SIT1602BC-31-25N-33.000000Y

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Oscillators play a fundamental role in circuitry in many applications and products. SIT1602BC-31-25N-33.000000Y oscillators are just one type, being temperature-compensated, highly stable quartz oscillators that operate at low power. This type of oscillator provides reliable performance in a wide range of electronic applications, but they are particularly popular in telecommunications, computer peripherals, and military electronics.

What Is SIT1602BC-31-25N-33.000000Y?

SIT1602BC-31-25N-33.000000Y is the model number of an oscillator designed and manufactured by SiTime Corporation. This oscillator can be configured to provide an output frequency of up to 33.000000MHz, with a stability of +/-25ppm over the temperature range of -40ºC to +85ºC. It also features exceptional linearity, as well as low EMI and phase noise.

What Are the Key Benefits of SIT1602BC-31-25N-33.000000Y?

SIT1602BC-31-25N-33.000000Y oscillators offer a number of key benefits, including:

• Low cost of ownership, as they are robust and have a long product lifetime
• High stability and precision over a wide temperature range, making them suitable for harsh and extreme environments
• A wide range of configurable frequencies and stability ratings, with both CMOS and LVDS output
• High accuracy, with the ability to adjust the frequencies to match exacting standards
• Good linearity, low EMI, and low phase noise over a wide frequency range

SIT1602BC-31-25N-33.000000Y Application Field and Working Principle

Because this oscillator provides reliable performance over a wide range of frequencies and temperatures, it is suitable for a variety of applications, including:

1. Telecommunications systems: SIT1602BC-31-25N-33.000000Y oscillators are used in 4G and 5G base stations, subscriber identification modules (SIM) cards, and consumer electronics.

2. Computer peripherals: This oscillator is commonly used in hard drives, optical drives, and graphics cards.

3. Military electronics: It has been used in global positioning system (GPS) devices, navigation systems, instrumentation systems, and radar tracking systems.

The working principle of the SIT1602BC-31-25N-33.000000Y oscillator is based on quartz crystal resonators. Quartz is a semiconductor material that exhibits piezoelectric properties, meaning that it changes its shape when a voltage is applied. This causes it to vibrate at a particular frequency. The frequency at which it vibrates depends on the size and shape of the crystal.

The SIT1602BC-31-25N-33.000000Y oscillator consists of two parts; the X-tal and the oscillator circuit. The X-tal consists of two quartz crystals, a substrate, a number of electrodes, and a number of electrical connections to the oscillator circuit. The job of the oscillator circuit is to provide a low-power electrical signal to the quartz crystals. The quartz crystals vibrate at a frequency determined by the applied voltage and the size and shape of the crystal. This vibration is then picked up by the oscillator circuit and converted into a high-frequency output signal.

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