Intel SFP+ Transceiver Module, 10km, 1310nm Single-mode Fiber E65685-003.
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SKU/MPN | Warranty | Price | Condition | You save |
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E65685-003 | Six-Month (180 Days) | $104.00 | Excellent Refurbished | You save: $61.00 (37%) |
E65685-003 | Six-Month (180 Days) | $114.00 | Factory-Sealed New in Original Box (FSB) | You save: $66.00 (37%) |
Product Details
INTEL E65685-003: SFP Transceiver Module
Essential Features
- Device Type: SFP+ Transceiver Module engineered for high-performance networking.
- Module Design: Plug-in form factor allows for easy installation and integration into existing systems.
- Connection Technology: Wired connectivity ensures stable and dependable data transfer.
- Cabling Standards: Supports 1000BASE-LX and 10GBASE-LR cabling types for versatile applications.
- Data Link Protocols: Compatible with both Gigabit Ethernet and 10 Gigabit Ethernet protocols for efficient data management.
- Optical Wavelength: Operates at a wavelength of 1310 nm for optimal signal quality.
- Interface Configuration: Features 1 x Ethernet network port for 10GBASE-LR connectivity.
- Compatible Slots: Designed for use in 1 x SFP+ slots, ensuring seamless integration into a variety of devices.
Performance Overview
Speed and Efficiency
- Optimized for rapid data transmission, ideal for high-demand networking environments.
- Provides reliable connectivity with minimal latency, enhancing performance for critical applications.
Integration and Compatibility
- Effortlessly integrates with a range of networking devices that support SFP+ modules.
- Compatible with both legacy and contemporary systems, allowing for easy upgrades and enhancements.
Application Scenarios
- Ideal for data centers requiring robust, high-speed connections for substantial data transfers.
- Well-suited for enterprise networks that demand consistent performance and reliability.
- Perfect for telecommunications setups where efficient long-distance data transmission is essential.
Advantages of the INTEL E65685-003
- Durable construction ensures longevity and performance across various operational conditions.
- Backed by Intel’s trusted technology, promoting efficient data management and stability.
- Versatile design caters to a wide array of applications, facilitating network scalability.
Wavelength: 1310nm
Wavelength refers to the distance between two consecutive points in a wave, such as light or sound. In the context of the Intel SFP+ Transceiver Module with a 10km range, the wavelength is an essential feature to consider.
Importance of 1310nm Wavelength
The 1310nm wavelength is a significant factor in determining the performance and compatibility of the transceiver module. It is specifically designed for long-range communication over single-mode fiber networks. Let's take a closer look at the benefits and importance of this wavelength:
1. Long-Range Transmission
The 1310nm wavelength enables long-range transmission capabilities, making it ideal for networks that require communication over extended distances. With this transceiver module, data can be transmitted up to 10 kilometers without any signal degradation or loss. This ensures reliable and uninterrupted communication, even in large-scale network deployments.
2. Enhanced Signal Quality
Using the 1310nm wavelength allows for improved signal quality during data transmission. As single-mode fibers are designed to transmit a single mode of light, they offer better clarity and reduced signal loss compared to multi-mode fibers. This wavelength ensures that your data travels efficiently without any distortion or interference, resulting in higher data integrity.
3. Compatibility with Existing Network Infrastructure
One of the advantages of the 1310nm wavelength is its compatibility with existing single-mode fiber networks. Many network infrastructures are already built using single-mode fibers due to their superior performance over longer distances. The Intel SFP+ Transceiver Module with a 1310nm wavelength seamlessly integrates into these networks, allowing users to leverage their existing infrastructure while upgrading their capabilities.
4. Future-Proof Investment
Investing in a transceiver module with a 1310nm wavelength ensures future-proofing your network infrastructure. As technology advances, the demand for higher data transmission speeds and longer distances will continue to grow. By opting for a transceiver module that supports the 1310nm wavelength, you can be confident that your network will be ready to handle future requirements without the need for significant upgrades or replacements.
Compatibility Note:
It is crucial to ensure that your network equipment, such as switches or routers, supports the 1310nm wavelength. Verify compatibility before purchasing the Intel SFP+ Transceiver Module to ensure seamless integration into your network.
Fiber Type: Single-mode
Understanding Single-mode Fiber
When it comes to fiber optics, there are two primary types: single-mode and multi-mode. The Intel SFP+ Transceiver Module supports single-mode fiber, which plays a crucial role in determining the module's performance and suitability for specific applications.
Importance of Single-mode Fiber
Single-mode fiber offers several advantages over multi-mode fiber, making it an ideal choice for long-range communication and high-speed data transmission. Here are some key benefits and the importance of single-mode fiber:
1. Longer Transmission Distances
One of the primary advantages of single-mode fiber is its ability to transmit data over longer distances compared to multi-mode fiber. The small core size of single-mode fibers allows for better focus and minimal dispersion, resulting in reduced signal loss over extended distances. With the Intel SFP+ Transceiver Module supporting single-mode fiber, you can achieve reliable communication up to 10 kilometers without compromising signal quality.
2. Higher Bandwidth Capacity
Single-mode fiber offers a significantly higher bandwidth capacity compared to multi-mode fibers. This increased capacity allows for faster data transmission speeds and the ability to handle higher volumes of network traffic. By utilizing the single-mode fiber support in the Intel SFP+ Transceiver Module, users can enjoy enhanced network performance, especially in environments with heavy data loads or bandwidth-intensive applications.
3. Immunity to Modal Dispersion
Modal dispersion is a phenomenon that occurs in multi-mode fibers, where different light modes travel at different speeds, causing signal distortion and loss. Single-mode fiber eliminates this issue by allowing only a single light mode to propagate through the fiber. This ensures that data experiences minimal distortion and interference during transmission, resulting in higher data integrity and reliability.
4. Compatibility with Long-Distance Networks
Many long-distance networks, such as those used in telecommunications or data centers, rely on single-mode fiber due to its superior performance characteristics. By choosing the Intel SFP+ Transceiver Module with single-mode fiber support, you can seamlessly integrate with these networks and leverage their capabilities without any compatibility issues.
Compatibility Note:
Before deploying the Intel SFP+ Transceiver Module with single-mode fiber, ensure that your network infrastructure supports this type of fiber. Also, verify the compatibility of your existing equipment, such as switches or routers, to guarantee seamless integration and optimal performance.
In conclusion, the Intel SFP+ Transceiver Module with a 1310nm wavelength and support for single-mode fiber offers users significant benefits and ensures reliable long-range communication. The 1310nm wavelength enables long-distance transmission, enhances signal quality, provides compatibility with existing networks, and future-proofs your investment. Single-mode fiber further enhances performance by enabling longer transmission distances, higher bandwidth capacity, immunity to modal dispersion, and compatibility with long-distance networks. By considering these features, users can make informed decisions about integrating the Intel SFP+ Transceiver Module into their network infrastructure.