Product Overview: DSC6311JI2FB-008.0000

The DSC6311JI2FB-008.0000 is a state-of-the-art MEMS oscillator from the renowned manufacturer Microchip Technology. This precision device is engineered to provide a stable and reliable clock signal, which is essential for driving the timing of electronic circuits in a wide array of applications. Its compact footprint and low power consumption make it an ideal choice for modern, space-constrained electronic designs.

Key Features

• Frequency: The oscillator operates at a fixed frequency of 8.0000 MHz, which is a common clock frequency used in many digital systems, ensuring compatibility and ease of integration.
• Supply Voltage: It is designed to work with a supply voltage of 1.8V, catering to low-power applications and contributing to overall power efficiency in the systems it is used in.
• Stability: The DSC6311 series boasts excellent frequency stability, which is crucial for applications where consistent timing is paramount.
• Package: Enclosed in a 4-SMD, No Lead package, the DSC6311JI2FB-008.0000 is designed for surface-mount technology (SMT), allowing for efficient assembly and space-saving on printed circuit boards (PCBs).
• Temperature Range: This device operates over an industrial temperature range, ensuring reliable performance even under harsh environmental conditions.
• RoHS Compliant: The oscillator is RoHS compliant, meaning it is manufactured without the use of hazardous substances, making it environmentally friendly and suitable for use in a wide range of markets.

Applications

The DSC6311JI2FB-008.0000 is versatile and can be used in various applications including:

• Consumer electronics such as smartphones, tablets, and wearables
• Industrial control systems
• Internet of Things (IoT) devices
• Networking equipment like routers and switches
• Medical devices that require precise timing

With its robust design and high precision, the DSC6311JI2FB-008.0000 from Microchip Technology is an excellent choice for designers looking to ensure the accuracy and stability of their digital systems' clocking needs.