The PE-2229X is a high-performance Ethernet transformer designed and manufactured by Pulse Electronics. This transformer is engineered for robust signal isolation and impedance matching in various Ethernet applications, ensuring reliable data transmission and network performance. It's built to meet the demanding requirements of modern networking environments, offering excellent electrical characteristics and durability.

Applications

• 10/100/1000Base-T Ethernet
• LAN/WAN Interfaces
• Network Interface Cards (NICs)
• Routers and Switches
• Industrial Ethernet Applications

Features

• Designed for Gigabit Ethernet applications
• Compliant with IEEE 802.3 standards
• Provides electrical isolation
• Low insertion loss
• Excellent common mode rejection
• Compact size for space-constrained applications
• RoHS Compliant

Benefits

• Enhanced signal integrity for reliable data transmission
• Protection against voltage surges and electrical noise
• Improved network performance and stability
• Reduced electromagnetic interference (EMI)
• Easy integration into existing network hardware
• Long-term reliability and durability

Additional Details

The PE-2229X transformer typically features a turns ratio optimized for Ethernet impedance requirements. It is designed to operate within a specific temperature range, ensuring consistent performance under varying environmental conditions. The component's construction includes high-quality magnetic materials to minimize signal distortion and maximize efficiency. The specific inductance and leakage inductance values are carefully controlled to meet the demanding specifications of Gigabit Ethernet. Furthermore, the PE-2229X is built with materials and processes that comply with RoHS environmental standards, reflecting Pulse Electronics' commitment to environmental responsibility.

This transformer's robust design and adherence to industry standards make it a dependable choice for networking equipment manufacturers looking to ensure high performance and reliability in their products. Its compact footprint also allows for efficient use of board space, contributing to smaller and more efficient network devices.