At Embedded World 2026, Nexcom unveiled a comprehensive portfolio of fanless panel PCs and NVIDIA Jetson-based robotics controllers that signal a significant shift in industrial computing toward AI-capable, ruggedized edge platforms running Windows IoT Enterprise. The company's showcase emphasized three critical trends: fanless reliability for harsh environments, local AI processing at the edge, and enhanced OT security—all designed to meet the evolving demands of smart manufacturing, logistics automation, and industrial robotics.

Nexcom's Fanless Panel PC Portfolio: Windows-Powered Industrial Displays

Nexcom's new fanless panel PCs represent a substantial upgrade in industrial human-machine interface (HMI) technology. These systems feature completely sealed enclosures with IP65-rated front panels, making them impervious to dust, liquids, and contaminants common in manufacturing environments. The fanless design eliminates moving parts that typically fail in industrial settings, dramatically improving mean time between failures (MTBF) and reducing maintenance costs.

These Windows-based panel PCs come in multiple form factors, ranging from compact 10-inch displays to expansive 21-inch panels, all featuring projected capacitive (PCAP) touchscreens with glove and wet-touch functionality. The displays offer high brightness (typically 1000 nits or more) for visibility in brightly lit facilities and wide temperature operating ranges from -20°C to 60°C, ensuring reliable operation in both freezer warehouses and hot factory floors.

Processing Power: Intel and AMD Options for Industrial AI

What sets Nexcom's latest panel PCs apart is their processing capability. The company offers configurations with both Intel Core processors (including the latest generation with integrated AI accelerators) and AMD Ryzen Embedded solutions. This dual-platform approach allows customers to select the optimal balance of CPU performance, GPU capability, and AI acceleration for their specific applications.

For AI workloads at the edge, these systems support Intel's Movidius VPUs or AMD's XDNA architecture, enabling local inference without cloud dependency. This is particularly valuable for quality inspection applications, predictive maintenance algorithms, and real-time process optimization where latency matters. The systems include multiple industrial I/O options including COM ports, Ethernet, USB, and digital I/O for connecting to PLCs, sensors, and other industrial equipment.

NVIDIA Jetson-Based Robotics Controller: Revolutionizing Industrial Automation

The standout announcement from Nexcom's Embedded World showcase was the NISE 3600 series robotics controller built around NVIDIA's Jetson Orin platform. This compact, ruggedized system represents a significant advancement in robotics control, combining substantial AI processing power with real-time deterministic control capabilities.

The NISE 3600 features the Jetson Orin NX or AGX Orin modules, delivering up to 275 TOPS of AI performance in a fanless, industrial-grade package. This enables sophisticated computer vision, simultaneous localization and mapping (SLAM), and complex motion planning to run locally on the robot itself. The system includes multiple Gigabit Ethernet ports with Time-Sensitive Networking (TSN) support for synchronized motion control, along with CAN bus interfaces for connecting to motors, encoders, and other robotic components.

Windows IoT Enterprise: The Unifying Platform

Both the panel PCs and robotics controllers run Windows IoT Enterprise, Microsoft's specialized operating system for embedded and industrial applications. This provides several advantages for industrial deployments:

Application Compatibility: Windows IoT Enterprise maintains full compatibility with traditional Windows applications, allowing manufacturers to leverage existing software investments while adding new AI capabilities.

Long-Term Support: Microsoft provides 10-year support cycles for Windows IoT Enterprise, ensuring stability and security for long-lifecycle industrial equipment.

Security Features: The OS includes enhanced security features like Secured-core PC capabilities, Windows Defender Application Control, and Azure IoT Edge integration for comprehensive security management.

Development Ecosystem: Developers can use familiar tools like Visual Studio, .NET, and the Windows AI stack to create and deploy industrial applications.

OT Security Integration: Protecting Critical Infrastructure

Nexcom emphasized operational technology (OT) security throughout their product announcements. The company has integrated hardware security modules (HSM) and trusted platform modules (TPM) into their systems, providing secure boot capabilities and hardware-based encryption. This is particularly important as industrial systems become more connected and potentially vulnerable to cyber threats.

The systems support Microsoft's Zero Trust security principles through integration with Azure IoT Hub and Defender for IoT, enabling continuous monitoring and threat detection. For environments requiring air-gapped operation, Nexcom provides tools for offline security management and policy enforcement.

Real-World Applications and Industry Impact

These new systems target several growing industrial markets:

Smart Manufacturing: The panel PCs enable advanced HMIs for Industry 4.0 applications, displaying real-time production data, quality metrics, and predictive maintenance alerts while running local AI for visual inspection and process optimization.

Logistics Automation: In warehouse and distribution centers, the robotics controllers power autonomous mobile robots (AMRs) for material handling, while panel PCs provide control interfaces for automated storage and retrieval systems (AS/RS).

Food and Pharmaceutical Processing: The IP65-rated, fanless design makes these systems ideal for washdown environments where hygiene and reliability are critical.

Energy and Utilities: Ruggedized operation and enhanced security features address the needs of remote monitoring and control applications in oil and gas, water treatment, and renewable energy facilities.

Competitive Landscape and Market Position

Nexcom's announcements position the company strongly in the growing market for AI-enabled industrial computing. According to market research, the industrial PC market is expected to grow at a CAGR of over 6% through 2030, driven by increasing automation and digital transformation initiatives. The integration of AI acceleration at the edge represents a particularly fast-growing segment, with NVIDIA's Jetson platform becoming increasingly popular for robotics and machine vision applications.

Nexcom differentiates itself through several factors:

Vertical Integration: The company designs and manufactures both hardware and software solutions, allowing for better optimization and support.

Industry Certifications: Their products carry relevant industrial certifications including CE, FCC, and UL standards for various markets.

Global Support: With operations in multiple regions, Nexcom provides localized support and services for global deployments.

Technical Specifications and Configuration Options

For the panel PCs, customers can choose from:

  • Display sizes: 10.1\", 12.1\", 15\", 21.5\"
  • Processors: Intel Core i3/i5/i7 or AMD Ryzen Embedded
  • Memory: 8GB to 32GB DDR4/DDR5
  • Storage: 128GB to 1TB NVMe SSD
  • Operating System: Windows IoT Enterprise 2024 or later

For the robotics controllers:

  • NVIDIA Jetson Orin NX (up to 100 TOPS) or AGX Orin (up to 275 TOPS)
  • Real-time Ethernet with TSN support
  • Multiple CAN bus interfaces
  • Industrial operating temperature range: -25°C to 60°C
  • Vibration and shock resistant design

Future Outlook and Industry Implications

The Embedded World 2026 announcements reflect broader trends in industrial computing. As AI becomes increasingly integrated into manufacturing and automation processes, the demand for edge computing platforms that can run sophisticated algorithms locally will continue to grow. Windows IoT Enterprise provides a stable, secure foundation for these applications while maintaining compatibility with the vast ecosystem of industrial software.

Nexcom's focus on fanless designs addresses the reliability concerns that have traditionally limited PC deployment in harsh industrial environments. By eliminating fans and using solid-state components throughout, these systems can operate continuously in conditions that would quickly degrade traditional computers.

The convergence of robotics control and AI processing in single platforms like the NISE 3600 represents another significant trend. Rather than separating perception, planning, and control across multiple systems, integrated solutions reduce complexity, latency, and cost while improving reliability.

Conclusion: Windows-Powered Industrial Transformation

Nexcom's Embedded World 2026 showcase demonstrates how industrial computing is evolving to meet the demands of increasingly intelligent and connected operations. By combining ruggedized hardware, powerful AI acceleration, and the Windows IoT Enterprise platform, the company provides solutions that bridge traditional industrial automation with modern AI capabilities.

For organizations embarking on digital transformation initiatives, these systems offer a path to implement advanced technologies like machine vision, predictive maintenance, and autonomous systems while maintaining the reliability and security required in industrial environments. As edge AI becomes more prevalent in manufacturing, logistics, and infrastructure, platforms like those announced by Nexcom will play a crucial role in enabling the next generation of industrial automation.