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OUR PROJECTS
From concept to working prototype, FineBit accompanies clients through every stage of development. Delivering best-quality digital and analog hardware and software solutions for over 40 years.
From electronic cards to FPGA and custom software, we provide superior engineering backed by unwavering customer support for a long-term partnership you can trust.
Bridging Digital, Analog, and Embedded Worlds:
Explore Our Cutting-Edge Project Portfolio...
Innovation in Medical Visualization
Advanced 3D Endoscope
FineBit’s expertise in hardware and software implementation has played a significant role in realizing Envision’s innovative endoscope design, for the 3D camera component. This high-performance medical device features advanced three-dimensional imaging capabilities, providing doctors with a clear and accurate view of tissues. Additionally, it achieves a remarkably small diameter, minimizing patient trauma. These combined features improve diagnostic and treatment capabilities significantly. This successful collaboration contributed to advancing the field of endoscopy for the benefit of both healthcare providers and patients.
FineBit Implementation of GenoaColor's Algorithm in ASIC
Aims to Expand Display Color Gamut
FineBit has successfully developed an ASIC (Application-Specific Integrated Circuit) chip implementing GenoaColor’s complex color enhancement algorithm. This chip is designed to expand the color gamut of displays beyond standard RGB (Red, Green, Blue) capabilities. By processing conventional RGB input signals, the ASIC reconstructs additional primary colors based on GenoaColor’s sophisticated methodology. This development aims to significantly improve color reproduction in various display applications, potentially enhancing visual quality across different sectors. The collaboration between FineBit’s hardware expertise and GenoaColor’s algorithmic innovation showed a singnifficant advancement in display technology.
FineBit Develops FPGA Chips for Illumigyn's Gynescope® System
Enhancing Gynecological Examinations
FineBit has developed all FPGAa for the camera component of Illumigyn’s Gynescope® System, a device designed to simplify and improve access to cervical examinations. These FPGAs, integrating both hardware and embedded software, were developed according to specifications and image processing algorithms defined by Illumigyn. This implementation of advanced chip technology enables high-quality imaging, assisting gynecologists in viewing and diagnosing gynecological issues with enhanced clarity and precision. By incorporating FineBit’s FPGA designs in Illumigyn’s Gynescope® Illumigyn aims to make cervical examinations more accessible and efficient, potentially contributing to improved women’s healthcare outcomes worldwide.
FineBit FPGA and ASIC designs in SensoOptics' Thermal Imaging Technology
Designs for Compact, High-Performance IR (Infra Red - Thermal Imaging) Cameras
FineBit has developed sophisticated FPGA designs for SensoOptics (now DaganOptics), implementing complex and advanced IR image processing algorithms developed by SensoOptics in their compact, lightweight uncooled thermal cameras. These FPGA designs by FineBit, incorporate interfaces for various IR sensors and execute SensoOptics’ cutting-edge IR image processing techniques. Some camera models feature dual-sensor integration, combining visible light and far IR capabilities. Notably, FineBit actively collaborated in developing an ASIC-based model, replacing the FPGA, which further reduced size and power consumption. This ASIC innovation enables even more compact designs with minimal current draw, pushing the boundaries of portable thermal imaging technology.
FineBit's Integral Role in BioCep's Automated Cell Isolation System
Comprehensive Hardware and Embedded Software Development for Biotechnology Innovation
FineBit played a crucial role in the development of BioCep’s large-scale, automated immunomagnetic cell isolation technology for the cell and gene therapy market. FineBit designed and implemented all hardware and embedded software components of the machine. This encompassed the complete circuit board design, sophisticated FPGA programming, and the development of embedded software running on the CPU within the FPGA. FineBit’s comprehensive contribution ensured precise control of multiple micro-pump motors, accurate regulation of fluid flow, and meticulous management of magnetic fields. These capabilities were essential in enabling BioCep to realize their innovative approach to cell isolation. This collaboration exemplified FineBit’s expertise in creating custom, high-performance control systems for advanced biotechnology applications.
FineBit's Critical Role in CARPET Mine Breaching System
Advanced FPGA Design and Embedded Software for Precise and Safe Sensing and Motion Control
FineBit developed the sophisticated FPGA design for the central control board of CARPET, an IDF mine breaching system designed to clear safe passages through minefields. The system operates by firing up to 20 rockets in a predetermined sequence to specific points along the intended clearance path. These rockets detonate above the ground, triggering the mines below and thus creating a safe route. FineBit’s contribution included both the FPGA hardware design and the embedded software integrated within the FPGA. This intricate design allowed for precise control and monitoring of the rocket firing sequence, crucial for the system’s effectiveness in clearing minefields while prioritizing the safety of operating personnel. FineBit’s expertise in creating robust, safety-critical control systems was instrumental in enhancing CARPET’s performance and reliability in challenging field conditions.
Advanced NMR Shimming and Temperature Control Solution
FineBit's Integrated Hardware and Software Design for 4IR_Solutions
The NMR Shimming board for 4IR_Solutions developed by FineBit showcases FineBit’s expertise in both digital and precise analog design. In NMR systems, the precision and stability of shimming currents and temperature control are paramount, as even minute fluctuations can significantly impact the quality and resolution of spectroscopic data. FineBit’s solution addresses these critical requirements by integrating high-precision, low-noise analog control loop circuits for stable shimming currents with advanced temperature control for both the magnet and its envelope. The sensitive analog circuits are controlled and supervised by the on-board FPGA that contains interface circuits as well as embedded software that runs within the FPGA. This comprehensive approach demonstrates FineBit’s capability to deliver sophisticated solutions for the most demanding scientific and industrial applications.
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