Our supporting medical SMT patch processing factory is located in Shenzhen. The meticulous processing of china medical SMT patch processing is paramount in the fabrication of cutting-edge medical equipment, encompassing critical stages such as precise solder paste deposition, accurate component placement, advanced medical SMT patch processing reflow soldering techniques, and rigorous quality assessment protocols. These technical intricacies play a pivotal role in shaping the performance and reliability of the equipment and are indispensable considerations for electronic equipment manufacturers' procurement processes.Our company has obtained ISO 9001 quality system certification.Our products strictly implement quality system standards.
In the field of medical device manufacturing, fashion medical SMT patch processing plays a crucial role. Production efficiency is one of the bases of medical SMT patch processing. When designing and establishing an SMT production line, the appropriate process materials must be selected according to the process flow and process requirements. Component mounting is the core of quality medical SMT patch processing. Using advanced mounters, components can be precisely placed on the PCB that has already been printed with solder paste. In the manufacturing of medical equipment, the mounting accuracy of components directly affects the performance and stability of the equipment.
Item name: medical SMT patch processing
Copper Thickness:0.5-12oz(18-420um)
Hole Diameter:Min0.05mm
Min. Line Spacing:0.10mm(4mil)
One Stop Service:PCB Assembly, Component Sourcing, Box Building
MOQ:No
Certification:RoHS, UL, ISO
Surface Treatment:Gold Finger/Hard Gold
Board Thickness:0.2-6mm
Solder Mask Color:Green/Black/White/Red/Blue/Yellow
Min. Line Width:0.10mm(4mil)
Test:100% E-Test
Max. Finished Board Side:1020mm*1000mm
Sample Date:5-7days
After SMT patch processing is completed, quality inspection is an indispensable part. With advanced equipment such as Automated Optical Inspection (AOI), problems such as poor welds and component offset can be efficiently detected.