ON Semiconductor MC10EP35DR2G Flip-Flop

The MC10EP35DR2G is a high-performance, single differential D-type flip-flop with a clock enable feature, designed and manufactured by ON Semiconductor. This advanced logic device is part of ON Semiconductor's 10EP series, which is renowned for its fast propagation delays and high-frequency operation. It is specifically engineered to address the needs of high-speed data communication and signal processing applications.

Constructed with ON Semiconductor's proprietary high-speed bipolar ECL (Emitter Coupled Logic) technology, the MC10EP35DR2G offers a combination of high-speed performance and minimal power consumption, making it an ideal choice for critical timing applications. The device operates within a voltage range of -4.2V to -5.7V, allowing for compatibility with ECL systems.

The MC10EP35DR2G features a differential clock input and a single-ended clock enable input. The clock enable input allows the flip-flop to toggle, ensuring that data is only passed through when the enable condition is met. This function is crucial for managing data flow and timing within complex digital systems, providing designers with greater control over their circuit operations.

With a maximum clock frequency of 3 GHz and a typical propagation delay of just 175 ps, the MC10EP35DR2G is exceptionally well-suited for high-speed applications where timing precision is paramount. The device comes in a compact 8-pin SOIC package, offering a space-saving solution for densely packed circuit boards.

ON Semiconductor's commitment to quality and reliability is evident in the MC10EP35DR2G, which features over-voltage tolerance and protection against electrostatic discharge (ESD). This flip-flop is a perfect choice for telecommunications, data processing, aerospace, and other industries that demand the highest levels of performance and durability.

In summary, the MC10EP35DR2G from ON Semiconductor is a versatile and reliable component that excels in fast-paced, high-frequency environments. Its advanced features and robust design make it a key building block for designers looking to create efficient, high-performance digital systems.