The MC100EL33DT is a high-performance clock divider chip from ON Semiconductor, designed to meet the needs of advanced digital systems. This integrated circuit is part of the 100EL family, known for their robustness and reliability in various applications. The MC100EL33DT offers a divide-by-4 counter functionality, which is essential for systems requiring frequency division for timing and synchronization purposes.

Manufactured with advanced bipolar technology, the MC100EL33DT delivers exceptional performance that includes a very high-frequency operation and a low propagation delay. These characteristics make it an ideal choice for use in high-speed computing, telecommunication, and networking equipment where precise timing is crucial. The device operates over a wide voltage range from -4.2V to -5.7V, providing flexibility in different design scenarios and ensuring compatibility with various power supply standards.

The MC100EL33DT is available in a compact 8-pin SOIC package, making it suitable for space-constrained applications. Its fully differential clock paths ensure that the signal integrity is maintained even in environments with high levels of electrical noise. This differential feature also helps to minimize the generation of electromagnetic interference (EMI), which is particularly important in densely packed electronic assemblies.

Key features of the MC100EL33DT include an asynchronous Master Reset (MR) input, which allows the counter to be reset independently of the clock signal, and a fully synchronous system design, ensuring that the output transitions occur only on the rising edge of the clock input. This synchronous design prevents glitches and runt pulses, leading to more stable and reliable operation.

ON Semiconductor's commitment to quality ensures that the MC100EL33DT meets stringent industry standards for performance and reliability. With its advanced features and proven technology, the MC100EL33DT is a versatile solution for designers looking to implement efficient clock division in their digital systems.