Maxim Integrated DS32KHZS# Temperature-Compensated Crystal Oscillator (TCXO)

The Maxim Integrated DS32KHZS# is a highly precise Temperature-Compensated Crystal Oscillator (TCXO) designed to provide stable frequency output in a wide range of environmental conditions. This compact and energy-efficient component is an essential solution for applications requiring accurate timekeeping and frequency reference, such as GPS units, telecommunications, and portable instrumentation.

With a frequency of 32.768 kHz, which is commonly used for real-time clocks (RTC), the DS32KHZS# ensures that devices maintain an accurate time base for clock functions. The TCXO's temperature compensation feature is engineered to counteract the frequency drift caused by temperature fluctuations, thereby ensuring a stable output frequency over the temperature range of -40°C to +85°C.

The DS32KHZS# boasts a low power consumption profile, making it ideal for battery-powered devices where energy efficiency is paramount. Its compact surface-mount package allows for easy integration into various electronic systems without requiring significant board space. This makes the DS32KHZS# a versatile component for designers looking to incorporate reliable timekeeping into their projects without compromising on form factor or power budget.

Key features of the DS32KHZS# include:

• Frequency: 32.768 kHz
• Temperature Stability: Compensated across the full temperature range
• Supply Voltage: Optimized for low-power operations
• Form Factor: Small surface-mount package for space-constrained applications
• Robust Performance: Designed to resist environmental perturbations such as shock and vibration

Maxim Integrated's commitment to quality and reliability is evident in the DS32KHZS#, making it a trusted choice for engineers and designers who require a dependable frequency reference. Whether for consumer electronics, automotive applications, or industrial systems, the DS32KHZS# TCXO stands out as a superior choice for maintaining precise timing and frequency control.