The SY100EPT23LZCTR is a 3.3V/5V Differential 1:2 Fanout Buffer with LVPECL outputs manufactured by Micrel (now Microchip Technology). This device is designed to distribute high-speed signals with minimal signal degradation. It takes one differential input signal and provides two identical differential LVPECL output signals. The fanout buffer is commonly used in clock distribution networks, data communication systems, and other applications requiring multiple copies of a high-speed signal.

Applications

• Clock distribution
• Data communication systems
• Signal fanout
• High-performance computing
• ATE (Automatic Test Equipment)
• Networking equipment

Features

• Differential 1:2 fanout buffer
• LVPECL outputs
• 3.3V/5V power supply
• High bandwidth
• Low skew
• Fast propagation delay
• Operating temperature range -40°C to +85°C
• Available in a small footprint package

Benefits

• Enables high-speed signal distribution
• Provides low-noise, high-speed LVPECL outputs
• Offers flexibility in power supply voltage
• Supports high data rates
• Maintains signal integrity with low skew
• Minimizes signal delay
• Suitable for industrial temperature environments
• Reduces board space requirements

Additional Details

The SY100EPT23LZCTR operates from either a 3.3V or 5V power supply. The LVPECL outputs provide high-speed, low-noise signals suitable for driving transmission lines and other high-speed circuits. The device features high bandwidth and low skew, ensuring signal integrity at high data rates. The fast propagation delay minimizes signal delay through the fanout buffer. The SY100EPT23LZCTR is commonly used in applications where multiple copies of a high-speed signal are needed with minimal signal degradation. Its small footprint package allows for compact designs. The device is designed for reliable operation over a wide temperature range, making it suitable for various industrial and commercial environments. It is ideal for clock distribution networks, ensuring that clock signals are distributed with minimal skew and jitter.