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Smarter Energy Management for Data Centers

Data centers are among the highest energy-consuming facilities globally. According to the latest report from the International Energy Agency (IEA), global data center electricity consumption is expected to double by 2030. In 2024 alone, data centers accounted for approximately 1.5% of global electricity use. The exponential growth of artificial intelligence, including large language models (LLMs) and generative AI, has driven unprecedented increases in computational workloads, further intensifying energy demand.

Critical Infrastructure: Power and Cooling Systems

As energy demands surge, enhancing efficiency in power and cooling systems has become essential. These systems require effective and thorough monitoring to prevent energy waste and maintain operational stability. Comprehensive data collection and intelligent control enable operators to identify inefficiencies, optimize consumption, and reduce costs. Beyond cost savings, this also improves system reliability and uptime, supports predictive maintenance, and positions energy efficiency as a foundation of sustainable data center operations.

Despite the urgency, data center operators face several persistent challenges:

  • Fragmented visibility across distributed systems and remote assets
  • High installation costs and limited scalability
  • Complex integration with legacy equipment
  • Lack of predictive maintenance capabilities
  • Labor-intensive, manual inspections

Energy Efficiency Monitoring

Enhancing power efficiency helps lower energy costs and improve sustainability in data center operations. Through industrial gateways connected to UPS systems, power distribution units, and smart sensors, operators can continuously monitor voltage, current, and power quality 24/7. This data enables precise energy analysis, helping teams identify abnormal loads, optimize power usage, and reduce unnecessary consumption. By transforming raw electrical data into actionable insights, the system enables predictive maintenance, enhances uptime, and contributes to long-term energy savings across critical infrastructure.

Energy Efficiency Monitoring
 

Cooling System Monitoring

Optimizing cooling efficiency is critical to reducing energy consumption in data centers. By using industrial gateways to collect data from temperature, vibration, and flow sensors, operators gain near real-time visibility into the performance of fans, pumps, and chillers. These data-driven insights enable precise control of cooling operations, helping to prevent overcooling and minimize unnecessary energy use. At the same time, early detection of mechanical anomalies supports predictive maintenance, reduces unplanned downtime, and extends equipment lifespan.

ICO110: Ultra-Compact Industrial Gateway with Rich I/O Interface, Ideal for Energy Monitoring Systems
Designed for Easy Deployment
Designed for Easy Deployment

The fanless, ultra-compact ICO110 measures just 4.8 × 10 × 10 cm, smaller than a palm. It offers a full set of I/O interfaces, including 1 COM port, 4 USB 3.0 ports, 1 HDMI port, and 2 isolated RJ-45 LAN ports. With its DIN-rail mounting design, the ICO110 is easy to install in space-constrained environments and integrates seamlessly with various systems.

Integration with Axiomtek EAPI
Integration with Axiomtek EAPI

The ICO110 integrates with Axiomtek EAPI, a middleware library for seamless communication with hardware. It provides access to I/O interfaces and system status, helping customers build remote monitoring or management systems faster with minimal development effort.

Rugged and Sustainable Design
Rugged and Sustainable Design

Powered by the energy-efficient Intel® Celeron® N3350 processor with a TDP of just 6W, the ICO110 is built for reliable 24/7 operation in demanding environments. It supports a wide operating temperature range of -40°C to +70°C and a 9–36 VDC wide-range power input, ensuring stable performance in harsh industrial conditions.

ICO110

Zero Trust Cybersecurity Gateway for Field Devices in Monitoring Systems

In distributed monitoring environments, field devices such as sensors and controllers are often weak entry points for cyber threats. A cybersecurity gateway based on Zero Trust principles acts as a secure bridge, ensuring that no device or user is trusted by default, even within the internal network. By enforcing continuous authentication, device verification, and least-privilege access, the gateway helps prevent unauthorized entry, malware propagation, and data breaches. Additional features such as encrypted communication, firewall policies, and secure remote access further enhance system resilience, ensuring data integrity and uninterrupted operations across energy and resource monitoring systems.
iNA200: Industrial Cybersecurity Gateway with LAN Bypass and Dual Power for Resilient OT Connectivity
Multi-Port Networking with LAN Bypass
Multi-Port Networking with LAN Bypass

The iNA200 features six high-speed LAN ports, including 2.5GbE and GbE with LAN bypass, for resilient, fail-safe networking in OT environments. Its versatile connectivity supports SD-WAN, TSN, and SFP fiber ports, enabling encrypted, high-availability tunnels that secure operational data and complement Zero Trust access controls.

Industrial-Grade Security Gateway with TPM 2.0
Industrial-Grade Security Gateway with TPM 2.0

Built for secure edge deployment, the iNA200 integrates TPM 2.0 for hardware-level protection and device identity. With 1 M.2 Key B slot, 1 full-size Mini PCIe slot, and SIM support, it enables flexible 5G/LTE and Wi-Fi connectivity, making it ideal for Zero Trust networks and secure OT communications.

Power Redundancy for Nonstop Security
Power Redundancy for Nonstop Security

The iNA200 features dual 9–36 VDC power inputs with redundancy, ensuring uninterrupted operation in mission-critical environments. Built-in protections, including OVP, UVP, OCP, and RPP, provide industrial-grade power resilience for continuous OT cybersecurity enforcement.

iNA200