The converter transformers transform the voltage of the AC busbar to the required entry voltage of the converter. The transformer is an interface between AC side and DC side. The main insulation, therefore, is stressed by both the AC voltage and the DC voltage potential between valve-side winding and ground. These are special types of transformers that are designed to withstand high harmonics currents and voltage stress. Also, they will have tap changers to enable the optimization of HVDC operations. Converter transformers act as galvanic barrier between AC and DC systems to prevent DC potential entering into the AC system. Availability of the HVDC transmission is dependent on the converter transformer performance.

In HVDC transmission there is requirement for large voltage control at the converter & inverter ends. Converter transformer typically includes an on-load tap-changer to assist with voltage regulation. Tapping range is large (25 ~ 30%) with small steps to give necessary adjustments in supply voltage. On-load tap-changers (OLTCs) are used for changing the transformer winding ratio to control the firing angle and to compensate voltage variations. OLTCs are used to control the DC output voltage when the converter is used as rectifier and AC voltage to the grid when the converter is used as an inverter. The transformer tap ratio can be manipulated to help prevent the converter from becoming over or under-modulated. Operating the converter in the over or under-modulated region could have a negative impact on harmonic performance.