The PE-67596T is a highly reliable Ethernet pulse transformer designed and manufactured by Pulse Electronics. Specifically engineered for 10/100/1000 Base-T Ethernet applications, it provides electrical isolation and impedance matching between the PHY and the network cabling. The component's design prioritizes signal integrity, EMI reduction, and compliance with industry standards, ensuring robust performance in various networking environments.

Applications

• 10/100/1000 Base-T Ethernet interfaces
• Network interface cards (NICs)
• Ethernet switches and routers
• Embedded Ethernet systems
• Industrial networking equipment

Features

• Designed for 10/100/1000 Base-T Ethernet
• Surface mount package for automated assembly
• High isolation voltage for safety and signal integrity
• Compliant with IEEE 802.3 standards
• Low common mode emissions
• Operating temperature range suitable for industrial use

Benefits

• Superior signal integrity: Maintains signal quality for reliable data transmission, minimizing errors.
• Effective electrical isolation: Protects sensitive circuitry from high-voltage transients and surges, enhancing system reliability.
• Reduced EMI: Low common mode emissions minimize interference with nearby electronic components.
• Easy integration: Surface mount package simplifies the assembly process, lowering manufacturing costs.
• Robust performance: Designed to withstand harsh operating conditions, ensuring long-term reliability.

Additional Details

The PE-67596T transformer features a precisely engineered turns ratio for optimal impedance matching in Ethernet applications. Its compact design allows for efficient use of board space. High-quality materials are used in its construction to ensure long-term stability and reliability. Specific electrical characteristics, such as insertion loss and return loss, are optimized for superior Ethernet performance. This component is often used with Ethernet PHYs from major manufacturers like Broadcom, Marvell, and Realtek. It meets or exceeds industry standards for safety and performance, ensuring compliance in a wide range of networking devices. The design incorporates features to minimize signal reflections and ensure efficient power transfer.