MOXA LM-7000H Industrial Module Series Introduction
The Moxa
LM-7000H module series is an advanced solution at an industrial-grade
level, which is highly optimized to improve performance and reliability in a
modern industrial network infrastructure. The Moxa LM-7000H Ethernet module devices can provide very
high network performance to critical applications such as Power Utility. The LM-7000H provides modular flexibility to accommodate
multiple industrial environments easily. Whether in expanding network capacity
or infrastructure building, Moxa LM-7000H modules provide
scalable and high-performance connectivity solutions to meet particular
operational needs. These LM-7000H models have
been designed to meet the challenges of demanding industrial
applications by assuring data transmission, reliable power delivery, and
comprehensive traffic management. These Moxa switches are
ideal fit for large-scale industrial applications requiring high bandwidth,
flexibility, and efficiency as a layer 3 managed Ethernet switch.
MOXA LM-7000H Industrial Module Series Features
Some innovative features include the Moxa LM 7000H series of modules to meet the demand for high-performance industrial networking. This series sets the performance standard and optimizes industrial networks with its rack-mount switch configurations. These modules guarantee high-speed and reliable communication in connected devices with 4 x Ethernet/SFP/Combo ports on each module. These modules of managed Ethernet switches can also support PoE+ modules for parallel power delivery with data transmission for cost reduction at installation and the enhancement of network efficiency. The ability of these Moxa layer 2 Ethernet modules to operate within an incredible temperature range of -40 to 85°C in harsh industrial environments is because they are designed to last. The Moxa LM-7000H module series is ideal for those in search of solid and flexible network solutions. This further gives this ruggedly designed module assurance that this Moxa Ethernet switch will also work under the most adverse conditions.