CORE REACTOR II Power Supply Unit

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CORE REACTOR II

IMPROVE YOUR CORE, ENHANCE YOUR PERFORMANCE

CORE REACTOR II is a top-performing power supply unit designed for ATX 3.0 & ATX 3.1 compliance with a modular cable design and an 80 PLUS GOLD certification. These power supplies thrive in high-performance scenarios like servers or workstation setups, where a lot of power is needed.

Next-Gen Ready - ATX 3.0 & ATX 3.1 COMPLIANT

CORE REACTOR II series power supply units meet Intel ATX 3.0 & ATX 3.1 design guide specifications and feature a 12VHPWR connector. By upgrading to an ATX 3.0 & ATX 3.1-compliant power supply, you'll be fully equipped for the upcoming wave of high-performance components. A must for the modern gamer, creator, or AI developer. Stay ahead of the curve by upgrading to an ATX 3.0 & ATX 3.1 PSU, the new standard in PC hardware.

Certified GOLD Efficiency

CORE REACTOR II units recieved 80 PLUS GOLD certifications for efficiency, achieving up to 91.40% (115V) efficiency at 50% load. It comes in 1200W, 1000W,  850W, 750W, and 650W models for varying user needs and scenarios. It's the perfect PSU for mid-to-high level components, including the latest CPUs and GPUs.

Intelligent Fan-Curve Design

The intelligent fan curve ensures quiet operation, even under full power load. By starting the fan at a low RPM, fan performance is both enhanced and extended, thereby increasing the power supply unit's lifespan.

Premium all 105°C Japanese Capacitors

CORE REACTOR II features top-tier 105°C Japanese capacitors, ensuring exceptional stability and reliability of the PSU for many years of dependable performance.

8 Industrial Protections with 10-Year Warranty

CORE REACTOR II is protected by 8 industrial-level protection mechanisms and backed by a 10-Year Warranty, ensuring the safety and stability of both the unit and the system.

Dimensions

CONNECTORS

PEAK PERFORMANCE AND RELIABILITY

All XPG ATX 3.0 and ATX 3.1 power supplies are designed to support up to 235% power excursion, enabling the system to handle sudden power spikes, ensuring stability, and preventing crashes during intense workloads like gaming, rendering, and data processing.