SIT9120AC-1C2-25S133.000000X

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Oscillators are electronic components capable of consistently producing a signal of a specific frequency and amplitude. One of the most common type of oscillators is the crystal oscillator, which is found in most radios, cell phones, and computers. The SIT9120AC-1C2-25S133.000000X is a type of crystal oscillator specifically designed for frequency stability in radio applications. This article will discuss the application field and working principle of the SIT9120AC-1C2-25S133.000000X.

The SIT9120AC-1C2-25S133.000000X crystal oscillator is primarily designed for radio applications in which frequency stability is a must. Due to its high degree of accuracy, it is also suitable for use in a variety of other applications such as timing systems, video game controllers, and more. It is capable of operating in temperatures ranging from -40°C to +85°C, making it an ideal choice for applications that will be operating in harsh conditions.

The working principle behind the crystal oscillator is based on the properties of quartz. Quartz is a naturally occurring mineral composed of silicon and oxygen atoms, and it has piezoelectric properties. In other words, it is able to convert mechanical energy into electrical energy. When an alternating voltage is applied to the quartz crystal, it creates mechanical vibrations of a specific frequency. The quartz then vibrates in such a way that electricity is created and sent to the circuit, which is then converted into a steady flow of electrical energy at a constant frequency.

The SIT9120AC-1C2-25S133.000000X crystal oscillator takes advantage of these properties in order to produce an accurate and stable signal. It is composed of two quartz crystals that are mounted in a metal enclosure. Each crystal is connected to its own electrode, which is connected to the circuit board. An alternating voltage is applied to the crystals, which causes them to vibrate at a precise frequency. This vibrational energy is then converted into a steady electrical signal, which is sent to the circuit board and used to drive the circuitry.

The SIT9120AC-1C2-25S133.000000X crystal oscillator offers several advantages over other types of oscillators. First, it is capable of operating at higher temperatures, up to and including +85°C, without degradation of the output signal. It is also extremely accurate, with an initial frequency tolerance of only +/-50 ppm. This makes it ideal for applications that require precise timing such as radios, timing systems, and more. Lastly, it is also relatively low power, with a typical consumption of 1.5 mW.

In conclusion, the SIT9120AC-1C2-25S133.000000X crystal oscillator is an ideal choice for applications that require precise timing and accuracy in radio systems, timing systems, video game consoles, and more. Its high temperature tolerance and low power consumption make it an ideal choice in harsh environments. The crystal oscillator works by converting mechanical vibration into a steady electrical signal at a precise frequency, allowing for accurate timing and functionality in any application.

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