Resultados de medição livres de erros - também em ambientes com fortes influências eletromagnéticas

Na maioria dos casos, a energia elétrica não é produzida no mesmo local onde é consumida. Redes de alimentação elétrica transportam a energia do produtor para o consumidor.

A rede de alimentação elétrica é classificada em diferentes níveis de tensão: partindo de umas poucas centenas de volts ("LV"), passando por muitos 10 kV ("MV") até muitos 100 kV ("HV"), dependendo da capacidade de transporte necessitada.

Os diferentes níveis de tensão são inter-conectados por subestações que compreendem transformadores de tensão, equipamento de comutação, disjuntores de conexão contra picos de tensão, isoladores etc., bem como outros equipamentos de medição e interruptores.

Switchgear testing

Switchgear testing is one of the very demanding applications, requiring specific hardware and software to produce accurate and reliable test results. The hardware challenges include isolation, amplifier drift, noise, electromagnetic immunity and battery operation. The software challenges include data integrity, repeatability and productivity. Benefit from HBM's integrated solutions for switchgear testing.

Switchgear testing

HV Impulse Testing

Most of the power grids worldwide are built by power lines on masts. They are highly exposed to lightning strikes with the risk of damage on the components in a substation.

Damage to one or several of the elements may result in partial loss of the power distribution capability, unsatisfied consumers and high cost for repair. Testing transformers, surge arrestors, isolators and switchgear is an important part of the quality proving process and documents the components withstand capabilities. Learn more about HBM's integrated software and hardware solutions fo HV impulse testing:

High Voltage Impulse Testing

Current Zero Testing

Current zero (CZ) refers to the interruption phenomena in high power circuit-breakers. Today it seems improbable that high voltage circuits could be interrupted economically by other means than the electric arc.

All circuit-breakers are working based on contact moving away from each other, thus creating an electrical arc between the contacts. The current zero phenomena is an indicator for the pressure, temperature, ion density, plasma flow, etc.

Current zero measurements are used to understand the phenomena of the arc and to identify the dominant parameters for a successful interruption of the current. Learn more about HBM's integrated hardware and software solutions for current zero testing:

Current Zero Testing



Your benefits

  • Accuracy, reliability and data integrity for confidence
  • Productivity for low cost of ownership
  • Standard HW & SW software with application specific extensions provides cost efficient solution
  • Solution provider with more than 15 years experience in this application
  • Several generations of HW & SW demonstrate expertise and commitment
  • Lower system maintenance cost over lifetime compared to “one-off” systems