SIT1602BIF11-XXE-26.000000G

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Oscillators are essential components of active electromechanical systems, such as in power conditioning, magnetic circuitry, communications and battery applications. This article provides an overview of one type of oscillator, SIT1602BIF11-XXE-26.000000G, and explains its application field and working principle.

SIT1602BIF11-XXE-26.000000G oscillators are precision quartz crystal oscillator module designs with integrated temperature compensation. They support a wide range of frequencies ranging from 1 MHz to 300 MHz. Additionally, SIT1602BIF11-XXE-26.000000G oscillators are designed to ensure superior accuracy and stability over temperature and frequency.

The application field of SIT1602BIF11-XXE-26.000000G oscillators is broad and includes communication infrastructure, data acquisition, wireless electronics, medical diagnostic equipment, automotive and consumer electronics. Oscillators are also used in RF test and measurement applications, as they are able to provide precise and stable timing signals over a wide temperature range.

Oscillators are electrical circuits that generate oscillating output signals. SIT1602BIF11-XXE-26.000000G oscillator designs are based on the classic Wien bridge oscillator circuit supplemented with an integrated active E-Flex temperature compensation. The Wien bridge oscillator consists of an inverting amplifier, two resistances and a capacitor. The inverting amplifier provides 180-degree phase shift and couple the resistor and capacitor together to form a positive feedback loop. The output of the inverting amplifiers is fed back to the input, resulting in a sinusoidal output with a frequency determined by the RC network. By varying the resistance and capacitance, the frequency can be precisely and accurately controlled.

The E-Flex temperature compensation circuit maintains high level performance by compensating for temperature drifts. The E-Flex circuit consists of an inverting amplifier, a temperature compensation network and a phase sensitivity network. The E-Flex circuit compensates for temperature drifts by introducing an equal but opposite amount of phase shift into the Wien bridge oscillator circuit.

SIT1602BIF11-XXE-26.000000G oscillators offer a good combination of stability, accuracy and flexibility. The Wien bridge oscillator circuit and integrated active temperature compensation ensures superior accuracy and stability. Additionally, the oscillator incorporates E-Flex tuning to allow precise control of the output frequencies. Furthermore, the oscillator is suitable for use in extreme temperature applications, such as automotive and medical diagnostic equipment.

In conclusion, SIT1602BIF11-XXE-26.000000G oscillators are a reliable and precise component typically used in communication infrastructure, data acquisition, RF test and measurement applications, medical diagnostic equipment, automotive and consumer electronics. The oscillators offer integrated temperature compensation and E-Flex tuning for greater accuracy and stability.

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