Partnumber: NXA-PAC-650W-PI
Manufacturer: Cisco Systems
Overview: The Cisco Systems NXA-PAC-650W-PI is a high-efficiency AC power supply module designed for Cisco Nexus 9000 Series switches. It provides reliable power delivery and is essential for maintaining the operational integrity of data center networking equipment.
Key Features:
Power Capacity: Delivers up to 650 watts of power output.
High Efficiency: Energy-efficient design to minimize power consumption and reduce operating costs.
Hot-Swappable: Allows for replacement without powering down the connected devices, ensuring continuous operation.
Compatibility: Designed specifically for Cisco Nexus 9000 Series switches to ensure seamless integration and reliable performance.
Redundancy: Supports power supply redundancy for enhanced reliability in mission-critical environments.
Applications: Ideal for data centers, enterprises, and service providers using Cisco Nexus 9000 Series switches. It provides essential power supply capabilities to ensure uninterrupted operation of networking equipment in high-demand environments.
Specifications:
Power Output: 650 watts
Input Voltage: 100-240V AC
Compatibility: Cisco Nexus 9000 Series switches
Form Factor: Hot-pluggable power supply module
Efficiency: High-efficiency design to reduce energy consumption and heat generation
Why Choose Cisco Systems NXA-PAC-650W-PI:
Reliability: Ensures continuous operation with hot-swappable and redundant power supply capabilities.
Compatibility: Specifically designed for Cisco Nexus 9000 Series switches for seamless integration and reliable performance.
Efficiency: High-efficiency design helps reduce operating costs by minimizing power consumption and heat dissipation.
Scalability: Supports scalability with redundant power supply options for mission-critical environments.
The Cisco Systems NXA-PAC-650W-PI power supply module is the preferred choice for organizations requiring reliable and efficient power delivery to Cisco Nexus 9000 Series switches, ensuring uninterrupted operation and optimal performance in data center environments.