SIT1602BCE1-25S

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Programmable oscillators are a type of signal generator which can accurately generate a frequency of electrical signals. One of the more popular choices of these oscillators is the SIT1602BCE1-25S. It is a highly programmable oscillator which packs a lot of performance in a small package. This article will discuss the application field and working principle of SIT1602BCE1-25S.

SIT1602BCE1-25S is a low-phase-noise oscillator which utilizes Silicon Intermix Technology or SIT to generate highly accurate frequencies. It can be used in many types of applications where a consistent signal frequency is critical. These include telecommunications, military and aviation, broadcasting and even industrial applications.

The working principle of SIT1602BCE1-25S is based on the use of an semiconductor substrate as a form of vibrator which is driven through an alternating current. A semiconductor substrate, or a monolithic device, is a single piece of material which contains active and passive device components in a package that appears as one single mass of material.

The electrical circuit created by the pressure of the alternating current divides this single monolithic device into multiple layers. Each layer behaves as a small amplifier and functions as a capacitive circuit, which provides a standard frequency. This technique eliminates frequency deviation, providing highly accurate and reproducible frequencies.

The SIT1602BCE1-25S packs this powerful technology in a small package. Its input port allows a voltage range between 1.8V and 3.3V to drive the oscillator. Additionally, this oscillator is capable of providing a wide range of frequencies, ranging between 10MHz and 800MHz. It also provides low power consumption, making it ideal for applications which require a high degree of accuracy but also don’t want to compromise on power consumption.

The SIT1602BCE1-25S is perfect for a variety of applications where a standard frequency is needed, such as high performance RF receivers and transmitters, instrumentation systems, local oscillators in mobile networks, GPS systems and many more. The low power consumption and small package of this oscillator makes it ideal for such applications.

In conclusion, the SIT1602BCE1-25S is an excellent choice for applications which require a standard frequency with low power consumption. Its use of an integrated semiconductor substrate to generate accurate signals makes it an invaluable tool for telecommunications, military/aviation, broadcasting and industrial use.

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