Winmate Marine Computer Series offers high-performance computing solutions tailored for maritime environments. Powered by advanced processors, including Intel® Tiger Lake, Elkhart Lake, and Apollo Lake, these systems deliver reliable performance for navigation, vessel monitoring, and industrial automation. Designed with features such as multi-video output, isolation power protection, and support for NMEA 0183, they ensure seamless integration with marine systems. Certified to DNVGL-CG-0339 and IEC60945 standards, the series guarantees durability in harsh conditions. Compact designs, fanless cooling, and versatile mounting options make these computers ideal for marine and industrial applications.
Equipped with the Intel® Elkhart Lake Pentium® N6415 Processor, the marine computer delivers exceptional computing performance for marine applications. With a powerful quad-core processor and advanced graphics capabilities, this processor ensures smooth multitasking, efficient data processing, and seamless visualization of critical marine data. The marine computer enables real-time monitoring, navigation analysis, and comprehensive system control, enabling operators to make informed decisions quickly.
The Intel® Elkhart Lake Pentium® N6415 Processor marine computer offers a range of connectivity options, allowing seamless integration with various marine systems and devices. With interfaces such as Ethernet, USB, RS232, and RS485, the marine computer can connect to radar systems, GPS navigation tools, communication equipment, and other essential marine instruments. This connectivity empowers operators to have centralized control, efficient data exchange, and streamlined communication, enhancing overall operational effectiveness.
The marine computer supports a flexible 9~36V DC power input, making it compatible with different marine power systems. This feature ensures reliable operation even in fluctuating power conditions commonly encountered in marine environments. With its wide input voltage range, the marine computer can withstand power fluctuations and maintain uninterrupted performance, contributing to the overall reliability and stability of marine systems.