EX-UM-2X4SFP – 2-Port 10G SFP+ and 4-Port 1G SFP Expansion Module
Description
The EX-UM-2X4SFP is a high-performance network expansion module featuring two 10-Gigabit SFP+ ports and four Gigabit SFP ports for flexible uplink and aggregation options. Designed for enterprise-level switching environments, this module delivers high throughput, low latency, and scalable connectivity for demanding data center and campus network infrastructures.
Built with reliability and performance in mind, it enables seamless integration into systems requiring both 1G and 10G optical uplinks while maintaining compact design and efficient power utilization.
Technical Specifications
- Part Number: EX-UM-2X4SFP (711-026017)
- Interface Type: SFP / SFP+ fiber module
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Port Configuration:
- 2 × 10G SFP+ uplink ports
- 4 × 1G SFP ports
- Data Transfer Rates: 1 Gbps and 10 Gbps (auto-detect based on SFP type)
- Supported SFP/SFP+ Types: Multi-mode and single-mode transceivers
- Form Factor: Hot-swappable modular expansion card
- Bus Interface: High-speed backplane interface (proprietary system slot)
- Power Consumption: Approx. 4.5 W (typical)
- Cooling: Passive airflow via host chassis
- Dimensions: 100 mm × 68 mm × 18 mm (approx.)
- Operating Temperature: 0 °C to 45 °C
- Storage Temperature: –40 °C to +70 °C
Interchangeable / Replacement Part Numbers
- 711-026017
- EXUM2X4SFP
- EX-UM-2X4SFP-A (alternate labeling, same functionality)
✅ Confirmed Compatibility
- ✔ EX4200 series switches (48T, 48P, 24T, 24P)
- ✔ EX3200 series switches (48T, 48P, 24T, 24P)
- ✔ Network environments requiring mixed 1G and 10G uplinks
- ✔ Optical transceivers compliant with SFP and SFP+ MSA standards
☑️ Key Features
- ☑️ Dual-speed flexibility with 1G and 10G optical port support
- ☑️ Hot-swappable modular design for non-disruptive installation
- ☑️ High-speed fiber uplinks ideal for core and distribution layers
- ☑️ Compact, energy-efficient build for enterprise switches
- ☑️ Supports multi-mode and single-mode optical transceivers
- ☑️ Enhanced scalability and performance for network expansion
