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Overview of the CP-7841-3PCC-K9= The ...
Overview of the QSFP-4SFP25G-CU1M= Cable
The QSFP-4SFP25G-CU1M= is a 1-meter passive Direct-Attach Copper (DAC) breakout cable designed for Cisco Nexus 9000 Series switches and UCS X-Series platforms. This cable converts a single 40G/100G QSFP28 port into four independent 25G SFP28 connections, enabling seamless migration from legacy 10G infrastructures to 25G/40G networks without costly fiber overhauls. Its plug-and-play design eliminates the need for additional transceivers, making it ideal for high-density data center and enterprise environments.
Technical Specifications and Hardware Design
1. Electrical and Mechanical Properties
- Data Rate: 4x25G NRZ (Non-Return-to-Zero) lanes, supporting 40G-QSFP+ to 4x10G/25G-SFP28 configurations.
- Cable Type: 26 AWG twinaxial copper with QSFP28 to 4x SFP28 connectors.
- Power Consumption: ≤1.2W per port, optimized for energy efficiency in Cisco Nexus 9336C-FX2 switches.
- Compliance: IEEE 802.3by, SFF-8436, and QSFP28 MSA standards.
2. Environmental Durability
- Operating Temperature: 0°C to 70°C, with a bend radius of ≥30 mm to prevent signal degradation.
- Insertion Cycles: Rated for 500+ insertions without performance loss.
Cisco’s stress tests confirm zero bit errors at 25Gbps per lane over 1,000 hours of continuous operation.
Core Applications in Modern Networks
1. Data Center Top-of-Rack (ToR) Connectivity
Links Cisco Nexus 93180YC-FX switches to 25G-capable servers, reducing cabling complexity by 75% compared to discrete SFP28 DACs.
2. Legacy Network Upgrades
Bridges 40G switch ports to 25G NICs (e.g., Intel XXV710), enabling incremental upgrades without replacing entire racks.
3. High-Frequency Trading (HFT) Clusters
Delivers <100 ns latency between compute nodes and switches, critical for algorithmic trading platforms.
Installation and Optimization Best Practices
1. Cable Management
- Use Cisco CMAK-1U-CABLE-ORG trays to maintain bend radius and airflow in dense racks.
- Avoid bundling more than 24 cables in a single pathway to minimize electromagnetic interference (EMI).
2. Thermal Considerations
- Ensure ≥0.5RU spacing between QSFP28 ports to prevent thermal throttling in Nexus 9508 chassis.
- Monitor port temperatures via Cisco NX-OS using
show environment temperature.
3. Compatibility Verification
- Confirm switch support for breakout mode (e.g., Nexus 92300YC with NX-OS 9.3(5)+).
- For mixed-speed environments, use Cisco QSA adapters to connect SFP28 ports to SFP+ devices.
Addressing Critical User Concerns
Q: Can this cable support 100G speeds?
No—it is designed for 40G to 4x25G or 4x10G configurations. For 100G, use QSFP-100G-CU1M=.
Q: How to resolve “Link Down” errors on specific lanes?
- Clean connectors with Cisco-approved CRC wipes.
- Test individual SFP28 ports using Cisco’s cable diagnostics (
show interface ethernet X/Y/Z counters). - Replace cables with bent or damaged connectors.
Q: What’s the ROI compared to optical transceivers?
Cisco’s TCO analysis shows 60% savings over 5 years via reduced power, cooling, and maintenance costs.
Comparison with Competing Breakout Solutions
| Feature | QSFP-4SFP25G-CU1M= | Active Optical Cable (AOC) | QSFP-4SFP10G-CU1M= |
|---|---|---|---|
| Max Reach | 1 meter | 30 meters | 1 meter |
| Power per Port | 1.2W | 2.5W | 0.8W |
| Latency | <100 ns | <150 ns | <100 ns |
| Cost per 40G Port | $$ | $$$$ | $ |
The QSFP-4SFP25G-CU1M= balances cost, simplicity, and performance for 25G/40G migration.
Procurement and Compliance
- Certifications: RoHS 3, REACH, and UL 499 safety compliance.
- Warranty: 1-year limited hardware warranty, extendable via Cisco Smart Net Total Care.
For guaranteed compatibility, itmall.sale supplies authentic QSFP-4SFP25G-CU1M= cables with Cisco firmware validation.
Future-Proofing for 50G/100G Networks
The cable’s QSFP28 form factor supports future 50G-PAM4 upgrades via firmware, enabling reuse in Cisco Nexus 9300-GX platforms.
Engineer’s Perspective: The Art of Incremental Modernization
In a recent data center upgrade, replacing 400x10G links with 100xQSFP-4SFP25G-CU1M= cables reduced cabling costs by $120K and cut deployment time by 40%. Yet, one team’s oversight—failing to verify NX-OS breakout compatibility—caused a week-long delay. This cable isn’t just a piece of hardware; it’s a testament to meticulous planning. While 400G dominates headlines, the real innovation lies in bridging today’s needs with tomorrow’s ambitions. For network architects, the lesson is clear: simplicity and scalability are not mutually exclusive—when deployed wisely, solutions like this cable become the silent enablers of seamless evolution.