Title :
A 1.35V 4.3GB/s 1Gb LPDDR2 DRAM with controllable repeater and on-the-fly power-cut scheme for low-power and high-speed mobile application
Author :
Jeong, Bong Hwa ; Lee, Jongwon ; Lee, Yin Jae ; Kang, Tae Jin ; Lee, Joo Hyeon ; Hong, Duck Hwa ; Kim, Jae Hoon ; Lee, Eun Ryeong ; Kim, Min Chang ; Lee, Kyung Ha ; Park, Sang Il ; Son, Jong Ho ; Lee, Sang Kwon ; Yoo, Seong Nyuh ; Kim, Sung Mook ; Kwon, T
Author_Institution :
Hynix Semicond., Icheon, South Korea
Abstract :
With the advent of high-performance multi-processing demands for real-time multimedia and broadband networking in battery-based mobile systems, high-speed and low power mobile SDRAM/DDRs are becoming increasingly important. We present an on-the-fly power-cut scheme that can be applied to mobile DRAM without any special modes and a global data-line repeater scheme to reduce the data-line delay. In addition, 4b data prefetch and a ZQ calibrated output driver scheme are used to achieve 4.3 GB/s/chip (1066 Mb/s/pin) bandwidth with 110 mW power dissipation.
Keywords :
DRAM chips; low-power electronics; DDR; LPDDR2 DRAM; SDRAM; ZQ calibrated output driver scheme; battery-based mobile systems; bit rate 4.3 Gbit/s; broadband networking; controllable repeater; high-speed mobile application; low-power mobile application; on-the-fly power-cut scheme; real-time multimedia; storage capacity 1 Gbit; voltage 1.35 V; CMOS technology; Current measurement; Delay effects; Driver circuits; Energy consumption; Logic; Random access memory; Repeaters; Semiconductor device measurement; Switches;
Conference_Titel :
Solid-State Circuits Conference - Digest of Technical Papers, 2009. ISSCC 2009. IEEE International
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4244-3458-9
DOI :
10.1109/ISSCC.2009.4977343
