including Zero-copy TCP/IP stack). The SoC also includes dual 600MHz Cortex R5 processors which are free for user data processing. User applications or custom data post-processing can easily be added to the existing design.
APPLICATIONS:
ADC Resolution | 12 bit |
Analogue Gain | 1x-8x at 1x step |
Region of Interest | YES, with 16 pixel increments |
Shutter Type | Electronic global shutter |
Shutter Time | 5 us – 90 s |
Pixel Clock Speed | 2.4 Gpix/s (16 pixels @ 150 MHz for rev 1); 2.88 Gpix/s (16 pixels @ 180 MHz for rev 3) |
Exposure | Linear, dual gain high dynamic range |
Pixel Correction | Dead pixel correction and programmable LUT |
Trigger Modes | Free running, trigger, overlap, pulse width |
Trigger Features | Delay 0 – 1000 ms, LP Filter 1.5Hz - 100 kHz |
Shutter Resolution | 1.56 us |
FPGA | Xilinx Zynq Ultrascale+ ZU4CG |
Free FPGA % | Up to 50%, most of 728 slices of DSP are free. |
Volatile Memory | 2 GB LPDDR4 with 9.6 GB/s bandwidth |
Non-volatile Memory | 64 MB QSPI flash, 8 GB eMMC |
Lens Mount | C-mount (1” 32G thread) |
Temp Range | 0 - 50°C |
Mass | TBD |
Protection | Up to IP67 with housing |
Housing Material | CNC-machined aluminum, anodized |
RoHS | RoHS compliant |
Fixing Holes | 4x M3 OEM |
Input Voltage | DC 9-36V or 5V (OEM) |
Consumption | up to 30W |
IO Isolation | 3x IN / 3x OUT opto-isolated |
Connectors | 10G SFP+, 10 pin Hirose HR10A, ZIF or OEM |
On-board Image Processing | As an option (if an IP Core is integrated) |
Open Reference Design | Yes |
Open architecture | Yes |
Software | Compatible with OptoMotive EVO software (full source included) |
Operating System | Windows 7, Windows 10, 64bit or 32bit |
Development Tools | Xilinx Vivado/SDK version 2018.2 or later.; Microsoft Visual Studio 2017 |