The DSC1001DI1-033.3300T is a cutting-edge silicon MEMS (Micro-Electro-Mechanical Systems) oscillator from Microchip Technology, a leader in the field of microcontroller and analog semiconductors. This high-performance, low-power component is designed to deliver exceptional timing precision and stability in a variety of electronic applications.

Key Features

• Frequency Range: This device offers a precise frequency of 33.3300 MHz, suitable for applications requiring high accuracy and tight frequency stability.
• Supply Voltage: Operating with a supply voltage of 1.8V, the DSC1001DI1-033.3300T is optimized for low-power applications, contributing to energy-efficient designs.
• Package Type: Housed in a 4-SMD, no lead package, it is compact and suitable for space-constrained applications.
• Temperature Stability: The oscillator maintains consistent performance over a wide temperature range, making it reliable for use in environments with varying temperatures.
• Output Type: It provides a CMOS output, ensuring compatibility with most digital circuits and ease of integration into a broad range of electronic systems.
• Low Jitter: The DSC1001DI1-033.3300T is designed to produce low phase jitter, which is crucial for maintaining signal integrity in digital communication systems.

Applications

The versatility of the DSC1001DI1-033.3300T makes it an ideal choice for a variety of applications, including but not limited to:

• Networking equipment such as routers, switches, and network interface cards
• Consumer electronics including wearables, smart home devices, and gaming consoles
• Industrial systems, particularly those requiring precise timing, such as automation and control systems
• Telecommunications infrastructure, including base stations and wireless communication equipment

Quality and Reliability

Microchip Technology is known for its commitment to quality and the DSC1001DI1-033.3300T is no exception. It is built to meet high standards of reliability and performance, ensuring long-term stability and operation in diverse conditions.