Product Overview

The DSC6083JI2A-032K768T is a high-performance, ultra-low-power MEMS oscillator from Microchip Technology, designed to provide exceptional stability and reliability for a wide range of electronic applications. This precision oscillator is a perfect solution for designers looking for an alternative to traditional crystal oscillators that require external load capacitors and involve complex design considerations.

Key Features

• Frequency Range: The device offers a stable frequency output of 32.768 kHz, which is ideal for real-time clock (RTC) applications and various timing purposes.
• Supply Voltage: It operates at a nominal supply voltage of 1.8V, catering to low-power requirements and enabling energy-efficient designs.
• Stability: The oscillator boasts excellent frequency stability, ensuring consistent performance even under varying environmental conditions.
• Form Factor: The compact 4-SMD, no lead package (2.5 mm x 2.0 mm) allows for space-saving on PCBs and is suitable for high-density mounting.
• Output Type: It provides a CMOS output, delivering a square wave signal which is commonly used in digital circuits.
• Temperature Range: The device is operational over an industrial temperature range of -40°C to +85°C, making it versatile for use in harsh environments.

Applications

The DSC6083JI2A-032K768T is ideal for a diverse array of applications where accurate timing is crucial. These include:

• Portable and battery-powered devices
• Wearables and Internet of Things (IoT) devices
• Healthcare and medical equipment
• Automotive electronics
• Industrial and automation systems
• Smart metering and utility monitoring

Quality and Reliability

Microchip Technology is known for its commitment to quality, and the DSC6083JI2A-032K768T is no exception. The oscillator is designed to meet stringent industry standards, ensuring high reliability and performance consistency. With its robustness and precision, this product is an excellent choice for any application that demands a stable and reliable timing solution.