Digital control of DC power converters has been an important research topic in recent years. In this dissertation, two digital control methods are proposed to improve the DC converter performances. One of the methods deals with variable load line feature and the other deals with step-load transient response. A review of digital control of power converters is first given from the point of view of conventional DC converter with analog feedback control. From the review, a novel digital feedback control scheme is proposed. It uses digital LSB (Least Significant Bit) tuning to achieve an adjustable converter DC load line without affecting the stability behavior of the system, and this can be done smoothly while the converter is in operation. The opens up new possibilities of applications an analog-controlled converter can’t achieve. Besides, a digitally control algorithm is proposed to provide fast output-voltage transient response to step-load changes. This involves sensing the converter output voltage and on-line calculation of the transistor on-time and off-time in a one-step on-off switching during the transient period. Both the methods mentioned above were experimentally verified.