The NSA3265G 19.44MHZ is a crystal oscillator manufactured by Nihon Inter Electronics Corporation (NIEC). It is a crucial component in electronic circuits that require a stable and accurate frequency reference. This crystal oscillator provides a precise 19.44 MHz clock signal, essential for timing and synchronization in various applications. Its compact size and reliable performance make it suitable for diverse electronic devices.

Applications

• Microcontrollers: Providing the clock signal for microcontroller operation.
• Communication equipment: Frequency reference in radios, modems, and network devices.
• Timing circuits: Providing accurate timing signals for digital circuits.
• Audio and video equipment: Clock source for audio and video processing.
• Industrial control systems: Providing timing signals for process control and automation.

Features

• Frequency: 19.44 MHz
• Stability: Provides a stable and accurate frequency output.
• Compact size: Small footprint for space-constrained applications.
• Low jitter: Minimizes timing errors in digital circuits.
• High reliability: Designed for reliable operation in demanding environments.
• Surface Mount Device (SMD): Suitable for automated assembly.

Benefits

• Accurate timing: Provides a precise clock signal for critical applications.
• Stable performance: Ensures consistent operation over a wide range of conditions.
• Easy integration: Simple to integrate into electronic circuits.
• Reduced timing errors: Low jitter minimizes timing errors in digital systems.
• Long lifespan: High reliability ensures a long operating life.

The NSA3265G 19.44MHZ crystal oscillator is a fundamental component in many electronic devices, ensuring accurate and stable timing. Its specifications, including frequency tolerance, load capacitance, and operating temperature range, can be found in the manufacturer's datasheet. This device is designed for surface mount assembly, making it compatible with automated manufacturing processes. This crystal oscillator plays a key role in maintaining the proper operation and timing of electronic systems.