The DS0751SR from KDS is a surface-mount crystal oscillator operating at a frequency of 100.000 MHz. Crystal oscillators are essential components in electronic circuits, providing stable and accurate clock signals necessary for synchronizing various digital operations. The DS0751SR is designed for applications requiring a precise and reliable clock source in a compact form factor.

Applications

• Microcontrollers: Used as the primary clock source for microcontrollers in embedded systems.
• Communication devices: Employed in networking equipment, such as routers and switches, to synchronize data transmission.
• FPGA and CPLD: Provides clock signals for Field Programmable Gate Arrays (FPGAs) and Complex Programmable Logic Devices (CPLDs).
• Test and measurement equipment: Utilized in oscilloscopes, signal generators, and other instruments requiring a stable time base.
• Consumer electronics: Found in devices like digital cameras, media players, and gaming consoles.

Features

• Frequency: 100.000 MHz (Megahertz).
• Package Type: Surface Mount Device (SMD).
• Stability: High frequency stability over a wide temperature range.
• Output Waveform: Typically CMOS or LVCMOS compatible.
• Low Jitter: Minimal timing variations for reliable operation.

Benefits

• Precise Timing: Provides an accurate and stable clock signal for critical applications.
• Reliable Operation: Designed for consistent performance over a long lifespan.
• Compact Size: Surface mount package saves space on circuit boards.
• Easy Integration: Standard footprint simplifies PCB design and assembly.

Additional Details

The DS0751SR crystal oscillator is manufactured by KDS, a reputable supplier of frequency control products. Its 100 MHz frequency makes it suitable for a wide range of digital systems. The surface-mount package allows for automated assembly, reducing manufacturing costs and improving reliability. The oscillator's stability ensures that the clock signal remains accurate even under varying temperature and voltage conditions. Furthermore, the low jitter performance minimizes timing errors, which is crucial for high-speed digital communication and data processing.