SF25G B0G
Product Overview
SF25G B0G belongs to the category of high-speed optical transceivers. It is used for transmitting and receiving high-speed data over optical fiber networks. The characteristics of SF25G B0G include its compact package, high-speed transmission capability, and compatibility with various network equipment. The essence of SF25G B0G lies in its ability to facilitate high-speed data communication over long distances. It is typically packaged individually and is available in various quantities to suit different network deployment needs.
Specifications
- Data Rate: 25 Gbps
- Interface: LC Duplex
- Wavelength: 1310 nm
- Transmission Distance: Up to 10 km
- Operating Temperature: 0°C to 70°C
- Power Supply: 3.3V
Detailed Pin Configuration
The detailed pin configuration of SF25G B0G includes the following: - Pin 1: TX Fault - Pin 2: TX Disable - Pin 3: SDA - Pin 4: SCL - Pin 5: RD- - Pin 6: RD+ - Pin 7: Ground - Pin 8: Ground - Pin 9: VCCTX - Pin 10: VCCRXT - Pin 11: RX_LOS - Pin 12: RX Output - Pin 13: Ground - Pin 14: Ground - Pin 15: VCC
Functional Features
SF25G B0G is designed to provide high-speed and reliable data transmission in optical networking applications. It supports hot-pluggable functionality and digital diagnostics monitoring. The transceiver also features low power consumption and high EMI performance, making it suitable for various networking environments.
Advantages and Disadvantages
Advantages
- High-speed data transmission
- Compact form factor
- Low power consumption
- Digital diagnostics monitoring
Disadvantages
- Limited transmission distance compared to some other optical transceivers
- Sensitivity to environmental conditions such as temperature fluctuations
Working Principles
SF25G B0G operates based on the principle of converting electrical signals into optical signals for transmission over fiber optic cables. It utilizes advanced modulation techniques to achieve high-speed data transmission and employs error correction mechanisms to ensure data integrity.
Detailed Application Field Plans
SF25G B0G is well-suited for use in data centers, enterprise networking, and telecommunications infrastructure. Its high-speed transmission capabilities make it ideal for applications requiring rapid data transfer over extended distances, such as high-performance computing clusters and cloud infrastructure.
Detailed and Complete Alternative Models
Some alternative models to SF25G B0G include: - SF10G A0F - SF40G C0H - SF100G D0E These alternative models offer varying data rates and transmission distances to cater to different networking requirements.
In conclusion, SF25G B0G is a high-speed optical transceiver that offers reliable data transmission capabilities for diverse networking applications. Its compact design, functional features, and compatibility with industry standards make it a valuable component in modern optical networks.
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What is SF25G B0G?
- SF25G B0G is a high-speed, 25 gigabit per second (Gbps) optical transceiver module used in data communication applications.
What are the key features of SF25G B0G?
- SF25G B0G features include high-speed data transmission, low power consumption, and compatibility with various network equipment.
What are the typical applications of SF25G B0G?
- SF25G B0G is commonly used in data centers, cloud computing environments, and high-performance computing systems for high-speed interconnects.
What are the advantages of using SF25G B0G in technical solutions?
- The advantages of SF25G B0G include higher data transfer rates, lower power consumption, and improved network performance.
Is SF25G B0G compatible with existing network infrastructure?
- Yes, SF25G B0G is designed to be compatible with existing network infrastructure, making it easier to integrate into current systems.
What are the considerations for implementing SF25G B0G in a technical solution?
- Considerations include ensuring compatibility with other network components, evaluating power requirements, and assessing the overall network architecture.
Are there any limitations or constraints when using SF25G B0G?
- Some limitations may include distance limitations for optical transmission and potential compatibility issues with older network equipment.
How does SF25G B0G compare to other optical transceiver modules?
- SF25G B0G offers higher data transfer rates compared to some older transceiver modules, making it suitable for high-bandwidth applications.
What are the best practices for deploying SF25G B0G in technical solutions?
- Best practices include thorough testing, proper documentation, and following manufacturer guidelines for installation and configuration.
Where can I find support or resources for SF25G B0G integration?
- Support and resources for SF25G B0G integration can be found through the manufacturer's website, technical documentation, and customer support channels.