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X2-10GB-SR | Cisco 10GB BASE-SR 850nm Short Reach MMF X2 Transceiver
- Regular price
- $84.00
- Sale price
- $84.00
- Regular price
-
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Product Description P/N: X2-10GB-SR
Description
The X2-10GB-SR is a high-performance 10GBASE-SR X2 transceiver module designed to support short-reach 10 Gigabit Ethernet connectivity over multimode fiber (MMF). Operating at a wavelength of 850 nm, it provides a reliable and efficient solution for short-distance, high-bandwidth data transmission.
Technical Specifications
|
Condition |
New/Never Used Surplus |
|---|---|
| Brand | Cisco |
| Category |
Optical Transceivers
|
| Part Number | X2-10GB-SR |
| Subcatecory |
X2 Modules / 10GBASE-SR
|
| Wavelength | 850 nm |
| Connector Interface | SC Duplex |
| Cable Type | Multimode Fiber (MMF) |
| Max Distance |
300 m (OM3 fiber) |
| Max Data Rate |
10 Gbps |
| TX Power |
-7.3 to -1.2 dBm |
| Receiver Sensitivity |
< -11.1 dBm |
| Optical Component |
VCSEL 850 nm |
| Operating Temperature |
0°C to 70°C (32°F to 158°F) |
Information About X2-10GB-SR
The X2-10GB-SR is fully compatible with Cisco networking equipment that supports the X2 form factor and offers seamless integration into data centers, enterprise core networks, and campus backbone infrastructures. With a maximum link distance of up to 300 meters using OM3 MMF, this module is ideal for intra-building connectivity and aggregation layers.
Key Features:
-
10 Gigabit Ethernet Support: Delivers up to 10 Gbps over short distances using multimode fiber.
-
Optimized for MMF: Designed for 850 nm wavelength operation, achieving up to 300 meters with OM3 cabling.
-
DOM Functionality: Includes Digital Optical Monitoring for enhanced network manageability and performance monitoring.
-
Reliable Build: Operates within a commercial temperature range of 0 to 70°C (32 to 158°F) for dependable performance in data center environments.
-
Standard Interface: Features a SC duplex connector for easy integration into existing fiber infrastructures.
The X2-10GB-SR ensures fast and stable optical networking performance in environments where cost-effective, high-bandwidth communication is essential.
Description
The X2-10GB-SR is a high-performance 10GBASE-SR X2 transceiver module designed to support short-reach 10 Gigabit Ethernet connectivity over multimode fiber (MMF). Operating at a wavelength of 850 nm, it provides a reliable and efficient solution for short-distance, high-bandwidth data transmission.
Technical Specifications
|
Condition |
New/Never Used Surplus |
|---|---|
| Brand | Cisco |
| Category |
Optical Transceivers
|
| Part Number | X2-10GB-SR |
| Subcatecory |
X2 Modules / 10GBASE-SR
|
| Wavelength | 850 nm |
| Connector Interface | SC Duplex |
| Cable Type | Multimode Fiber (MMF) |
| Max Distance |
300 m (OM3 fiber) |
| Max Data Rate |
10 Gbps |
| TX Power |
-7.3 to -1.2 dBm |
| Receiver Sensitivity |
< -11.1 dBm |
| Optical Component |
VCSEL 850 nm |
| Operating Temperature |
0°C to 70°C (32°F to 158°F) |
Information About X2-10GB-SR
The X2-10GB-SR is fully compatible with Cisco networking equipment that supports the X2 form factor and offers seamless integration into data centers, enterprise core networks, and campus backbone infrastructures. With a maximum link distance of up to 300 meters using OM3 MMF, this module is ideal for intra-building connectivity and aggregation layers.
Key Features:
-
10 Gigabit Ethernet Support: Delivers up to 10 Gbps over short distances using multimode fiber.
-
Optimized for MMF: Designed for 850 nm wavelength operation, achieving up to 300 meters with OM3 cabling.
-
DOM Functionality: Includes Digital Optical Monitoring for enhanced network manageability and performance monitoring.
-
Reliable Build: Operates within a commercial temperature range of 0 to 70°C (32 to 158°F) for dependable performance in data center environments.
-
Standard Interface: Features a SC duplex connector for easy integration into existing fiber infrastructures.
The X2-10GB-SR ensures fast and stable optical networking performance in environments where cost-effective, high-bandwidth communication is essential.