TY - JOUR
T1 - Design and fabrication of identification inkjet print head chip fuse sensors
AU - Liou, Jian Chiun
AU - Yang, Cheng Fu
AU - Gong, Cihun Siyong
N1 - Publisher Copyright:
© MYU K.K.
PY - 2016
Y1 - 2016
N2 - This paper describes the development of a thermal inkjet print head with an identification circuit. The identification circuit was designed using a fuse and other electronic components. The multifunctionality of the integrated circuit in a print head of the cartridge was used to satisfy user demands. The circuit was encoded to enable identification of general information regarding the ink cartridge, such as its model number, serial number, color settings (color or gray scale), and the best print quality. In addition, the current status of the cartridge, such as whether its life has elapsed, can be identiied. The identification circuit was connected in series with the metal oxide semiconductor (MOS) drain fuse after the wafer factory burn break fuse. A VID of more than 3.6 V indicates a blown fuse. Therefore, the fuse-blow voltage was set to be 3.6 V. At a value of VGS equal to 15.5 V, blown fuse parameter analysis was performed. Linear regression showed that the ID current was 54.36 mA. X-ray diffraction patterns revealed that the X-rays penetrate the fuse circuit from the top. Therefore, the elemental composition of all layers, from the upper layer SiC/SiN to the Si substrate, was analyzed and determined to be Si, C, N, Ta, Al, P, and O, among others. Because most layers contain Si, the Si peak was the largest. The fuse profile was characterized using scanning electron microscopy. Fuse size and current density were also investigated.
AB - This paper describes the development of a thermal inkjet print head with an identification circuit. The identification circuit was designed using a fuse and other electronic components. The multifunctionality of the integrated circuit in a print head of the cartridge was used to satisfy user demands. The circuit was encoded to enable identification of general information regarding the ink cartridge, such as its model number, serial number, color settings (color or gray scale), and the best print quality. In addition, the current status of the cartridge, such as whether its life has elapsed, can be identiied. The identification circuit was connected in series with the metal oxide semiconductor (MOS) drain fuse after the wafer factory burn break fuse. A VID of more than 3.6 V indicates a blown fuse. Therefore, the fuse-blow voltage was set to be 3.6 V. At a value of VGS equal to 15.5 V, blown fuse parameter analysis was performed. Linear regression showed that the ID current was 54.36 mA. X-ray diffraction patterns revealed that the X-rays penetrate the fuse circuit from the top. Therefore, the elemental composition of all layers, from the upper layer SiC/SiN to the Si substrate, was analyzed and determined to be Si, C, N, Ta, Al, P, and O, among others. Because most layers contain Si, the Si peak was the largest. The fuse profile was characterized using scanning electron microscopy. Fuse size and current density were also investigated.
KW - Addressing
KW - CMOS-MEMS
KW - Identification
KW - Multiplexer
KW - X-ray
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U2 - 10.18494/SAM.2016.1202
DO - 10.18494/SAM.2016.1202
M3 - Article
AN - SCOPUS:84982908205
SN - 0914-4935
VL - 28
SP - 493
EP - 501
JO - Sensors and Materials
JF - Sensors and Materials
IS - 5
ER -