June Lee
Samsung
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Publication
Featured researches published by June Lee.
IEEE Journal of Solid-state Circuits | 2003
June Lee; Sung-Soo Lee; Oh-Suk Kwon; Kyeong-Han Lee; Dae-Seok Byeon; In-young Kim; Kyoung-Hwa Lee; Young-Ho Lim; Byung-Soon Choi; Jong-Sik Lee; Wang-Chul Shin; Jeong-Hyuk Choi; Kang-Deog Suh
A 1.8-V 2-Gb NAND flash memory has been successfully developed on a 90-nm CMOS STI process technology, resulting in a 141-mm/sup 2/ die size and a 0.044-/spl mu/m/sup 2/ effective cell. For the higher level integration, critical layers are patterned with KrF photolithography. The device has three notable differences from previous generations. 1) The cells are organized in a single (16K+512) column and 128K row array by adopting a one-sided row decoder in order to minimize the die size. 2) The bitline precharge level is set to 0.9 V in order to increase on-cell current. 3) During the program operations, the string select line, which connects the NAND cell strings to the bitlines, is biased with sub-V/sub CC/ in order to avoid program disturbance issues.
IEEE Journal of Solid-state Circuits | 2002
June Lee; Heung-Soo Im; Dae-Seok Byeon; Kyeong-Han Lee; Dong-Hyuk Chae; Kyong-Hwa Lee; Sang Won Hwang; Sung-Soo Lee; Young-Ho Lim; Jae-Duk Lee; Jung-Dal Choi; Youngil Seo; Jong-Sik Lee; Kang-Deog Suh
A 1.8-V, 1-Gb NAND flash memory is fabricated with 0.12-/spl mu/m CMOS STI process technology. For higher integration, a 32-cell NAND structure, which enables row decoder layout in one block pitch, is applied for the first time. Resulting cell and die sizes are 0.076 /spl mu/m/sup 2/ and 129.6 mm/sup 2/, respectively. A pseudo-4-phase charge pump circuit can generate up to 20 V even under the supply voltage of 1.6 V. A newly applied cache program function and expanded page size of (2 k + 64) byte lead to program throughput of 7 MB/s. The page copy-back function is provided for on-chip garbage collection. The read throughput of 27 MB/s is achieved by simply expanding I/O width and page size. A measured disturbance free-window of 3.5 V at 1.5 V-V/sub DD/ is obtained.
international solid-state circuits conference | 2003
June Lee; Sung-Soo Lee; Oh-Suk Kwon; Kyeong-Han Lee; Kyong-Hwa Lee; Dae-Seok Byeon; In-young Kim; Young-Ho Lim; Byung-Soon Choi; Jong-Sik Lee; Wang-Chul Shin; Jeong-Hyuk Choi; Kang-Deog Suh
A 1.8 V 2 Gb NAND flash memory is fabricated in a 90 nm process resulting in a 141 mm/sup 2/ die and a 0.044 /spl mu/m/sup 2/ effective cell. To achieve the high level of integration, critical layers are patterned with KF photolithography and phase-shift masks with proximity correction.
international solid-state circuits conference | 2002
June Lee; Heung-Soo Im; Dae-Seok Byeon; Kyeong-Han Lee; Dong-Hyuk Chae; Kyong-Hwa Lee; Young-Ho Lim; Jung-Dal Choi; Youngil Seo; Jong-Sik Lee; Kang-Deog Suh
A 1.8 V 1 Gb flash memory uses a 0.12 /spl mu/m STI process technology. A charge pump operates at <1.8 V. A center-placed row decoder is digitized in one block pitch by applying a 32-cell NAND structure. A page buffer, containing two latches, supports a cache-program to improve program speed to 7 MB/s.
Archive | 2005
June Lee; Oh-Suk Kwon; Heung-Soo Im
Archive | 2007
Oh Suk Kwon; June Lee
Archive | 2004
Oh-Suk Kwon; June Lee
Archive | 2004
Kyeong-Han Lee; June Lee
Archive | 2001
June Lee; Young-Ho Lim
Archive | 2002
June Lee; Heung-Soo Im; Sun-Mi Choi
