Our competence
Activities
- Research and Development
- FPGA design and electronic circuit design
- Mathematical modeling
- Embedded and application software development
- Machine vision and image processing
- Biotechnology systems development
- PCB design
Hardware development languages
- VHDL / Verilog
Supported FPGA
- Xilinx
- Altera
- Atmel
Supported interfaces
- PCI / Camera Link / USB / Ethernet
Embedded software development
- Design and Development of Real Time BSP applications
- Development of OS device drivers
- Development of Firmware for Micro Controller system
- Development for System on Chip
Application software development
- Design and development of Client/Server applications
- Development of data acquisition and monitoring systems
- Development of system control software
- Development machine vision and image processing software
Operating systems
- Windows / Linux / ITRON
Development language and tools
- C/C++, VC++, VB, NET, ASM, DDK, SQL
- Microsoft Visual Studio, CMake, Eclipse
- OpenCV, VTK, Matrox Imaging Library, etc
Projects
Internal circulation-type water cooling system Nd:YAG laser
High-repetition oscillation 20Hz
High-power oscillation
Multiple wavelength oscillation with the wavelength conversion unit 1064nm 532nm 355nm 266nm
High-repetition oscillation 20Hz
High-power oscillation
Multiple wavelength oscillation with the wavelength conversion unit 1064nm 532nm 355nm 266nm
High-speed repeat laser oscillation 30Hz 60Hz
Multi-wavelength oscillation 1064nm, 532nm, 355nm, 266nm
High-power, large area laser processing
User-friendly color LCD touch panel
Multi-wavelength oscillation 1064nm, 532nm, 355nm, 266nm
High-power, large area laser processing
User-friendly color LCD touch panel
Unique technology for edge enhancement operation
-Configuration of the optimum numbers of AFV samples is possible, realizing high-speed focusing which reduces the time for focus completion to one third of that for conventional one.
-Employed with the unique logic, this equipment is capable of acquiring the optimum AFV peak, successfully increasing focus reproducibility by ore than three times than the conventional one.
-Configuration of the optimum numbers of AFV samples is possible, realizing high-speed focusing which reduces the time for focus completion to one third of that for conventional one.
-Employed with the unique logic, this equipment is capable of acquiring the optimum AFV peak, successfully increasing focus reproducibility by ore than three times than the conventional one.
