ON Semiconductor MC100LVEL92DWR2G

The MC100LVEL92DWR2G is a high-performance, dual modulus prescaler fabricated by ON Semiconductor, a pioneer in energy-efficient innovations. This component is designed to operate at a nominal 5 V supply voltage, making it suitable for a wide range of applications including but not limited to telecommunications, data transmission, and signal processing systems.

The prescaler is part of the ECLinPS MAX™ family, which is renowned for its high speed and low power consumption. The device features a fully differential system capable of dividing by 4 or 5, which allows for flexibility in frequency division and makes it an ideal choice for PLL (Phase-Locked Loop) applications. The MC100LVEL92DWR2G operates with a frequency range up to 3.5 GHz, ensuring it can handle high-speed signals with ease.

With a 2:1 multiplexer input, the prescaler provides additional versatility by allowing the selection between two input signals. This makes it highly suitable for complex systems that require dynamic switching between different frequency sources. The device also offers a differential PECL (Positive Emitter-Coupled Logic) clock input, which is essential for maintaining signal integrity in noisy environments common in high-frequency applications.

ON Semiconductor has designed the MC100LVEL92DWR2G with reliability in mind. It is housed in a 20-SOIC wide body package, which provides a robust and durable form factor. Additionally, the prescaler is specified for the industrial temperature range of -40°C to +85°C, ensuring stable operation under varying environmental conditions.

The device is also RoHS compliant, reflecting ON Semiconductor's commitment to environmental sustainability. The lead-free manufacturing process ensures that the MC100LVEL92DWR2G meets current environmental standards, making it a responsible choice for both new designs and as a replacement in existing systems.

In summary, the ON Semiconductor MC100LVEL92DWR2G is a versatile, high-speed prescaler that offers low power consumption, flexibility, and durability, making it an excellent choice for designers looking to optimize their high-frequency systems.