Add to ORKGA large signal simulation for two parallel converters in a distributed power supply system is presented in this paper. The distributed system is composed of switched-mode power factor correction (PFC) converters utilizing central limit control technique. This technique allows one voltage loop compensator to be shared by all the PFC converters. Design of such a compensator is discussed and the system performances with regard to unequal cable resistances and load changes are reported. The resulting system achieves a power factor of about 0.98 and provides an excellent current sharing between the two converter modules
Amongst power converters, rectifiers are needed by many devices that are connected at the distributi...
The analytical proof that output voltage droop characteristics of parallel-connected DC-DC converter...
In this paper two DC-DC converters connected in parallel with the purpose of load sharing by applyin...
A large signal simulation for two parallel converters in a distributed power supply system is presen...
A large signal simulation for a distributed power supply system is presented in this paper. The syst...
[[abstract]]Based on the central-limit control algorithm for the parallel connected converter system...
[[abstract]]A current-sharing technique known as central-limit control (CLC) is presented. Different...
In this paper a novel predictive control for Parallel Power Factor Correction (PFC) scheme is propos...
[[abstract]]A current mode control scheme for load sharing power converter systems with dynamic curr...
This study presents a novel power factor correction (PFC) technique using a canonical switching cell...
Power supply modules can be connected in parallel to build up a complex power system. Connecting man...
Characteristics of parallel-module high power-factor AC-to-DC converter systems using current-balanc...
Recent research and advancement in DC systems reveal that DC distribution may be an efficient, relia...
Abstract—This paper shows the analysis and design of a parallel-connected converter system using sli...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Amongst power converters, rectifiers are needed by many devices that are connected at the distributi...
The analytical proof that output voltage droop characteristics of parallel-connected DC-DC converter...
In this paper two DC-DC converters connected in parallel with the purpose of load sharing by applyin...
A large signal simulation for two parallel converters in a distributed power supply system is presen...
A large signal simulation for a distributed power supply system is presented in this paper. The syst...
[[abstract]]Based on the central-limit control algorithm for the parallel connected converter system...
[[abstract]]A current-sharing technique known as central-limit control (CLC) is presented. Different...
In this paper a novel predictive control for Parallel Power Factor Correction (PFC) scheme is propos...
[[abstract]]A current mode control scheme for load sharing power converter systems with dynamic curr...
This study presents a novel power factor correction (PFC) technique using a canonical switching cell...
Power supply modules can be connected in parallel to build up a complex power system. Connecting man...
Characteristics of parallel-module high power-factor AC-to-DC converter systems using current-balanc...
Recent research and advancement in DC systems reveal that DC distribution may be an efficient, relia...
Abstract—This paper shows the analysis and design of a parallel-connected converter system using sli...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Amongst power converters, rectifiers are needed by many devices that are connected at the distributi...
The analytical proof that output voltage droop characteristics of parallel-connected DC-DC converter...
In this paper two DC-DC converters connected in parallel with the purpose of load sharing by applyin...