The TDK VG-4231CA27.000000MHZGR is a crystal oscillator, providing a stable and precise clock signal for a wide variety of electronic applications. It is specifically designed to generate a 27 MHz frequency, crucial for many digital systems that rely on accurate timing for data processing and synchronization.

Applications

• Digital Audio Broadcasting (DAB)
• Video Encoding and Decoding
• Microcontroller Clocking
• Real-Time Clocks (RTC)
• Communication Systems

Features

• Precise 27 MHz Frequency
• High Frequency Stability
• Low Jitter
• Compact Size
• Surface Mount Technology (SMT)
• RoHS Compliant

Benefits

• Accurate Timing for Digital Systems
• Reduced Signal Noise
• Improved System Reliability
• Easy Integration into Circuit Boards
• Compliance with Environmental Standards

The VG-4231CA27.000000MHZGR features high frequency stability, ensuring that the output frequency remains consistent over a wide range of operating temperatures and voltage variations. This is critical for applications where timing accuracy is paramount. The oscillator is designed to minimize jitter, which is unwanted variations in the timing of the clock signal. Low jitter translates to cleaner signals and reduced errors in digital systems. The oscillator's compact size facilitates its use in space-constrained applications. The component uses Surface Mount Technology (SMT) for easy integration into automated assembly processes, and being RoHS compliant means it meets environmental standards by restricting the use of hazardous substances.

Typical specifications include a frequency tolerance of ±20 ppm, operating temperature range of -40°C to +85°C, and a supply voltage of 3.3V. The low power consumption of this oscillator contributes to energy efficiency in electronic devices. Its robust design ensures reliable performance over its specified operating conditions. The crystal oscillator is extensively used in systems requiring a reference clock signal for processing or communication tasks. Its high precision ensures synchronization and error-free operation in sensitive digital applications.