US Patent No. 10,251,281

METHOD FOR MANUFACTURING ELECTRONIC DEVICES


Patent No. 10,251,281
Issue Date April 02, 2019
Title Method For Manufacturing Electronic Devices
Inventorship Shu-Hui Hung, Hsinchu (TW)
Assignee ABLEGO TECHNOLOGY CO., LTD., Hsinchu (TW)

Claim of US Patent No. 10,251,281

1. A method for manufacturing electronic devices, comprising:providing a substrate having a first surface;
providing an electronic device having conductive bumps on at least one surface thereof;
mounting the conductive bumps located on at least one surface of the electronic device to the first surface of the substrate so as to form an integrated unit, wherein a pitch between the conductive bumps is less than 100 micrometers, a gap between the electronic device and the substrate is less than 50 micrometers;
applying an capillary underfill to multiple sides of the electronic device, so that the capillary underfill creeps along and fills the gap between the electronic device and the substrate, forming a protection for the conductive bumps;
placing the integrated unit into a processing chamber;
raising the temperature in the processing chamber to a first predetermined temperature;
pre-adjusting the pressure in the processing chamber;
raising the pressure in the processing chamber to a second predetermined pressure higher than 1 atm, and maintaining the second predetermined pressure for a predetermined time period, wherein the second predetermined pressure is between about 1.3 kg/cm2 and 20 kg/cm2; and
adjusting the temperature in the processing chamber to a second predetermined temperature,
wherein the pre-adjusting the pressure in the processing chamber comprises steps of:
(a) reducing the pressure in the processing chamber to a first predetermined pressure of vacuum pressure, and maintaining the first predetermined pressure for a predetermined time period, wherein the first predetermined pressure is between 1.3×10?4 kg/cm2 and about 1.02 kg/cm2; and
(b) raising the pressure in the processing chamber from the first predetermined pressure to a first return pressure, wherein the first return pressure is between 1.5×10?4 kg/cm2 and about 1.03 kg/cm2;
(c) reducing the pressure in the processing chamber to a third predetermined pressure of vacuum pressure, and maintaining the third predetermined pressure for a predetermined time period, wherein the third predetermined pressure is between 1.3×10?4 kg/cm2 and 1.02 kg/cm2; and
(d) raising the pressure in the processing chamber from the third predetermined pressure to a second return pressure, wherein the second return pressure is between 1.5×10?4 kg/cm2 and about 9.3 kg/cm2;
wherein the steps (a) to (d) are carried out one or more times, the second predetermined pressure is higher than the first return pressure, the second predetermined pressure is higher than the second return pressure, the first predetermined pressure is lower than, equal to or higher than the third predetermined pressure, and the first return pressure is lower than, equal to or higher than the second return pressure.