SIT1602BCR11-33E-24.576000D

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Oscillators are electrical circuits that create an alternating current (AC) with a frequency that is determined by the design and component selection of the circuit. The SIT1602BCR11-33E-24.576000D is an oscillator of this type, and is utilized in a variety of applications to produce reliable, accurate electrical waveforms. This article will discuss the application field and working principle of the SIT1602BCR11-33E-24.576000D.

The SIT1602BCR11-33E-24.576000D is a popular choice for oscillator applications in a broad range of industries. It has a wide operating temperature range of -25°C to +125°C, making it suitable for use in harsh environments. The oscillator has a good shock resistance and high stability, features key for applications in areas such as military/aerospace, aerospace/defense, medical and automotive systems. In addition, the SIT1602BCR11-33E-24.57600 is capable of a maximum frequency of 24.576MHz, making it suitable for high-speed applications.

The SIT1602BCR11-33E-24.576000D utilizes quartz crystal technology to create the required electrical waveforms. The principle of quartz crystal oscillator relies on the natural property of quartz crystals to vibrate when a certain amount of voltage is applied to them. The voltage needed to stimulate the quartz crystal is determined by the piezoelectric effect, which is the relationship between the mechanical deformation of a crystal and the resulting electrical charge. The frequency of the resulting oscillation depends on the physical parameters of the quartz crystal, such as its size, shape and orientation.

The SIT1602BCR11-33E-24.576000D utilizes the crystal resonator architecture in order to generate an electrical signal. This architecture consists of two key components: an oscillator circuit and a quartz crystal resonator. The oscillator circuit utilizes a number of transistors, resistors and capacitors in order to produce an AC signal. This AC signal is then applied to the quartz crystal resonator, which acts as a filter to shape and stabilize the frequency of the signal. The resulting signal is then amplified and sent to the output.

In addition to the quartz crystal technology, the SIT1602BCR11-33E-24.576000D also utilizes an advanced temperature-compensated crystal oscillator (TCXO) to further stabilize the frequency of the output signal. This TCXO utilizes a thermal sensing circuit to monitor and adjust the frequency of the oscillator based on changes in temperature. This results in improved frequency accuracy and stability over a wide temperature range.

The SIT1602BCR11-33E-24.576000D is a popular choice for oscillator applications in a broad range of industries due to its reliable performance and accuracy. It has a wide temperature range of -25°C to +125°C, allowing it to be used in harsh environments. In addition, the oscillator has excellent shock resistance and frequency stability, making it suitable for a variety of applications. Furthermore, the SIT1602BCR11-33E-24.576000D utilizes quartz crystal technology combined with an advanced TCXO to create the required electrical signals.

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