High-voltage direct current technology offers
several advantages compared to alternating current transmission systems. For
example, HV current allows more efficient bulk power transfer over long
distances. However, the cost is an essential variable in the overall equation.
Once installed, these transmission systems are an integral part of the
electrical power system, improving stability, reliability, and transmission
capacity. Typical
utility-scale power plants generate alternating current (AC) electricity, and
most electrical loads run on AC power. Thus, the majority of transmission lines
carrying power around the world are of the AC type. However, there are
instances when direct high-voltage current (HVDC) transmission systems offer
significant benefits. One big advantage of HVDC is the efficiency of the
HV power supply transmission over long distances. George
Culbertson, vice president of power delivery markets for HDR, once told POWER.
“If the transmission line route is longer than about 300 miles, DC is a better
option because AC lines have more line losses than DC for bulk power transfer.”
HVM Technology was established in 2004. It is
now a market leader in the field of high voltage microelectronics. Their
dedicated team of professionals continues to push the end limits of high
voltage miniaturization by offering several varieties of standard and
customized products right from ranging between the small high
voltage power supply, single-output high voltage DC-to-DC converters
to multiple complex outputs modulated designs. Their manufacturing capabilities
include:-
• ISO 9001:2008 Compliant Facility
• J-STD-001 Assembly
• In-House Automated SMT Pick &
Place Production Line
• Dedicated RoHS Assembly Lines
• Transformer Coil Winding, Fine-Wire
Magnetics
• Vacuum Potting Processes
• Microscope-Aided Assembly