Safe Checkout
Secure Payments
Fast Delivery
Order Today
Free Shipping
Across the US
Easy Returns
Hassle-Free
Juniper JNP-SFP-10G-BX10U 10Gb/s 10GBase-BX-U 10km SFP+ Transceiver
- Form Factor: SFP+
- Data Rate: 10Gb/s
- Standard: 10GBase-BX-U
- Connector Type: Simplex LC
- Fiber Type: Single-Mode Fiber (SMF)
- Wavelength: Bi-Directional (BX)
- Reach: 10km
Click on Inquire to get latest price
Free U.S. Ground Shipping
Typically 1-2 handling + 3-7 transit days
Purchase orders accepted
For government, enterprise, data center, and small business customers.
Bulk Purchase Inquiry
Volume pricing and availability
Product Overview
The Juniper JNP-SFP-10G-BX10U is a 10Gb/s SFP+ transceiver designed for 10GBase-BX-U applications. It supports transmission up to 10km over single-mode fiber.
Technical Information
| Product Type | SFP+ Transceiver |
| Data Rate | 10 Gb/s |
| Standard | 10GBase-BX-U |
| Connector | Simplex LC |
Additional Specifications
| Fiber Type | Single-Mode Fiber (SMF) |
| Wavelength | Bi-Directional (BX) |
| Reach | 10 km |
Product Description
The Juniper JNP-SFP-10G-BX10U is an SFP+ (Small Form-factor Pluggable Plus) transceiver module engineered for 10 Gigabit Ethernet networks. It adheres to the 10GBase-BX-U standard, which utilizes Bi-Directional (BX) technology to transmit and receive data over a single strand of single-mode fiber. This is achieved by using different wavelengths for the upstream and downstream signals, requiring a paired transceiver at the other end. This transceiver is designed for a reach of up to 10 kilometers, making it suitable for metro area networks, campus backbones, and long-reach enterprise links. The use of single-mode fiber ensures signal integrity over these extended distances. The simplex LC connector is employed due to the single-fiber nature of BX technology. As a 'BX-U' variant, it typically operates with specific upstream and downstream wavelengths (e.g., 1310nm TX / 1490nm RX or vice versa), and must be paired with a 'BX-D' transceiver or another 'BX-U' transceiver with complementary wavelengths. This provides an efficient solution for extending network connectivity where deploying dual fiber strands is not feasible or cost-effective.
