Description
USW-WAN: UniFi Switch for Network Edge with 3x 10G SFP+, 1x GbE RJ45, and Dual AC Power Redundancy
Reliable, managed WAN aggregation switch with 10G fiber uplinks and full power redundancy.
Ubiquiti UniFi Switch WAN (USW-WAN): Reliable WAN Interface with 10G Uplinks and Total Redundancy
The Ubiquiti UniFi Switch WAN (USW-WAN) is a specialized managed switch designed to serve as an aggregation and handoff point at the network edge.
Equipped with three 10Gbps SFP+ ports and one RJ45 Gigabit Ethernet port, it’s ideal for aggregating multiple fiber WAN links or functioning as a managed media converter.
Its defining feature is the inclusion of dual internal AC power supplies (hot failover), ensuring maximum uptime and reliability in mission-critical environments.
Built in a compact 1U rack-mount form factor (only 120 mm deep), the USW-WAN is both robust and energy-efficient, consuming just 13W.
As part of the UniFi Network ecosystem (v9.1.119 or later), it supports centralized configuration, monitoring, and unified firmware management alongside the rest of your UniFi infrastructure.
Whether used as a redundant WAN interface, fiber aggregation switch, or managed demarcation point, the USW-WAN delivers the reliability and seamless integration modern businesses demand.
Why Choose the USW-WAN?
Specialized WAN Connectivity
Features 3x 10GbE SFP+ ports for fiber uplinks and 1x RJ45 Gigabit Ethernet port for management or auxiliary connections.
Built-In Power Redundancy
Includes dual internal AC power supplies for hot failover, ensuring uninterrupted operation in case of PSU failure.
Compact 1U Rack Design (120 mm Depth)
Optimized for edge racks and operator enclosures, taking up minimal space while consuming just 13W of power.
Centralized UniFi Management
Fully managed via the UniFi Network platform, enabling unified configuration, monitoring, and firmware updates across your network.
Aggregation or Media Conversion Functionality
Acts as a fiber aggregation hub or copper-to-fiber media converter, with full redundancy and real-time visibility.
Key Specifications
-
Dimensions: 442.4 × 120 × 44 mm (1U rack-mount)
-
Weight: 2.3 kg
-
Ports: 3× 10GbE SFP+, 1× GbE RJ45
-
Power: Dual internal AC PSUs (redundant)
-
Max Power Consumption: 13W
-
Chassis Material: SGCC steel
-
Mounting: Standard 1U rack
-
Management: UniFi Network (v9.1.119+)
Ideal For
Businesses with Multiple Fiber WANs
Aggregate, manage, and monitor several Internet links simultaneously with full redundancy.
High-Availability Infrastructures
Perfect for mission-critical networks requiring dual PSU redundancy and continuous uptime.
Service Providers and Data Centers
Functions as a managed demarcation point (NID) with centralized monitoring and performance visibility.
UniFi Users Demanding WAN Reliability
Seamlessly integrates with UniFi gateways, switches, and controllers for a unified management experience.
Copper ↔ Fiber Conversion Scenarios
Ideal as a managed media converter with redundant power and live link monitoring for hybrid network environments.
UniFi WAN Switch
€245,00 €301,35 Incl. VAT
Description
USW-WAN: UniFi Switch for Network Edge with 3x 10G SFP+, 1x GbE RJ45, and Dual AC Power Redundancy
Reliable, managed WAN aggregation switch with 10G fiber uplinks and full power redundancy.
Ubiquiti UniFi Switch WAN (USW-WAN): Reliable WAN Interface with 10G Uplinks and Total Redundancy
The Ubiquiti UniFi Switch WAN (USW-WAN) is a specialized managed switch designed to serve as an aggregation and handoff point at the network edge.
Equipped with three 10Gbps SFP+ ports and one RJ45 Gigabit Ethernet port, it’s ideal for aggregating multiple fiber WAN links or functioning as a managed media converter.
Its defining feature is the inclusion of dual internal AC power supplies (hot failover), ensuring maximum uptime and reliability in mission-critical environments.
Built in a compact 1U rack-mount form factor (only 120 mm deep), the USW-WAN is both robust and energy-efficient, consuming just 13W.
As part of the UniFi Network ecosystem (v9.1.119 or later), it supports centralized configuration, monitoring, and unified firmware management alongside the rest of your UniFi infrastructure.
Whether used as a redundant WAN interface, fiber aggregation switch, or managed demarcation point, the USW-WAN delivers the reliability and seamless integration modern businesses demand.
Why Choose the USW-WAN?
Specialized WAN Connectivity
Features 3x 10GbE SFP+ ports for fiber uplinks and 1x RJ45 Gigabit Ethernet port for management or auxiliary connections.
Built-In Power Redundancy
Includes dual internal AC power supplies for hot failover, ensuring uninterrupted operation in case of PSU failure.
Compact 1U Rack Design (120 mm Depth)
Optimized for edge racks and operator enclosures, taking up minimal space while consuming just 13W of power.
Centralized UniFi Management
Fully managed via the UniFi Network platform, enabling unified configuration, monitoring, and firmware updates across your network.
Aggregation or Media Conversion Functionality
Acts as a fiber aggregation hub or copper-to-fiber media converter, with full redundancy and real-time visibility.
Key Specifications
-
Dimensions: 442.4 × 120 × 44 mm (1U rack-mount)
-
Weight: 2.3 kg
-
Ports: 3× 10GbE SFP+, 1× GbE RJ45
-
Power: Dual internal AC PSUs (redundant)
-
Max Power Consumption: 13W
-
Chassis Material: SGCC steel
-
Mounting: Standard 1U rack
-
Management: UniFi Network (v9.1.119+)
Ideal For
Businesses with Multiple Fiber WANs
Aggregate, manage, and monitor several Internet links simultaneously with full redundancy.
High-Availability Infrastructures
Perfect for mission-critical networks requiring dual PSU redundancy and continuous uptime.
Service Providers and Data Centers
Functions as a managed demarcation point (NID) with centralized monitoring and performance visibility.
UniFi Users Demanding WAN Reliability
Seamlessly integrates with UniFi gateways, switches, and controllers for a unified management experience.
Copper ↔ Fiber Conversion Scenarios
Ideal as a managed media converter with redundant power and live link monitoring for hybrid network environments.