The ON Semiconductor 100LVEL16MX is a high-performance, low-power differential receiver that is designed to meet the demanding requirements of today's high-speed data communication networks. This device is part of the ECLinPS MAX™ family, which is known for its exceptional speed and signal integrity.

Key Features

• High-Speed Performance: With a typical propagation delay of 225 ps and a maximum operating frequency of 3.0 GHz, the 100LVEL16MX is optimized for ultra-fast data transmission.
• Differential Design: The differential inputs and outputs ensure reduced electromagnetic interference (EMI) and crosstalk, enhancing the signal integrity and noise immunity of your system.
• Power Efficiency: Operating from a -4.2 V to -5.5 V power supply, this device is engineered for low power consumption without compromising on its high-speed capabilities.
• Flexible Use: The 100LVEL16MX can be used as a differential line receiver or in other applications such as a differential data and clock D flip-flop.
• SOP-8 Packaging: Housed in a small-outline 8-pin package, it saves valuable board space while providing robust performance.

Applications

The versatility of the 100LVEL16MX makes it suitable for a wide range of applications, including:

• High-speed data transmission systems
• Telecommunications and networking equipment
• Signal processing
• Automated test equipment
• Backplane interconnects

Quality and Reliability

ON Semiconductor is committed to delivering high-quality products. The 100LVEL16MX is manufactured with the highest standards, ensuring reliable performance in critical applications. Its robust design is capable of withstanding the rigors of industrial environments while maintaining accuracy and precision.

Conclusion

The 100LVEL16MX from ON Semiconductor is a testament to the company's dedication to innovation and excellence in the field of high-speed data communication. This differential receiver is an ideal choice for designers looking to enhance their systems with a component that offers high speed, low power consumption, and exceptional signal integrity.