ON Semiconductor MC10EP35DR2 Flip-Flop
The ON Semiconductor MC10EP35DR2 is a high-performance, differential clock D-type flip-flop integrated circuit designed to meet the demanding requirements of high-speed data communication systems. This advanced flip-flop is part of ON Semiconductor's EP35 series, known for its fast propagation delays and high-frequency operation capabilities.
The MC10EP35DR2 operates with a differential clock (CLK) input and features a single D-type data input. It provides complementary Q and Q-bar outputs, ensuring reliable signal processing in applications that require precise timing and control. The device's ability to handle fast edge rates makes it an ideal choice for high-speed data paths in telecommunications, computing, and data storage applications.
This flip-flop is characterized by its differential CLK inputs, which accept LVPECL (Low Voltage Positive Emitter Coupled Logic) level signals. The use of LVPECL technology contributes to the MC10EP35DR2's excellent noise immunity and low power dissipation, making it suitable for high-speed, low-power environments.
The MC10EP35DR2 also features a master reset (MR) input that asynchronously resets the Q output to a low state when a high logical level is applied, providing additional control and safety mechanisms for system design. This reset function is particularly useful in initialization processes and error recovery protocols within complex digital systems.
Constructed using ON Semiconductor's advanced bipolar technology, the MC10EP35DR2 is packaged in a compact 8-lead SOIC format, which allows for efficient use of board space without compromising performance. The device is specified for operation over the full industrial temperature range of -40°C to +85°C, ensuring reliability and stability in a wide range of environmental conditions.
In summary, the ON Semiconductor MC10EP35DR2 is a versatile and reliable component that offers high-speed operation, differential signaling, and low power consumption. Its robust design and advanced features make it an excellent choice for designers looking to enhance the performance and integrity of their digital systems.