Energy Management

Through our subsidiary, Iskraemeco, we are one of the world’s leading manufacturers of smart meters.

 

Our portfolio of residential and commercial ICG energy measuring devices provides real-time data that enables utility companies to manage energy use, anticipate demand, and optimize costs while helping consumers act more sustainably and significantly lower their energy bills.

 

With our smart meters and grids, you can predict all your future needs for efficient energy management. You will have access to the latest digitalized solutions based on IoT, data lakes, and smart cities. You will be able to future-proof your business with the ultimate balance between performance, efficiency, and reliability.

 

  • 100 million meters installed
  • Smart grid applications
  • Interoperability
  • Complete supply chain transparency
  • Factories in Slovenia, Egypt, and Malaysia
  • 50% improvement in carbon footprint over last 5 years

 

The Isk MiniLab, with its 6GHz OTA and a system that enables OTA measurement execution with rapid pace and high measurement accuracy, has given Elsewedy Electric a remarkable footprint in the world of evolving technology, as it remains the only test system of such specifications in South-Eastern Europe.

 

To learn more, visit: www.iskraemeco.com

Partners in success

Structured cabling is the passive infrastructure that supports the transmission of data, voice, and video signals in a building or campus. It consists of various components, including twisted pair cables, fiber optic cables, and cable accessories. Twisted pair cables are the most common type of cabling used in structured cabling systems. They are composed of two insulated copper conductors that are twisted together to reduce electromagnetic interference (EMI). The most common types of twisted pair cables used in structured cabling are UTP (Unshielded Twisted Pair) and FTP (Foiled Twisted Pair). Fiber optic cables are another type of cabling used in structured cabling systems. They are made up of glass or plastic cores that transmit light signals. Fiber optic cables are generally used for long distances or high-bandwidth applications. Structured cabling systems typically include a variety of components, such as closures, patch panels, outlets, modules, racks, and cabinets. Closures are used to terminate and splice cables. Patch panels are used to connect cables to other network devices. Outlets are used to provide access to the network for end users. Modules are used to connect cables to patch panels. Racks and cabinets are used to house and organize cabling components. The type of cabling and components used in a structured cabling system will depend on the specific needs of the network.