Title :
40 nm Dual-port and two-port SRAMs for automotive MCU applications under the wide temperature range of −40 to 170°C with test screening against write disturb issues
Author :
Yokoyama, Yoshisato ; Ishii, Y. ; Tanaka, Kiyoshi ; Fukuda, Toshio ; Tsujihashi, Yoshiki ; Miyanishi, Astushi ; Asayama, Shinobu ; Maekawa, Keiichi ; Shiba, Kazutoshi ; Nii, Koji
Author_Institution :
Renesas Electron. Corp., Tokyo, Japan
Abstract :
A 2-read/write dual-port SRAM and 1-read/1-write two-port SRAM with stable operation at temperatures of -40 to 170°C are implemented in 40 nm embedded flash CMOS technology for automotive microcontroller applications. To reduce the leakage current and to ensure the read/write operating margin at over 125°C, a new 8T SRAM bitcell with the optimized process and sizing is proposed. A test circuit for screening disturb failures for dual-port and two-port SRAMs is also proposed. Designed and fabricated test chips showed that measured Vmin is achieved under 0.7 V with good distribution. Results show that the proposed test circuits can screen the disturb failures effectively.
Keywords :
CMOS memory circuits; SRAM chips; automotive electronics; embedded systems; failure analysis; flash memories; integrated circuit testing; leakage currents; microcontrollers; 1-read/1-write two-port SRAM; 2-read-write dual-port SRAM; 8T SRAM bitcell; automotive MCU applications; automotive microcontroller; embedded flash CMOS technology; leakage current reduction; optimized process; optimized sizing; screening disturb failures; size 40 nm; temperature -40 degC to 170 degC; test chips; test circuits; test screening; two-port SRAMs; voltage 0.7 V; write disturb; Automotive engineering; CMOS integrated circuits; Clocks; Delays; Layout; Random access memory; Tuning; 170°C; 40 nm; 6T; 8T; ECU; MCU; SRAM; disturb; dual-port; memory; screening; testability; two-port;
Conference_Titel :
Solid-State Circuits Conference (A-SSCC), 2014 IEEE Asian
Conference_Location :
KaoHsiung
Print_ISBN :
978-1-4799-4090-5
DOI :
10.1109/ASSCC.2014.7008851
