Robust Three-Metallization Back End of Line Process for 0.18 μm Embedded Ferroelectric Random Access Memory
スポンサーリンク
概要
- 論文の詳細を見る
We developed ferroelectric random access memory (FRAM)-embedded smartcards in which FRAM replaces electrically erasable PROM (EEPROM) and static random access memory (SRAM) to improve the read/write cycle time and endurance of data memories during operation, in which the main time delay retardation observed in EEPROM embedded smartcards occurs because of slow data update time. EEPROM-embedded smartcards have EEPROM, ROM, and SRAM. To utilize FRAM-embedded smartcards, we should integrate submicron ferroelectric capacitors into embedded logic complementary metal oxide semiconductor (CMOS) without the degradation of the ferroelectric properties. We resolved this process issue from the viewpoint of the back end of line (BEOL) process. As a result, we realized a highly reliable sensing window for FRAM-embedded smartcards that were realized by novel integration schemes such as tungsten and barrier metal (BM) technology, multilevel encapsulating (EBL) layer scheme and optimized intermetallic dielectrics (IMD) technology.
- 2005-04-15
著者
-
Kim Kinam
Advanced Technology Development 2 Memory Device Business Samsung Electronics Co.
-
KANG Seung-Kuk
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics C
-
PARK Jung-Hun
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics C
-
Rhie Hyoung-seub
Advanced Technology Development Team Memory Division Semiconductor Business Samsung Electronics Co.
-
Lee Sung-young
Advanced Technology Development Team Memory Division Semiconductor Business Samsung Electronics Co.
-
Koo Bon-jae
Advanced Technology Development Team Memory Division Semiconductor Business Samsung Electronics Co.
-
Choi Do-hyun
Advanced Technology Development Team Memory Division Semiconductor Business Samsung Electronics Co.
-
Jeong Hong-sik
Advanced Technology Development Team Memory Division Semiconductor Business Samsung Electronics Co.
-
Joo Heung-jin
Advanced Technology Development Team Memory Division Semiconductor Business Samsung Electronics Co.
-
Kim Hyun-ho
Advanced Technology Development Team Memory Division Semiconductor Business Samsung Electronics Co.
-
Kang Young-Min
Advanced Technology Development 2 Team, Semiconductor R&D Center, Memory Division, Samsung Electronics Co., Ltd., San 24, Nongseo-Dong, Kiheung-Gu, Yongin-Si, Kyungki-Do 446-711, Korea
-
Koo Bon-Jae
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Choi Do-Hyun
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Lee Sung-Young
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Park Jung-Hun
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Kim Kinam
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Kang Seung-Kuk
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Kang Seung-Kuk
Advanced Technology Development 2 Team, Semiconductor R&D Center, Memory Division, Samsung Electronics Co., Ltd., San 24, Nongseo-Dong, Kiheung-Gu, Yongin-Si, Kyungki-Do 446-711, Korea
-
Jeong Hong-Sik
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Jeong Hong-Sik
Advanced Technology Development 2 Team, Semiconductor R&D Center, Memory Division, Samsung Electronics Co., Ltd., San 24, Nongseo-Dong, Kiheung-Gu, Yongin-Si, Kyungki-Do 446-711, Korea
-
Kim Hyun-Ho
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Kim Hyun-Ho
Advanced Technology Development 2 Team, Semiconductor R&D Center, Memory Division, Samsung Electronics Co., Ltd., San 24, Nongseo-Dong, Kiheung-Gu, Yongin-Si, Kyungki-Do 446-711, Korea
-
Joo Heung-Jin
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
-
Joo Heung-Jin
Advanced Technology Development 2 Team, Semiconductor R&D Center, Memory Division, Samsung Electronics Co., Ltd., San 24, Nongseo-Dong, Kiheung-Gu, Yongin-Si, Kyungki-Do 446-711, Korea
-
Rhie Hyoung-Seub
Advanced Technology Development Team, Memory Division, Semiconductor Business, Samsung Electronics Co., Ltd., San #24, Nongseo-Ri, Giheung-Eup, Yongin-City, Gyeonggi-Do 449-711, Korea
関連論文
- High Density and Ultra-Low Power Mobile SRAM Using the Novel Double S^3 (Stacked Single-crystal Silicon) Technology and KrF lithography
- Tunnel Oxide Optimization to Improve Post-Cycling Retention of Flash Memories
- Highly Reliable 256Mb NOR Flash MLC with Self-Aligned Process and Controlled Edge Profile
- Optimization of Ring Type Electrode Process for High Density PRAM
- Novel Capacitor Structure Using Sidewall Spacer for Highly Reliable Ferroelectric Random Access Memory Device
- Robust Three-Metallization Back End of Line Process for 0.18μm Embedded Ferroelectric Random Access Memory
- High Density (256Mb and Beyond) PRAM Integration Using 3-D Cell Array Transistors(Plenary Session,AWAD2006)
- High Density (256Mb and Beyond) PRAM Integration Using 3-D Cell Array Transistors(Plenary Session,AWAD2006)
- Robust 2-D Stack Capacitor Technologies for 64Mb 1T1C FRAM
- Robust 3-Metallization BEOL Process for 0.18μm Embedded FRAM
- Invited Integration Technologies for High Density Emerging New Memories (先端デバイスの基礎と応用に関するアジアワークショップ(AWAD2005))
- Invited Integration Technologies for High Density Emerging New Memories (先端デバイスの基礎と応用に関するアジアワークショップ(AWAD2005))
- Highly Manufacturable 64M bit Ultra Low Power SRAM Using a Novel 3-Dimensional S^3 (Stacked Single-crystal Si) Cell Technology
- Robust Two-Dimensional Stack Capacitor Technologies for 64 Mbit One-Transistor–One-Capacitor Ferroelectric Random Access Memory
- Ring Contact Electrode Process for High Density Phase Change Random Access Memory
- Highly Reliable Ring-Type Contact for High-Density Phase Change Memory
- MRAM's future prospects and its challenges
- High Density (256Mb and Beyond) PRAM Integration Using 3-D Cell Array Transistors
- Ge2Sb2Te5 Confined Structures and Integration of 64 Mb Phase-Change Random Access Memory
- Invited The prospective on New Emerging Memories (FRAM, MRAM, PRAM) in nano era (先端デバイスの基礎と応用に関するアジアワークショップ)
- [Invited] The Prospective on New Emerging Memories (FRAM, MRAM, PRAM) in nano era (AWAD2003 (Asia-Pacific Workshop on Fundamental and Application of Advanced Semiconductor Devices))
- Robust Three-Metallization Back End of Line Process for 0.18 μm Embedded Ferroelectric Random Access Memory
- Novel Capacitor Structure Using Sidewall Spacer for Highly Reliable Ferroelectric Random Access Memory Device
- Current Development Status and Future Challenges of Ferroelectric Random Access Memory Technologies