Model:A2H124-24FX
Brand:Enterasys
Type:High-Performance Ethernet Switch
Ports:24 Gigabit Ethernet
Power:PoE+ Compatible
Temperature Range:-10°C to 55°C
Operating Voltage:12V DC
Protocol Support:IEEE 802.3af/at, IEEE 802.3u, IEEE 802.3ab, IEEE 802.3x
Encryption Features:802.1X, MAC Filter, ACL
The Enterasys A2H124-24FX P0973BJ network module is specifically engineered to enhance data transfer rates in industrial settings, providing exceptional performance and reliability. Its robust design ensures stable operation under challenging environmental conditions, making it ideal for factory automation, surveillance systems, and other critical applications where high-speed connectivity is essential.
Featuring a versatile 124-port configuration with 24 Gigabit Ethernet ports, this module supports a wide range of networking protocols, including TCP/IP, UDP, and SNMP, enabling seamless integration with existing systems. It is equipped with advanced security features to protect against cyber threats, ensuring the integrity of data transmitted over the network.
Built with energy efficiency in mind, the A2H124-24FX P0973BJ operates within a broad temperature range from -5°C to 55°C, guaranteeing consistent performance regardless of ambient conditions. Its compact 1U rack-mountable design allows for efficient use of space in data centers and industrial control panels.
The module’s durable construction and reliable power supply (150W) support long-term, uninterrupted operation, reducing downtime and maintenance costs. Its compatibility with various network architectures ensures easy integration with diverse systems, streamlining the deployment process and enhancing operational efficiency.
In conclusion, the Enterasys A2H124-24FX P0973BJ network module offers a comprehensive solution for organizations requiring high-speed, secure, and reliable data transfer capabilities in industrial environments. Its combination of advanced features, robust design, and energy efficiency makes it an excellent choice for enhancing the connectivity and performance of industrial networks.
There are no reviews yet.