Self-compensating power supply circuit for low voltage SOI

被引:0
|
作者
Okamura, Leona [1 ]
Morishita, Fukashi [2 ]
Dosaka, Katsumi [2 ]
Arimoto, Kazutarni [2 ]
Yoshihara, Tsutornu [1 ]
机构
[1] Waseda Univ, Grad Sch Informat Prod & Syst, Fukuoka, Japan
[2] Renesas Technol Corp, Syst Core Technol Div, Itami, Hyogo, Japan
关键词
D O I
暂无
中图分类号
TP18 [人工智能理论];
学科分类号
081104 ; 0812 ; 0835 ; 1405 ;
摘要
SOI device is promised to be a mobile and wireless network applications as it has better potential of high speed, low operating voltage and Q-factor. Gate Body directly connected SOI MOSFET suppresses Sees historical effects and is promised technologies that let the logic circuitry work in ultra low voltage. Compared to Bulk-Si MOSFET, GBSOI can reduce its power supply voltage by 30%, its current by 26% and its power dissipation by 47%. However sub-Gbps level clocking circuits with ultra low voltage require the smaller PVT (process, voltage and temperature) variation. This paper presents an architecture to stabilize SOI logic circuitry against PVT variation especially under ultra low power supply voltage. Deviation of gate delay caused by PVT variation is reduced to 1.6%, while 40% with Bulk-Si. This system realizes the cell libraries whose gate delay is constant despite PVT variation. They greatly help designing circuitry especially under ultra low voltage.
引用
收藏
页码:1039 / +
页数:2
相关论文
共 50 条
  • [31] Nanopower VFC includes self-compensating charge pump
    Woodward, WS
    ELECTRONIC DESIGN, 1998, 46 (15) : 131 - 131
  • [32] Terahertz Broadband Self-Compensating Waveguide Phase Shifter
    Liu, Zongqing
    Liu, JiaShan
    Lu, Hongda
    Liu, Yong
    Lv, Xin
    2019 INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION (ISAP 2019), 2019,
  • [33] Circuit sizing and supply-voltage selection for low-power digital circuit design
    Vratonjic, Milena
    Zeydel, Bart R.
    Oklobdzija, Vojin G.
    INTEGRATED CIRCUIT AND SYSTEM DESIGN: POWER AND TIMING MODELING, OPTIMIZATION AND SIMULATION, 2006, 4148 : 148 - 156
  • [34] SOI for low-power low-voltage - Bulk versus SOI
    Pelloie, JL
    MICROELECTRONIC ENGINEERING, 1997, 39 (1-4) : 155 - 166
  • [35] SELF-COMPENSATING CONVERTER OF CURRENT-DENSITY IN ELECTROLYTES
    GUSEV, VG
    FOKIN, AN
    FOKIN, NK
    MIRIN, AN
    MEASUREMENT TECHNIQUES, 1979, 22 (07) : 844 - 848
  • [36] SELF-COMPENSATING CARRIER AIRCRAFT RECOVERY-SYSTEM
    BRODERSEN, R
    SAUER, G
    JOURNAL OF AIRCRAFT, 1992, 29 (02): : 210 - 216
  • [37] Optimum supply and threshold voltages and transistor sizing effects on low power SOI circuit design
    Emadi, M.
    Jafargholi, A.
    Mogbadam, H. Sargazi
    Nayebi, M. M.
    2006 IEEE ASIA PACIFIC CONFERENCE ON CIRCUITS AND SYSTEMS, 2006, : 1394 - +
  • [38] FAST, SELF-COMPENSATING SPECTRAL-SCANNING ELLIPSOMETER
    MULLER, RH
    FARMER, JC
    REVIEW OF SCIENTIFIC INSTRUMENTS, 1984, 55 (03): : 371 - 374
  • [39] Operation assessment of self-compensating, vectored thruster AUV
    Michelini, RC
    Cavallo, E
    PROCEEDINGS OF THE FOURTEENTH (2004) INTERNATIONAL OFFSHORE AND POLAR ENGINEERING CONFERENCE, VOL 2, 2004, : 244 - 249
  • [40] SWITCHING CIRCUIT FOR A LOW VOLTAGE, MEDIUM CURRENT DC POWER-SUPPLY
    LUKE, K
    JACOBS, R
    WHITELEY, R
    REVIEW OF SCIENTIFIC INSTRUMENTS, 1973, 44 (01): : 81 - 83