The Fox Electronics FSR327 is a miniature surface mount crystal, known for its compact size and reliable performance. It operates at a specific frequency, crucial for timing and synchronization in various electronic circuits. This crystal is designed for reflow soldering, making it suitable for high-volume manufacturing.

Applications

• Real-time clocks (RTC)
• Microcontroller clocks
• Wireless communication devices
• Consumer electronics
• Industrial control systems

Features

• Miniature SMD package
• High frequency stability
• Excellent aging characteristics
• Wide operating temperature range
• Reflow solderable

Benefits

• Precise timing for accurate system operation
• Small footprint saves board space
• Reliable performance in harsh environments
• Easy integration into automated assembly processes
• Long-term stability ensures consistent performance over time

Additional Details

The FSR327 crystal typically comes in a ceramic package, providing excellent environmental protection. Specific frequency and tolerance information can be found in the datasheet. This crystal's small size allows it to be used in very compact devices, and its frequency stability ensures consistent timing. The FSR327 is frequently used in applications where precise timing is critical. Proper handling and soldering techniques are important to ensure optimal performance and reliability.

The crystal’s specifications, such as load capacitance and series resistance, will vary depending on the specific frequency required. Designers need to select the appropriate crystal for their application, based on the microcontroller or other timing circuitry being used. Datasheets provide detailed information on these specifications.

Fox Electronics is a reputable manufacturer of frequency control products, and the FSR327 crystal is widely available through distributors. Its combination of small size, stability, and ease of use makes it a popular choice for a wide range of electronic applications. The robust construction and reflow solderability contribute to its suitability for high-volume production environments.