The XTL531500NLI24MHZ18PFTR is a crystal oscillator manufactured by Laird-Signal Integrity Products. Crystal oscillators are essential components in electronic circuits, providing a stable and accurate clock signal for timing and synchronization purposes. They are commonly used in microcontrollers, microprocessors, and communication devices.

Applications

• Microcontrollers: Used as the main clock source for microcontrollers.
• Microprocessors: Employed as the clock source for microprocessors.
• Communication devices: Utilized in wireless transceivers, network devices, and other communication equipment.
• Timing circuits: Found in timing circuits, such as real-time clocks (RTCs) and frequency synthesizers.
• Test and measurement equipment: Used in oscilloscopes, signal generators, and other test equipment.

Features

• 24 MHz frequency: Provides a stable clock signal at a frequency of 24 MHz.
• Low jitter: Minimizes timing variations in the clock signal, ensuring accurate timing.
• High stability: Maintains a stable frequency over a wide range of temperatures and voltages.
• Surface-mount technology (SMT): Allows for automated assembly on printed circuit boards (PCBs).
• Small size: Compact design suitable for integration into miniaturized electronic devices.

Benefits

• Accurate timing: The stable and accurate clock signal ensures proper timing and synchronization of electronic circuits.
• Improved system performance: The low jitter of the clock signal contributes to improved system performance and reliability.
• Reduced errors: The high stability of the clock signal minimizes timing errors, ensuring accurate data processing.
• Easy integration: The SMT package simplifies assembly and reduces manufacturing costs.
• Versatile application: The crystal oscillator can be used in a wide range of applications, making it a versatile component for electronic devices.

Additional Details

The XTL531500NLI24MHZ18PFTR is a quartz crystal oscillator with a specified frequency tolerance (accuracy) and stability. The 18pF likely refers to the load capacitance required for the oscillator to operate at its specified frequency. Key specifications include the frequency stability over temperature, the aging rate (frequency drift over time), and the operating voltage. The oscillator's output is typically a square wave or a sine wave. The output voltage level (e.g., CMOS, TTL) is another important characteristic. Consult the datasheet for detailed information regarding electrical characteristics, mechanical dimensions, and environmental specifications. Proper PCB layout and grounding are essential for minimizing noise and ensuring stable operation. The datasheet usually includes recommended layout guidelines. The crystal oscillator should be placed close to the microcontroller or microprocessor to minimize signal delays.