Growing demands for 5G connectivity within the UK can now be addressed through Low Loss Corrugated (LISCA) cable assemblies, thanks to the launch of a new production line by HUBER+SUHNER and CL Electrical Controls.
The development of the production line in Bristol reflects an expansion to the partnership originally agreed in 2020 and ensures mobile operators have greater accessibility to LISCA cable assemblies for projects across the country.
“We are pleased to launch our brand-new production line for the UK market,” said Reto Germann, Senior Vice President Sales Communication for the Communication Segment, HUBER+SUHNER. “This investment demonstrates both companies’ commitment to supporting a rapidly growing telecommunication sector. With this development, CL Electrical Controls can provide operators with advanced network solutions to enhance networks countrywide.”
The LISCA cables assemblies, renowned for their exceptional RF performance, durability in harsh conditions and full electrical testing up to 3.8 GHz, will now be produced in the UK by CL Electrical Controls. This development is set to streamline the supply chain for UK mobile operators, ensuring faster delivery and installation, alongside enhanced network infrastructure upgrades to meet the growing demand for 5G connectivity.
The solutions are designed to perform under the most challenging environmental conditions while ensuring long-term reliability. These assemblies are crucial components for future-proofing mobile networks as they adapt to the demands of 5G and beyond. With the new production line, operators will have greater opportunity to obtain and use LISCA cable assemblies within their projects. “We are pleased to further strengthen our partnership with HUBER+SUHNER with this launch,” said Steve Thompson Director, Production and Operations, CL Electrical Controls. “The on-going expansion of 5G in the UK demands means operators are now crying out for reliable, locally produced solutions. This new production line ensures that the country’s increasing network requirements can be addressed