Overheat protection circuit for high frequency processors

被引:4
|
作者
Frankiewicz, M. [1 ]
Kos, A. [1 ]
机构
[1] AGH Univ Sci & Technol, Dept Elect, PL-30059 Krakow, Poland
来源
BULLETIN OF THE POLISH ACADEMY OF SCIENCES-TECHNICAL SCIENCES | 2012年 / 60卷 / 01期
关键词
PTAT; overheat; CMOS; VLSI; full-custom design;
D O I
10.2478/v10175-012-0009-6
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The paper describes design and structure of the overheat protection circuit based on the PTAT sensors. The digital core of the system is driven by a 3-bit information generated by the structure. As a result, behaviour of the core differs for each temperature. The circuit was designed in LF CMOS 0.15 mu m technology using full-custom technique. The presented paper focuses especially on the structure of the overheat protection circuit and simulations results of the functional blocks of the system. Layout and some parameters of the circuit are also considered.
引用
收藏
页码:55 / 59
页数:5
相关论文
共 50 条
  • [1] PTAT Sensor for Chip Overheat Protection
    Szermer, Michal
    Janicki, Marcin
    Pietrzak, Piotr
    Kulesza, Zbigniew
    Napieralski, Andrzej
    [J]. 26TH ANNUAL IEEE SEMICONDUCTOR THERMAL MEASUREMENT AND MANAGEMENT SYMPOSIUM, PROCEEDINGS 2010, 2010, : 176 - 179
  • [2] Low loss wideband protection circuit for high frequency ultrasound.
    Poulsen, JK
    [J]. 1999 IEEE ULTRASONICS SYMPOSIUM PROCEEDINGS, VOLS 1 AND 2, 1999, : 823 - 826
  • [3] An Adaptive Clocking Control Circuit with 7.5% Frequency Gain for SPARC Processors
    Hashimoto, Tetsutaro
    Kawabe, Yukihito
    Hara, Michiharu
    Kakimura, Yasushi
    Tajiri, Kunihiko
    Shirota, Shinichiro
    Nishiyama, Ryuichi
    Sakurai, Hitoshi
    Okano, Hiroshi
    Tomita, Yasumoto
    Satoh, Sugio
    Yamashita, Hideo
    [J]. 2017 SYMPOSIUM ON VLSI TECHNOLOGY, 2017, : C112 - C113
  • [4] An Adaptive Clocking Control Circuit with 7.5% Frequency Gain for SPARC Processors
    Hashimoto, Tetsutaro
    Kawabe, Yukihito
    Hara, Michiharu
    Kakimura, Yasushi
    Tajiri, Kunihiko
    Shirota, Shinichiro
    Nishiyama, Ryuichi
    Sakurai, Hitoshi
    Okano, Hiroshi
    Tomita, Yasumoto
    Satoh, Sugio
    Yamashita, Hideo
    [J]. 2017 SYMPOSIUM ON VLSI CIRCUITS, 2017, : C112 - C113
  • [5] Selection of thermotropic materials for overheat protection of polymer absorbers
    Gladen, Adam C.
    Davidson, Jane H.
    Mantell, Susan C.
    [J]. SOLAR ENERGY, 2014, 104 : 42 - 51
  • [6] Study of RC-Diode ESD Protection Circuit for High-Frequency Applications
    Lin, Chun-Yu
    Li, Bo-Yan
    Fu, Yi-Quan
    [J]. 2022 INTERNATIONAL EOS/ESD SYMPOSIUM ON DESIGN AND SYSTEM (IEDS), 2022,
  • [7] A high-speed asynchronous decompression circuit for embedded processors
    Benes, M
    Wolfe, A
    Nowick, SM
    [J]. SEVENTEENTH CONFERENCE ON ADVANCED RESEARCH IN VLSI, PROCEEDINGS, 1997, : 219 - 236
  • [8] An Adaptive-Clocking-Control Circuit With 7.5% Frequency Gain for SPARC Processors
    Hashimoto, Tetsutaro
    Kawabe, Yukihito
    Hara, Michiharu
    Kakimura, Yasushi
    Tajiri, Kunihiko
    Shirota, Shinichiro
    Nishiyama, Ryuichi
    Sakurai, Hitoshi
    Okano, Hiroshi
    Tomita, Yasumoto
    Satoh, Sugio
    Yamashita, Hideo
    [J]. IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2018, 53 (04) : 1028 - 1037
  • [9] PROTECTION CIRCUIT INSULATED FOR HIGH VOLTAGE
    NIESEN, E
    [J]. REVIEW OF SCIENTIFIC INSTRUMENTS, 1967, 38 (05): : 689 - &
  • [10] Overheat protection for motor crane hoist using internet of things
    Paduloh, Paduloh
    Muhendra, Rifki
    [J]. INTERNATIONAL JOURNAL OF COMPUTER APPLICATIONS IN TECHNOLOGY, 2022, 68 (04) : 332 - 344
12345