SIT8208AI-23-25S-26.000000T

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Oscillators

In the field of oscillators, SIT8208AI-23-25S-26.000000T is widely used. It is a type of programmable oscillator, based on Curie Temperature Oscillator (CTO) technology, supports up to 800 MHz frequency range.

Application

The intention of this oscillator’s application is for timing circuits which require long-term stability and reliability. The device is designed to maintain temperature stability over a wide range of environments and furthermore it can be programmed to very exacting frequency ranges using only standard electrical components.

SIT8208AI-23-25S-26.000000T is also used in notebook computers, automotive applications, pervasive computing, telecommunication, and wireless products, like Bluetooth and Wi-Fi. Furthermore, it can be used in medical equipment and guidance systems, and is a stable and reliable choice for these applications.

Working Principle

The SIT8208AI-23-25S-26.000000T uses a Curie Temperature Oscillator (CTO) technology, which is based on the fact that materials have different properties at different temperatures. By exploiting this insight, a CTO is designed such that a specific frequency will be generated based on its temperature.

A CTO consists of two main components: a capillary tube and a magnetostrictive membrane. The capillary tube is filled with a ferromagnetic material, such as a powdered iron or carbon, that expands and contracts as its temperature changes. This expansion and contraction is then picked up and amplified by the magnetostrictive membrane. Finally, electronic circuitry takes this amplified signal and produces an accurate frequency at any given temperature.

The SIT8208AI-23-25S-26.000000T is programmed using an on-board microcontroller. This microcontroller then applies precise electrical signals to the CTO, which allow users to precisely adjust the frequency of the output signal to the desired range. The microcontroller also provides status and diagnostics information for the device, allowing users to monitor its performance during operation.

Additionally, the SIT8208AI-23-25S-26.000000T utilizes a ‘lock-in’ feature, which ensures that the device performs at its optimal state at all times. This feature enables the oscillator to adjust its frequency to keep it in its optimal range, regardless of environmental change or temperature fluctuations.

Conclusion

With its wide range of applications and stable performance, the SIT8208AI-23-25S-26.000000T is an ideal choice for timing circuits that require accuracy and reliability. Its use of Curie Temperature Oscillator technology, on-board microcontroller, and lock-in feature make it an efficient and reliable device for a variety of applications, such as notebook computers, automotive applications, pervasive computing, and telecommunication products.

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