Crystals, specifically crystal frequency components, play a crucial role in modern electronic systems by providing precise frequency control. These components are essential for generating stable oscillations in a variety of applications, ensuring that electronic devices operate reliably and efficiently. The primary function of crystals is to act as oscillators, which convert electrical energy into mechanical vibrations and vice versa. This property is harnessed in numerous devices, from simple clocks to complex communication systems.
The technical features of crystal frequency components include their ability to maintain a consistent frequency under varying temperature and load conditions. This stability is primarily due to the piezoelectric properties of the crystal material, often quartz, which allows for minimal frequency drift. Crystals are available in various configurations, such as fundamental and overtone modes, which can be selected based on the specific frequency requirements of the application. Additionally, programmable crystals offer flexibility in frequency selection, enabling designers to customize the output frequency to meet specific operational needs.
In the realm of frequency control components, two notable child categories are Programmable and FXO-HC (Frequency-Controlled Oscillator - High Stability). Programmable crystals allow for dynamic frequency adjustments, making them ideal for applications that require adaptability, such as in telecommunications and data processing. FXO-HC components, on the other hand, are designed for high stability and low phase noise, making them suitable for precision applications in aerospace, defense, and high-frequency communication systems.
Typical industry applications of crystal frequency components span a wide range of sectors, including consumer electronics, automotive systems, telecommunications, and industrial automation. In consumer electronics, they are found in devices such as smartphones, tablets, and wearables, where accurate timing is essential for performance. In automotive systems, crystals ensure reliable operation of navigation and infotainment systems. In telecommunications, they are critical for maintaining synchronization in data transmission and reception, while in industrial automation, they support the precise timing required for automated processes.
In summary, crystal frequency components are indispensable in the modern electronic landscape, providing the stability and precision necessary for a wide array of applications. Their ability to maintain accurate frequency control makes them a foundational element in the design and operation of electronic devices across various industries.
Crystal Frequency Components is a subcategory of Frequency Control Components
Crystal Frequency Components consists of the following:Surface mount ceramic crystals for various applications
Surface mount crystals with various frequencies
Real time clock ICs for various applications
Ceramic resonators at 24MHz for electronics
Murata 6MHz ceramic resonators in various forms
2MHz ceramic resonators for various applications
20MHz ceramic resonators for various applications
9.83MHz ceramic resonators for various uses
Precision 32.768 kHz crystals for timing applications
Surface mount crystals with various frequencies and stability ratings
I2C real-time clock/calendar ICs with battery backup in 8-pin SOIC package
Temperature-compensated real-time clock IC with calendar and 128B RAM
Supervisory ICs with real-time clock and NVRAM for system management
Precision 32.768kHz crystals for timing applications in SMD format
3.68MHz ceramic resonators for surface mount electronic circuits
16MHz ceramic resonators for surface mount electronic applications
Compact 20MHz ceramic resonators for SMD electronic applications
4.91MHz ceramic resonators for precise frequency control in SMD applications
Precision real-time clock modules with I2C and serial interfaces
Compact surface mount crystals for precise timing applications
25MHz surface-mount crystals with 10pF capacitance
7.3728MHz precision crystal for stable frequency applications
Low-profile surface-mount crystal oscillators for compact electronics
Precision timing crystals for electronic circuits, various frequencies and tolerances
Surface mount delay lines for precise timing in electronic circuits
12MHz ceramic resonators with built-in capacitors for stable frequency applications
Ultra-low power real-time clock ICs with calendar and SPI interface
16MHz ceramic resonators for precise frequency control in electronics
I2C serial real-time clock ICs with calendar functionality
Compact serial real-time clock ICs with calendar and alarm features
16MHz ceramic resonators with 3-pin thru-hole design for stable frequency applications
6MHz ceramic resonators with 15pF load, 3-pin SMD design
8MHz ceramic resonators with 15pF load, 3-pin thru-hole design
Compact SMD quartz crystals for precise timing applications
Compact 12MHz ceramic resonators with 10pF load, 3-pin chip design
24 MHz surface-mount crystals with 18pF load capacitance
4MHz crystal timing devices in HC-49/4H package
26MHz surface-mount crystal with 8pF capacitance, 4-pin design
Surface-mount crystals for precise frequency control in electronics
24MHz precision crystals with ±30ppm tolerance for electronic circuits
Precision ceramic resonators for stable frequency control in electronics
8MHz ceramic resonators with high stability for SMD applications
Real-time clock and calendar ICs in compact 8-pin SOIC format
Compact 27MHz crystal for precise timing applications
18-pin parallel real-time clock ICs for timekeeping applications
12MHz precision crystals with ±30ppm accuracy in compact 4-pin design
Compact 8MHz ceramic resonators with 10pF load, 3-pin SMD design
4MHz ceramic resonators for precise frequency control in SMD applications
Surface mount ceramic crystals for various applications
Surface mount crystals with various frequencies
Real time clock ICs for various applications
Ceramic resonators at 24MHz for electronics
Murata 6MHz ceramic resonators in various forms
2MHz ceramic resonators for various applications
20MHz ceramic resonators for various applications
9.83MHz ceramic resonators for various uses
Precision 32.768 kHz crystals for timing applications
Surface mount crystals with various frequencies and stability ratings
I2C real-time clock/calendar ICs with battery backup in 8-pin SOIC package
Temperature-compensated real-time clock IC with calendar and 128B RAM
Supervisory ICs with real-time clock and NVRAM for system management
Precision 32.768kHz crystals for timing applications in SMD format
3.68MHz ceramic resonators for surface mount electronic circuits
16MHz ceramic resonators for surface mount electronic applications
Compact 20MHz ceramic resonators for SMD electronic applications
4.91MHz ceramic resonators for precise frequency control in SMD applications
Precision real-time clock modules with I2C and serial interfaces
Compact surface mount crystals for precise timing applications
25MHz surface-mount crystals with 10pF capacitance
7.3728MHz precision crystal for stable frequency applications
Low-profile surface-mount crystal oscillators for compact electronics
Precision timing crystals for electronic circuits, various frequencies and tolerances
Surface mount delay lines for precise timing in electronic circuits
12MHz ceramic resonators with built-in capacitors for stable frequency applications
Ultra-low power real-time clock ICs with calendar and SPI interface
16MHz ceramic resonators for precise frequency control in electronics
I2C serial real-time clock ICs with calendar functionality
Compact serial real-time clock ICs with calendar and alarm features
16MHz ceramic resonators with 3-pin thru-hole design for stable frequency applications
6MHz ceramic resonators with 15pF load, 3-pin SMD design
8MHz ceramic resonators with 15pF load, 3-pin thru-hole design
Compact SMD quartz crystals for precise timing applications
Compact 12MHz ceramic resonators with 10pF load, 3-pin chip design
24 MHz surface-mount crystals with 18pF load capacitance
4MHz crystal timing devices in HC-49/4H package
26MHz surface-mount crystal with 8pF capacitance, 4-pin design
Surface-mount crystals for precise frequency control in electronics
24MHz precision crystals with ±30ppm tolerance for electronic circuits
Precision ceramic resonators for stable frequency control in electronics
8MHz ceramic resonators with high stability for SMD applications
Real-time clock and calendar ICs in compact 8-pin SOIC format
Compact 27MHz crystal for precise timing applications
18-pin parallel real-time clock ICs for timekeeping applications
12MHz precision crystals with ±30ppm accuracy in compact 4-pin design
Compact 8MHz ceramic resonators with 10pF load, 3-pin SMD design
4MHz ceramic resonators for precise frequency control in SMD applications