Valves have modular design and consists of modern light triggered thyristors as today’s 500 kV thyristor valves. Individual thyristor modules will be arranged in valve towers. Double valve tower or quadruple valve tower are possible solutions depending on the valve hall and transformer arrangement. For UHVDC application double valve towers seem to be more adequate due to large clearance requirements inside the valve halls.

The valve arm contains a number of switching elements connected in series (or parallel). Based on LCC or VSC is the converter topology, the switching element could be thyristor or IGBT. The number of the switching elements depends on the voltage level of the HVDC station.

• Thyristor LCC valves: The thyristor valves can be build-up in different ways depending on the application and manufacturer. However, the most common way of arranging the thyristor valves is in a twelve-pulse group with three quadruple valves. Each single thyristor valve consists of a certain amount of series connected thyristors with their auxiliary circuits. All communication between the control equipment and each thyristor at high potential, is done with fibre optics.
• IGBT VSC valves: The VSC converter consists of a two level or a multilevel converter, phase-reactors and AC filters. Each single valve in the converter bridge is built up with a certain number of series connected IGBTs together with their auxiliary electronics. VSC valves, control equipment and cooling equipment would be in enclosures (such as standard shipping containers) that make transport and installation very easy. All modern HVDC valves are water-cooled and air insulated.