Introduction to SIT1566AI-JE-18E-32.768E
The SIT1566AI-JE-18E-32.768E is a high-performance, cutting-edge solution produced by renowned manufacturer SiTime. The product falls under the category of oscillator devices, and its main function is to generate a consistent, repetitive waveform that is often used in digital products for timing purposes.
Key Features
Some of the key features of the SIT1566AI-JE-18E-32.768E include its low power consumption, superior oscillation stability, and high-frequency precision. This makes it a desirable element in various applications such as wearable devices, IoT, mobile devices, and health and wellness products.
Manufacturer: SiTime
SiTime is a world-leading provider of silicon timing systems with over 90% share of the MEMS timing market. Their solutions are relied upon by major tech companies globally, thanks to their products' ability to combine powerful integrated features, flexibility, and reliability in one package.
Technical Specifications
Dealing with the technical intricacies of the SIT1566AI-JE-18E-32.768E, it provides an output frequency of 32.768kHz. It operates at a supply voltage of 1.8 Volts and features a temperature range from -40 degrees Celsius to 85 degrees Celsius. Furthermore, it boasts a small ceramic package of 2.0 x 1.2 mm (height x width), making it suitable for compact applications.
Applications
- Wearable devices: Thanks to its small size and low power requirement, the SIT1566AI-JE-18E-32.768E is perfect for wearable devices where space and power are at a premium.
- Internet of Things (IoT): The oscillator is used in IoT devices for precise time tracking and synchronization purposes.
- Mobile devices: The high-frequency precision of this oscillator makes it suitable for mobile devices where accurate timing is essential.
- Health and wellness products: The oscillator can be used in medical devices that require efficient and reliable operation.
Summary
In conclusion, the SIT1566AI-JE-18E-32.768E from SiTime is a high performing oscillator that is characterized by its low power consumption, superioroscillation stability, and high-frequency precision. Its compact size and optimal performance make it suitable for a range of applications including wearable and IoT devices, mobile devices, and health and wellness products.