A design proposal for twin-wire pulsed MIG welding power supply based on DSP ( digital signal processor) and CAN ( controller area network ) is put forward. By ase of the CAN bus, the synergic control between the ...A design proposal for twin-wire pulsed MIG welding power supply based on DSP ( digital signal processor) and CAN ( controller area network ) is put forward. By ase of the CAN bus, the synergic control between the master and slave power supplies can be realized. And in this way, their peak currents can be guaranteed to be alternative and the interference between the two arcs can be decreased efficiently. The hardware design, software design and relative tests are provided in this paper. Tests show that the power supply can meet the design requirements of twin-wire welding.展开更多
A type of novel inverter power supply system for high-power twin-wire pulsed gas metal arc welding (GMAW) is presented mainly for dealing with the disadvantages of the conventional power supply for twin-wire pulsed ...A type of novel inverter power supply system for high-power twin-wire pulsed gas metal arc welding (GMAW) is presented mainly for dealing with the disadvantages of the conventional power supply for twin-wire pulsed GMA W of which the output power is generally difficult to increase due to limitations of the power of semiconductors and the power density of magnetic devices. In the power supplies for the master and slave arcs, the digital signal processor (DSP) TMS320F28335 is used to form the DSP- based synergic control system for parallel high-power pulsed GMA W, which achieves high-power output of two parallel inverters controlled by a single DSP ; master-slave communication is achieved by using e controller area network (eCAN)module of DSP, thas realizing anti-phase pulse output of high-power twin-wire pulsed GMA W and reducing the interference between twin arcs. The experiment results demonstrate that the designed inverter power supply system for high-power twin-wire pulsed GMAW can bring about high-power efficiency of welding, stable welding process and proper formation of welds.展开更多
基金This project was supported by National Natural Science Foundation of China(50375054).
文摘A design proposal for twin-wire pulsed MIG welding power supply based on DSP ( digital signal processor) and CAN ( controller area network ) is put forward. By ase of the CAN bus, the synergic control between the master and slave power supplies can be realized. And in this way, their peak currents can be guaranteed to be alternative and the interference between the two arcs can be decreased efficiently. The hardware design, software design and relative tests are provided in this paper. Tests show that the power supply can meet the design requirements of twin-wire welding.
基金Supported by National Natural Science Foundation of China(No.51205136)Ph.D. Programs Foundation of the Ministry of Education of China(No.20100172120003)+1 种基金Competitive Allocation Project Special Fund of Guangdong Province Chinese Academy of Sciences Comprehensive Strategic Cooperation(No.2013B091500082)The Fundamental Research Funds for the Central Universities(Key Program)(No.2015ZZ084)
文摘A type of novel inverter power supply system for high-power twin-wire pulsed gas metal arc welding (GMAW) is presented mainly for dealing with the disadvantages of the conventional power supply for twin-wire pulsed GMA W of which the output power is generally difficult to increase due to limitations of the power of semiconductors and the power density of magnetic devices. In the power supplies for the master and slave arcs, the digital signal processor (DSP) TMS320F28335 is used to form the DSP- based synergic control system for parallel high-power pulsed GMA W, which achieves high-power output of two parallel inverters controlled by a single DSP ; master-slave communication is achieved by using e controller area network (eCAN)module of DSP, thas realizing anti-phase pulse output of high-power twin-wire pulsed GMA W and reducing the interference between twin arcs. The experiment results demonstrate that the designed inverter power supply system for high-power twin-wire pulsed GMAW can bring about high-power efficiency of welding, stable welding process and proper formation of welds.
