Design of a digital protection scheme for power transformers using optimal state observers

The authors present the design of a digital protection scheme for three-phase power transformers. The design is based on an optimal state observer for estimating the fundamental and harmonic components of the signals. The scheme provides primary protection for internal faults ground faults and backup protection for external faults. Internal fault protection is provided by means of a percentage differential characteristic, which also includes even- and fifth-harmonic restraints to prevent misoperation during inrush and overexcitation conditions, respectively. Protection for external faults is provided by means of a three-phase digital overcurrent relay. The protection scheme is implemented on a TMS320 digital signal processor and tested in the laboratory using a three-phase transformer. Relay operation times are in the range ¹/₂ to ³/₄ of a 60 Hz cycle for internal and ground faults. The percentage differential relay provides complete restraint during inrush, overexcitation and external fault conditions