Patent ID: 11882664
Assignee: NORTHWESTERN POLYTECHNICAL UNIVERSITY
Field: Computer technology (Electrical engineering)
Classification: CPC B  H  G | IPC G  H

Claim 2:
3. The artificial intelligence-assisted printed electronics self-guided optimization method according to claim 2, wherein the setting the rest five parameter condition groups to have fixed printing parameters when printing with any one of the parameter condition groups comprises:
when determining the impact of the number of jetting holes on printing quality, setting the number of jetting holes of the printer according to the first group of parameters respectively and printing, with the rest five groups of conditions being as follows: the number of times of printing is 1, the printing speed is 150 mm/s, the temperature of the printing substrate is room temperature, the distance between the nozzle and the substrate is 0.1 mm, and the inkjet intensity of the nozzle is 100%;
when determining the impact of the number of times of printing on printing quality, setting the number of times of printing according to the second group of parameters respectively and printing, with the rest five groups of conditions being as follows: the number of jetting holes of the printer is 1, the printing speed is 150 mm/s, the temperature of the printing substrate is room temperature, the distance between the nozzle and the substrate is 0.1 mm, and the inkjet intensity of the nozzle is 100%;
when determining the impact of the printing speed on printing quality, setting the printing speed according to the third group of parameters respectively and printing, with the rest five groups of conditions being as follows: the number of jetting holes of the printer is 1, the number of times of printing is 1, the temperature of the printing substrate is room temperature, the distance between the nozzle and the substrate is 0.1 mm, and the inkjet intensity of the nozzle is 100%;
when determining the impact of the temperature of the printing substrate on printing quality, setting the temperature of the printing substrate according to the fourth group of parameters respectively and printing, with the rest five groups of conditions being as follows: the number of jetting holes of the printer is 1, the number of times of printing is 1, the printing speed is 150 mm/s, the distance between the nozzle and the substrate is 0.1 mm, and the inkjet intensity of the nozzle is 100%;
when determining the impact of the distance between the nozzle and the substrate on printing quality, setting the distance between the nozzle and the substrate according to the fifth group of parameters respectively and printing, with the rest five groups of conditions being as follows: the number of jetting holes of the printer is 1, the number of times of printing is 1, the printing speed is 150 mm/s, the temperature of the printing substrate is room temperature, and the inkjet intensity of the nozzle is 100%;
when determining the impact of the inkjet intensity of the nozzle on printing quality, setting the inkjet intensity of the nozzle according to the sixth group of parameters respectively and printing, with the rest five groups of conditions being as follows: the number of jetting holes of the printer is 1, the number of times of printing is 1, the printing speed is 150 mm/s, the temperature of the printing substrate is room temperature, and the distance between the nozzle and the substrate is 0.1 mm.