Journal of Guangdong University of Technology ›› 2023, Vol. 40 ›› Issue (05): 108-112.doi: 10.12052/gdutxb.220156

• Comprehensive Studies • Previous Articles    

Development of EDM Self-adjusting Pulse Power Supply Based on FPGA

Zhang Guang-you, Su Guo-kang, Li Jia-wang, Li Jun-fei, Tang You-gui, Zhang Yong-jun   

  1. School of Electromechanical Engineering, Guangdong University of Technology, Guangzhou 510006, China
  • Received:2022-10-17 Published:2023-09-26

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Abstract: Aiming at the problems such as insufficient ability to detect discharge state and hysteresis of output of existing wire-cut pulse power supply, a self-adjusting pulse power supply based on FPGA is developed. The power supply can accurately identify the discharge state of each processing pulse by high-speed A/D sampling. By adjusting the pulse output frequency in real time according to different discharge states, the harmful discharge state can be suppressed and the effective discharge pulse ratio can be improved. The experimental results show that the machining efficiency of the Connecting Rod Cutting machine is improved by using the self-tuning pulse power supply, compared with that by using the constant frequency pulse power supply. The pulse power supply promotes the development of the reciprocating wire cutting machine to high efficiency, energy saving and automation.

Key words: electrical discharge wire cutting, pulse power supply, self-adjusting, field programmable gate array

CLC Number: 

  • TG661
[1] 肖菊兰. 电火花脉冲电源研究现状及发展趋势[J]. 科技创新与应用, 2016, 5(36): 142.
XIAO J L. Research status and development trend of EDM pulse power supply [J]. Technology Innovation and Application, 2016, 5(36): 142.
[2] 梁世雍, 于兆勤, 黄文彬, 等. 电火花钻削高精度盲孔实验研究[J]. 广东工业大学学报, 2020, 37(4): 75-78.
LIANG S Y, YU Z Q, HUANG W B, et al. A research on EDM drilling high precision blind hole [J]. Journal of Guangdong University of Technology, 2020, 37(4): 75-78.
[3] 李佳旺. 连杆切槽机床控制系统及自调整脉冲电源研究[D]. 广州: 广东工业大学, 2022.
[4] LIAO Y S, WOO J C. Design of a fuzzy controller for the adaptive control of WEDM process [J]. International Journal of Machine Tools and Manufacture, 2000, 40(15): 2293-2307.
[5] DUTTA P, MAJUMDER M, PANJA S C. Optimization of material removal rate in wire EDM by polynomial neural network models [J]. Computational Intelligence, 2020, 36(2): 613-636.
[6] 蒋毅, 赵万生, 顾琳. 微细电火花加工脉冲电源及其脉冲控制技术[J]. 上海交通大学学报, 2011, 45(11): 1684-1689.
JIANG Y, ZHAO W S, GU L. Research on pulse generator and pulse control technology for micro electrical discharge machining [J]. Journal of Shanghai Jiao Tong University, 2011, 45(11): 1684-1689.
[7] GHODSIYEH D, GOLSHAN A, IZMAN S. Multi-objective process optimization of wire electrical discharge machining based on response surface methodology [J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2014, 36(2): 301-313.
[8] 卢智良. 电流上升沿斜率对电极损耗影响[J]. 电加工, 1994, 29(2): 17-19.
LU Z L. Effect of current rising slope on electrode loss[J]. Electromachining, 1994, 29(2): 17-19.
[9] 凡银生. 电火花加工间隙放电特性及自适应与节能脉冲电源的研究[D]. 哈尔滨: 哈尔滨工业大学, 2017: 71.
[10] 黄瑞宁, 刘兵, 楼云江. 基于模糊控制的微细电火花加工脉冲电源研究[J]. 中国机械工程, 2012, 23(14): 1718-1722.
HUANG R N, LIU B, LOU Y J. Research on micro EDM pulse generator with fuzzy control [J]. China Mechanical Engineering, 2012, 23(14): 1718-1722.
[11] 宋恩禹. 旋转超声振动辅助电火花加工自适应脉冲电源设计与实验研究[D]. 北京: 北方工业大学, 2020.
[12] 苏国康, 李俊飞, 张永俊, 等. 连杆应力槽双向同步电火花线切割机床设计[J]. 机电工程, 2020, 37(8): 931-935.
SU G K, LI J F, ZHANG Y J, et al. Two-way synchronous wire EDM machine for stress groove of connecting rod [J]. Journal of Mechanical and Electrical Engineering, 2020, 37(8): 931-935.
[13] 潘红伟. 基于 FPGA 的往复走丝电火花线切割脉冲电源及高效加工研究[D]. 南京: 南京航空航天大学, 2018.
[14] PURI A B, BHATTACHARYYA B. An analysis and optimization of the geometrical inaccuracy due to wire lag phenomenon in WEDM [J]. International Journal of Machine Tools and Manufacture, 2013, 2(43): 151-159.
[15] 孙贺龙. 电火花小孔加工间隙状态检测及伺服控制系统研究[D]. 哈尔滨: 哈尔滨工业大学, 2017.
[16] 官乐乐, 蒋毅, 赵万生, 等. 一种新型电火花线切割加工脉冲电源的设计[J]. 现代制造工程, 2019, 41(9): 94-99.
GUAN L L, JIANG Y, ZHAO W S, et al. Design of a new wirecut electrical discharge machining pulse power [J]. Modern Manufacturing Engineering, 2019, 41(9): 94-99.
[17] 王力, 连海山. 基于FPGA的绝缘陶瓷电火花加工脉冲电源的研制[J]. 机床与液压, 2021, 49(19): 88-93.
WANG L, LIAN H S. Development of pulse power supply of insulated ceramics based on FPGA [J]. Machine Tool and Hydraulics, 2021, 49(19): 88-93.
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