Crystals are an essential component in electronic circuits and are used across a variety of applications to achieve higher levels of accuracy and performance. The FK122EIHM0.032768-T3 crystal is a quartz crystal with exceptional frequency stability and temperature characteristics. This crystal oscillator crystal is used for timing and signal generation in a wide variety of applications including signal generators, signal conditioners, signal filters, clocks, and clock synchronizers.
Specifications
The specifications of the FK122EIHM0.032768-T3 crystal oscillator include:
- Frequency tolerance: ±20ppm
- Frequency stability: ±50ppm
- Frequency range: 8.2MHz - 12MHz
- Load Capacitance: 10pF
- Operating temperature: -40°C to +85°C
Application fields
The FK122EIHM0.032768-T3 crystal can be used in a variety of applications. These include signal processing, frequency synthesizers, video processing, digital signal processors, clock generation, and communication systems.
In signal processing, the high frequency stability of the FK122EIHM0.032768-T3 makes it ideal for use in signal generators and signal conditioners. The crystal can be used to accurately generate signals at a specific frequency, or to ensure that signals are correctly processed and conditioned. The crystal can also be used to generate clocks for digital systems, or for frequency synthesizers.
The FK122EIHM0.032768-T3 can also be used in video processing applications. The high frequency stability of the crystal ensures that signals are processed accurately, which is essential for high quality video. The crystal can also be used in communication systems, such as CDMA and GSM, to generate the clocks used in the system.
Working principle
The FK122EIHM0.032768-T3 is a quartz crystal oscillator. It uses the piezoelectric effect of a quartz crystal to oscillate at a specific resonant frequency. When an electric field is applied to the crystal, its physical shape changes, which causes it to vibrate. This vibration creates an alternating electric current in the circuit, which is then converted into a specific frequency. The frequency of the oscillator is determined by the shape of the quartz crystal and the applied electric field.
The frequency stability of the FK122EIHM0.032768-T3 is achieved by using an advanced high-performance crystal blank. The frequency stability of the oscillator is also affected by environmental factors such as temperature and humidity. To ensure optimal performance, the crystal needs to be placed in a temperature-controlled environment.
Conclusion
The FK122EIHM0.032768-T3 crystal is a quartz crystal oscillator with exceptional frequency stability and temperature characteristics. This crystal can be used in a variety of applications such as signal processing, frequency synthesizers, video processing, digital signal processors, clock generation, and communication systems. It uses the piezoelectric effect of a quartz crystal to oscillate at a specific frequency, which is determined by the shape of the crystal and the electrical field applied to it. To ensure optimal performance, the crystal needs to be placed in a temperature-controlled environment.