We installed effective earthing/grounding systems to safeguard equipment in banks, offices, hospitals, and homes, providing a path for fault current to flow to earth and preventing electric shock. The protective conductor connects conductive parts to the main earthing terminal, maintaining them at the same potential. The prospective touch voltage is determined by the conductor's impedance and fault current. Continuous currents from various sources may flow within the earthing zone, even if voltages are safe.
We installed earthing/grounding systems in various settings to prevent electric shock by providing a path for fault current to flow to earth. The protective conductor connects conductive parts to the main earthing terminal, and continuous currents may flow within the earthing zone.
We installed effective earthing/grounding systems to safeguard equipment in banks, offices, hospitals, and homes, providing a path for fault current to flow to earth and preventing electric shock. The protective conductor connects conductive parts to the main earthing terminal, maintaining them at the same potential. The prospective touch voltage is determined by the conductor's impedance and fault current. Continuous currents from various sources may flow within the earthing zone, even if voltages are safe.
We installed earthing/grounding systems in various settings to prevent electric shock by providing a path for fault current to flow to earth. The protective conductor connects conductive parts to the main earthing terminal, and continuous currents may flow within the earthing zone.
We installed a solar home system for a 4 bedroom duplex in Sagamu Gra, Ogun state, Nigeria. Solar home systems are cost-effective for providing power to remote and off-grid households, fulfilling basic electric needs. They operate at a rated voltage of 12V DC, providing power for low-power DC appliances for about 3-5 hours a day. Efficient appliances are recommended to limit the size of the array. Solar home systems also reduce indoor air pollution, provide lighting for home study, and facilitate access to information and communication.
We installed a solar home system in a 4-bedroom duplex in Sagamu Gra, Ogun state, Nigeria, providing cost-effective power for low-power DC appliances for 3-5 hours a day.
Working on a distribution panel at Wema bank Headquarters data center.
Working on a distribution panel at Wema bank Headquarters data center.
Working on a distribution panel at Wema bank Headquarters data center.
Working on a distribution panel at Wema bank Headquarters data center.
Our team had the privilege of working on a tower project for Ikeja Electric, a vital component of Nigeria's power infrastructure. A tower is a remarkable steel lattice structure that serves as an aerial support for the transmission of electrical power distribution lines, regardless of their voltage level.
Our team worked on a tower project for Ikeja Electric, a vital part of Nigeria's power infrastructure. The tower supports the transmission of electrical power distribution lines.
We installed a battery backup system for a data center at Murtala Mohammed Airport in Lagos. Reliable backup power is essential for data center redundancy and uptime. During power loss, a seamless transition to backup power is crucial to avoid downtime. Maintaining and matching backup power capacity with utility power is important. Organizations start with a smaller backup power amount and increase it over time.
We installed a battery backup system for a data center at Muritala Mohammed Airport in Lagos to ensure reliable backup power and avoid downtime during power loss.
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