ON Semiconductor MC100E016FNR2G Product Overview

The MC100E016FNR2G from ON Semiconductor is a high-performance 5V ECL 8-Bit Binary Ripple Counter designed for use in applications requiring fast and precise digital counting. This integrated circuit is part of ON Semiconductor's 10E series, which is renowned for its high-speed operation and reliability in demanding environments.

Key Features

• Technology: The device utilizes advanced Emitter Coupled Logic (ECL) technology, ensuring rapid signal processing and minimal propagation delays.
• Operating Voltage: It operates at a 5V power supply voltage, making it compatible with a wide range of digital systems.
• Count Frequency: The counter has a maximum count frequency of 250 MHz, allowing for high-speed operations suitable for fast digital systems.
• Output Type: Differential ECL outputs provide improved noise immunity and allow for the direct interfacing with other ECL components.
• Package: Housed in a 28-lead PLCC (Plastic Leaded Chip Carrier) package, the MC100E016FNR2G offers a compact footprint and is suitable for surface mount technology (SMT).

Applications

The MC100E016FNR2G is designed for a broad range of high-speed digital applications, including:

• Frequency division
• Time measurement
• High-speed computing
• Telecommunications
• Automated test equipment (ATE)
• Industrial control systems

Performance and Quality

ON Semiconductor's commitment to quality ensures that the MC100E016FNR2G meets stringent performance criteria. The device is characterized for operation from -40°C to +85°C, making it suitable for industrial temperature ranges. Additionally, it is designed to meet or exceed the reliability and performance standards expected in professional electronic components.

Conclusion

The MC100E016FNR2G from ON Semiconductor is an ideal choice for designers looking for a reliable and high-speed 8-bit binary ripple counter. With its ECL technology, high count frequency, and robust package, this counter can be integrated into a variety of high-performance digital systems that require precision and speed.