Manufacturer Part Number
7499011121A
Manufacturer
wurth-electronics
Introduction
The WE-RJ45 LAN series modular connector jacks with magnetics from Wurth Electronics are versatile and high-performing network interface components. Designed for 10/100 Base-T Ethernet applications, these connectors offer reliable performance, robust shielding, and convenient features to simplify board-level integration.
Product Features and Performance
1 RJ45 port in a 90-degree angled orientation
Supports 10/100 Base-T and AutoMDIX applications
Shielded design with EMI finger for superior electromagnetic interference protection
Board guide feature for easy and secure installation
Solder termination for reliable electrical connections
Operating temperature range of -40°C to 85°C
Product Advantages
Compact and space-saving design
Robust shielding for reliable data transmission
Integrated magnetic transformer for efficient power and signal conversion
Convenient features like board guide simplify installation
Key Reasons to Choose This Product
High-quality construction and performance for critical network applications
Reliable and durable design for long-lasting operation
Comprehensive feature set to simplify board integration
Trusted Wurth Electronics brand reputation for excellence
Quality and Safety Features
Tin-plated copper alloy contacts with gold flash finish for superior conductivity
Thermoplastic housing material for durability and heat resistance
Compliance with relevant industry standards and regulations
Compatibility
This WE-RJ45 LAN series modular connector jack is compatible with standard RJ45 plugs and 10/100 Base-T Ethernet networks.
Application Areas
Ethernet and network equipment
Industrial automation and control systems
Telecommunications infrastructure
Embedded computing and IoT devices
Product Lifecycle
The WE-RJ45 LAN series modular connector jack is an active and readily available product. There are no immediate plans for discontinuation, and customers can contact our website's sales team for information on any potential alternative or equivalent models in the future.