Product Overview: MC100LVEL30DWG from ON Semiconductor

The MC100LVEL30DWG is a high-performance, dual differential D flip-flop with set and reset capabilities, manufactured by ON Semiconductor. This device is designed for use in applications requiring fast and precise edge-triggered flip-flop functions, making it ideal for frequency division, clock generation, and data synchronization tasks.

Built upon ON Semiconductor's advanced high-speed bipolar technology, the MC100LVEL30DWG operates with a supply voltage range of 3.0V to 3.8V, which allows for low power consumption while maintaining high-speed operation. This makes it suitable for battery-powered and portable devices where power efficiency is crucial.

The device features a fully differential design that minimizes skew and provides for improved noise immunity, a critical aspect for maintaining signal integrity in noisy environments or high-speed digital systems. The MC100LVEL30DWG can toggle at frequencies up to 2 GHz, and its fast propagation delay times ensure reliable and fast data transfer in critical applications.

The MC100LVEL30DWG is offered in a compact surface-mount SOIC-20 wide body package, providing a space-efficient solution for densely packed circuit boards. Its operating temperature range of -40°C to +85°C ensures stable performance across various environmental conditions.

Key features of the MC100LVEL30DWG include the asynchronous set (ASET) and reset (ARESET) inputs, which allow the flip-flop to be preset or cleared independently of the clock signal. This functionality is essential for initializing or resetting digital circuits without disturbing the clocking sequence. Additionally, the device is equipped with Q and Q* outputs, which provide complementary output states for enhanced design flexibility.

ON Semiconductor's commitment to quality ensures that the MC100LVEL30DWG meets stringent reliability and performance standards. It is a versatile component that is well-suited for a broad range of high-speed digital applications, including telecommunications, computing, and advanced signal processing systems.