The 7311S-DF-104X-BA-156.250MHZ is a crystal oscillator manufactured by NDK (Nihon Dempa Kogyo Co., Ltd.), a leading supplier of crystal devices. This oscillator provides a stable and precise clock signal at 156.250 MHz. It is designed for various applications requiring accurate timing and frequency control.

Applications

• Networking equipment: Ethernet switches, routers, and other network devices.
• Telecommunications: Base stations, optical transceivers, and other communication equipment.
• Data centers: Servers, storage systems, and other data center infrastructure.
• Test and measurement: Frequency counters, signal generators, and other test equipment.
• Industrial control: PLCs, motor drives, and other industrial automation equipment.

Features

• Frequency: 156.250 MHz
• Stability: Excellent frequency stability over temperature and voltage variations.
• Low Jitter: Provides a clean clock signal with low phase noise.
• Supply Voltage: Operates at a standard voltage (Consult datasheet for exact value).
• Output Type: CMOS or LVPECL (Check datasheet for specifications).

Benefits

• Precise Timing: Provides accurate and reliable timing for critical applications.
• Stable Frequency: Maintains a stable frequency over a wide range of operating conditions.
• Low Noise: Minimizes phase noise and jitter for improved signal integrity.
• Easy Integration: Designed for easy integration into various systems.
• Long-Term Reliability: NDK is known for its high-quality and reliable crystal oscillators.

Additional Details

The 7311S-DF-104X-BA-156.250MHZ is typically packaged in a surface-mount package. The device's operating temperature range is critical for ensuring stable performance. The datasheet specifies the frequency stability over the operating temperature range. The load capacitance is also important and affects the oscillator's frequency. The start-up time is the time it takes for the oscillator to reach a stable frequency. Always consult the manufacturer's datasheet for the exact specifications, including power consumption, output voltage swing, and rise/fall times. Proper decoupling and grounding are crucial for minimizing noise and interference. The datasheet provides recommendations for these aspects as well.