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Technical Specifications and Hardware Design�...
Understanding the NXA-PAC1.1KW-PEOR= in Cisco’s Power Infrastructure
The NXA-PAC1.1KW-PEOR= is a 1.1kW AC power supply engineered for Cisco Nexus 9500 Series switches, specifically the N9K-C9504-FM-G chassis. Designed for high-density data centers, this hot-swappable module provides redundant, 80 PLUS Platinum-certified power delivery with an efficiency rating of 94% at 50% load. Unlike traditional PSUs, it supports N+1/N+N redundancy in both common and combined power modes, making it critical for environments requiring zero downtime, such as financial trading platforms or Tier IV colocation facilities.
Technical Architecture and Compatibility
The NXA-PAC1.1KW-PEOR= operates at 100–240V AC and delivers 1.1kW of continuous power across two independent output buses. Key specifications include:
- Input voltage: 100–240V AC (auto-sensing)
- Output: 12V DC, 91.6A max
- Efficiency: 94% (Platinum) at 50% load, 91% at 100% load
- Compatibility: Nexus 9500 Series (N9K-C9504-FM-G, N9K-C9508-FM-G) with NX-OS 9.3(5)+
Critical limitation: The module does not support DC power input. Deployments in regions with unstable AC grids (e.g., parts of Southeast Asia) require external UPS systems to mitigate brownout risks.
Deployment Scenarios: Maximizing Power Redundancy
1. High-Availability Data Centers
For hyperscalers running VXLAN/EVPN fabrics, dual NXA-PAC1.1KW-PEOR= modules in N+1 configuration ensure uninterrupted operation during PSU failures. A 2023 Cisco case study showed a 99.999% uptime for a stock exchange using eight modules across four chassis.
2. Edge Computing with Power Constraints
In edge sites with limited power capacity, the module’s high efficiency reduces cooling overhead. For example, a telecom provider cut edge node energy costs by 18% by replacing legacy 800W PSUs with NXA-PAC1.1KW-PEOR= units.
Configuration and Operational Best Practices
Step 1: Power Mode Selection
Configure the chassis for combined mode (default) to share load across all PSUs or input-source mode to isolate grids from separate utility feeds. Use:
power redundancy-mode combined Step 2: Threshold Monitoring
Set alerts for abnormal current draw using NX-OS Telemetry:
telemetry
sensor-group SG_Power
sensor ps-current
destination-group DG_Cloud
ip address 10.92.1.5 port 50051 protocol gRPC
subscription SUB_Power
sg SG_Power
dg DG_Cloud Critical tip: Avoid exceeding 85% load per PSU to maintain efficiency and prolong lifespan.
Troubleshooting Common Power Issues
PSU Failure to Power On
- Verify input voltage with a multimeter (must be ≥100V AC).
- Check for blown fuses (Cisco PID: FUSE-T5A250V) and replace if needed.
Intermittent Shutdowns
- Root cause: Overcurrent protection triggered by faulty line cards (e.g., N9K-X9716D-GX).
- Diagnostic: Run
show environment powerto identify erratic load spikes.
Why NXA-PAC1.1KW-PEOR= Remains Vital in 2024
Despite the rise of 2kW+ PSUs for AI/GPU workloads, the 1.1kW module fills a niche for low-to-mid density spine-leaf architectures. Its Platinum efficiency reduces PUE (Power Usage Effectiveness) for enterprises targeting net-zero data centers. However, Cisco’s shift toward 2200W DC modules (e.g., N2200-PAC-3KW) signals eventual obsolescence for AC-only designs.
For teams standardizing on Nexus 9500, the NXA-PAC1.1KW-PEOR= remains a viable short-term solution, provided they budget for future DC infrastructure upgrades.
Final Evaluation: Balancing Cost Against Scalability
Having overseen 50+ Nexus deployments, I’ve seen enterprises underestimate the hidden costs of AC power inefficiency. While the NXA-PAC1.1KW-PEOR= delivers immediate CAPEX savings, its 12V output struggles with modern 48V GPU trays. My recommendation? Deploy this PSU only if your roadmap excludes high-power accelerators for the next 3–5 years. For AI/ML-ready fabrics, prioritize chassis supporting Cisco’s NXA-PAC-3KW-PE2= DC modules, even if it demands upfront grid modernization. The NXA-PAC1.1KW-PEOR= excels in legacy environments—but “legacy” is a shrinking territory in the LLM era.