The PE-68065 is a common mode choke manufactured by Pulse Electronics. It's designed to filter out common mode noise, which is a type of electromagnetic interference (EMI) that can degrade signal quality and affect the performance of electronic devices. This choke is particularly useful in applications where signal integrity and EMC compliance are critical.

Applications

• Ethernet interfaces (e.g., 10/100/1000Base-T)
• USB data lines
• CAN bus systems in automotive applications
• Power line communication (PLC) devices
• General signal line filtering to reduce EMI

Features

• High common mode impedance to effectively suppress noise
• Low differential mode impedance to minimize signal distortion
• Surface mount package for automated assembly
• Compact size for high-density PCB layouts
• Wide operating temperature range

Benefits

• Improved signal integrity by reducing common mode noise
• Enhanced EMC performance and compliance with regulatory standards
• Simplified PCB design and manufacturing
• Increased system reliability and robustness
• Reduced emissions from electronic devices

Additional Details

The PE-68065 common mode choke utilizes a ferrite core material to achieve high impedance over a broad frequency range. Its compact surface mount package allows for easy integration into automated manufacturing processes. The choke is engineered to handle specific current and voltage ratings, ensuring safe and reliable operation in a variety of applications. It's often employed in devices requiring stringent EMC compliance, such as networking equipment and industrial control systems. The robust design and performance characteristics of the PE-68065 make it a preferred choice for demanding applications where signal integrity and noise reduction are paramount. The device's specifications include detailed impedance characteristics, physical dimensions, and environmental compliance information, which can be found in the manufacturer's datasheet. Additionally, it is RoHS compliant, ensuring it meets environmental safety standards.