The 10ERB20-TA1B2 is a crystal resonator manufactured by Kyocera Kinseki Corporation. Crystal resonators are electronic components that utilize the piezoelectric effect of quartz crystal to create a precise and stable frequency. This makes them crucial for timing and frequency control in various electronic circuits.

Applications

• Microcontrollers: Provides the clock signal for microcontrollers, ensuring accurate operation and timing.
• Real-time clocks (RTCs): Used in RTC circuits to maintain accurate timekeeping.
• Communication equipment: Provides stable frequencies for transmitters and receivers in communication devices.
• Consumer electronics: Used in devices such as watches, clocks, and other timing-sensitive applications.
• Industrial control systems: Provides accurate timing for control processes in industrial automation.

Features

• High stability: Offers a stable and precise frequency output, essential for accurate timing.
• Compact size: Designed for space-constrained applications.
• Low aging: Exhibits minimal frequency drift over time, ensuring long-term reliability.
• High reliability: Manufactured to withstand harsh environmental conditions.
• Wide operating temperature range: Operates reliably over a wide range of temperatures.

Benefits

• Accurate timing: Enables precise timing in electronic circuits, crucial for proper operation.
• Improved system performance: Contributes to the overall stability and performance of electronic systems.
• Reduced system cost: Provides a cost-effective solution for frequency control.
• Long-term reliability: Ensures reliable operation over the lifespan of the product.
• Simplified design: Simplifies circuit design by providing a stable and predictable frequency source.

Additional Details

Specific technical specifications such as frequency tolerance, load capacitance, and operating temperature range may vary. Refer to the manufacturer's datasheet for detailed information. Crystal resonators are typically connected in oscillator circuits that include active components (transistors or inverters) and other passive components (resistors and capacitors) to form a complete oscillator circuit. The crystal's frequency determines the oscillator's output frequency.