The MC10EP35DG is a cutting-edge differential clock D-type flip-flop designed and manufactured by ON Semiconductor, a leader in energy-efficient innovations. This device is part of the 10EP series, which is known for its high-speed integrated circuits fabricated in ON Semiconductor's advanced, cost-effective ECL process.
As a master-slave flip-flop, the MC10EP35DG is adept at handling fast clock frequencies with a typical clock-to-Q delay of just 250 ps. This makes it an ideal choice for applications requiring high-speed data processing and precise timing, such as advanced computing systems, high-speed networking equipment, and telecommunications infrastructures.
Key Features of the MC10EP35DG
- High Speed: The device boasts a maximum frequency of 3 GHz, ensuring rapid data handling capabilities.
- Differential Clock Inputs: The MC10EP35DG's differential inputs reduce common-mode noise, providing stable operation in electrically noisy environments.
- PECL Mode Operating Range: The device operates within the PECL mode voltage range of −4.2 V to −5.7 V, accommodating various system design requirements.
- Temperature Range: It is designed to operate over a full industrial temperature range of −40°C to +85°C, ensuring reliability in a wide range of environments.
- Functionality: The flip-flop features a master-slave configuration with asynchronous direct set and reset inputs.
- Package: The MC10EP35DG is available in an 8-lead SOIC package, providing a compact and easy-to-integrate solution for PCB designs.
The device's robust design includes 75 kΩ input pull-down resistors and 20 kΩ output pull-down resistors, which contribute to its stability and ease of use in various circuit configurations. Additionally, the MC10EP35DG is characterized for operation from a 3.3 V supply, with VCC = 0 V for all inputs and outputs, making it a versatile component for a range of power supply designs.
Overall, the ON Semiconductor MC10EP35DG is a high-performance solution for designers looking to leverage the speed and reliability of differential signaling in their digital systems. Its advanced features and robust design make it a key component in the creation of efficient and high-speed electronic products.