The TS2-45B31-45.000MHZ is a crystal oscillator manufactured by Epson Electronics America Inc-Semiconductor Div. It's a key component for generating a stable and precise clock signal in various electronic devices.

Applications

• Microcontrollers: Provides the clock signal for microcontrollers to execute instructions.
• Communication devices: Used in network equipment (routers, switches) and wireless communication modules to synchronize data transmission.
• Real-time clocks (RTCs): Provides the accurate timekeeping signal for RTCs.
• Audio/Video equipment: Used in audio and video processing circuits for timing and synchronization.
• Industrial control systems: Generates stable timing signals for industrial automation and control applications.

Features

• Frequency stability: Offers a high degree of frequency stability over a wide temperature range.
• Low jitter: Minimizes jitter (timing variations) for reliable signal transmission.
• Compact size: Designed with a small footprint for space-constrained applications.
• Low power consumption: Operates with low power consumption, extending battery life in portable devices.
• Surface mount technology (SMT): Suitable for automated assembly processes.

Benefits

• Precise timing: Ensures accurate and reliable timing in digital circuits.
• Stable operation: Maintains stable frequency output even under varying environmental conditions.
• Reduced signal errors: Minimizes jitter and timing variations to reduce signal errors.
• Extended battery life: Low power consumption contributes to longer battery life in portable applications.
• Simplified assembly: SMT package facilitates efficient and cost-effective assembly.

Additional Details

The TS2-45B31-45.000MHZ operates at a frequency of 45.000 MHz. It is typically a surface-mount device (SMD) packaged in a small ceramic package. The specific operating voltage, frequency stability (expressed in ppm - parts per million), and operating temperature range can vary slightly depending on the exact specifications. It is crucial to consult the manufacturer's datasheet for detailed information on these parameters, as well as the load capacitance requirements and aging characteristics of the crystal.

The oscillator's stability is specified over a certain temperature range, and operation outside of this range may affect its accuracy. Proper PCB layout and decoupling are important to minimize noise and ensure optimal performance. The datasheet also specifies the start-up time for the oscillator to reach its stable frequency.