A　capacitive　wireless　power　transfer　(CPT)　system　based　on　parity–time　(PT)　symmetry　achieves　constant　output　characteristics　under　distance　variation　without　additionally　increasing　the　system　complexity　of　the　control　strategy,　where　the　concept　of　PT　symmetry　is　derived　from　quantum　mechanics,　and　the　systems　satisfying　PT　symmetry　are　invariant　under　space　and　time　inversion.　However,　the　exact　PT-symmetric　region　(i.e.,　strong　coupling　region)　of　the　general　system　is　limited　by　the　symmetry　of　the　structure　and　parameters.　To　overcome　this　limitation,　a　novel　generalized　parity–time　(GPT)-symmetric　CPT　system　is　proposed　in　this　article.　According　to　the　equivalent　circuit　method,　the　circuit　model　of　the　proposed　system　is　built,　and　the　transfer　characteristics　are　analyzed.　Furthermore,　a　prototype　is　implemented　to　verify　the　feasibility　of　the　proposed　CPT　system.　The　results　show　that　the　PT-symmetric　region　is　extended　by　169.23%　compared　with　the　traditional　PT-based　CPT　system,　and　a　constant　output　power　of　21.5　W　is　transferred　with　a　constant　transfer　efficiency　of　90%.　©　2024　by　the　authors.