A 14-μA 3-ppm/°C CMOS bandgap voltage reference

被引:0
|
作者
Yao, CH [1 ]
Liu, BA [1 ]
Xia, YW [1 ]
机构
[1] Tsinghua Univ, Inst Microelect, Beijing 100084, Peoples R China
来源
2005 6TH INTERNATIONAL CONFERENCE ON ASIC PROCEEDINGS, BOOKS 1 AND 2 | 2005年
关键词
CMOS bandgap reference; curvature compensation; temperature-dependent resistor ration; PSRR; frequency compensation;
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
The work presented in this paper improves on a high order curvature-compensated CMOS band-gap reference circuit design [6]. A cascoded current mirror is utilized in order to increase the bandgap voltage's power supply rejection ration (PSRR) and decrease the mismatch current A source follower is inserted in series with the capacitor to guarantee the system stable. Simulated in the standard 0.18 mu m CMOS technology, the proposed voltage reference can operate down to 1.5V supply and consumes supply current of 14 mu A. A temperature coefficient of 3-ppm/degrees C is achieved through the temperature-dependent resistor ratio.
引用
收藏
页码:524 / 527
页数:4
相关论文
共 48 条
  • [21] An All-subthreshold, 0.75V Supply, 2ppm/°C, CMOS Voltage Reference
    Andreou, Charalambos M.
    Georgiou, Julius
    2013 IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS (ISCAS), 2013, : 1476 - 1479
  • [22] A 1.2-V 1.76-ppm/°C Low Voltage CMOS Band-gap Reference
    Ma, Bill
    Yu, Fengqi
    SENSORS, MEASUREMENT AND INTELLIGENT MATERIALS, PTS 1-4, 2013, 303-306 : 1798 - 1802
  • [23] A 0.82 V Supply and 23.4 ppm/°C Current Mirror Assisted Bandgap Reference
    Nagulapalli, Rajasekhar
    Palani, Rakesh Kumar
    Hayatleh, K.
    Yassine, N.
    Barker, S.
    2021 32ND IRISH SIGNALS AND SYSTEMS CONFERENCE (ISSC 2021), 2021,
  • [24] A-104 dB PSRR and 1.86-ppm/°C curvature-compensated bandgap voltage reference with improved voltage-self-regulating technology
    Wu, Sini
    Gong, Yihong
    Xie, Jin
    Tu, Ruiyong
    Li, Jinghu
    Luo, Zhicong
    AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS, 2024, 173
  • [25] A sub-1 V high-precision CMOS bandgap voltage reference
    Liao, Jun
    Zhao, Yiqiang
    Geng, Junfeng
    JOURNAL OF SEMICONDUCTORS, 2012, 33 (02)
  • [26] A 1.67-ppm/°C 64-ppm/V Curvature-Compensated Bandgap Reference Based on a Transcendental Equation
    Wang, Ruocheng
    Lu, Wengao
    Zhu, Yajun
    Niu, Yuze
    Zhang, Yacong
    Chen, Zhongjian
    2016 13TH IEEE INTERNATIONAL CONFERENCE ON SOLID-STATE AND INTEGRATED CIRCUIT TECHNOLOGY (ICSICT), 2016, : 1342 - 1344
  • [27] A Single-Trim CMOS Bandgap Reference With a 3σ Inaccuracy of ±0.15% From-40°C to 125°C
    Ge, Guang
    Zhang, Cheng
    Hoogzaad, Gian
    Makinwa, Kofi A. A.
    IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2011, 46 (11) : 2693 - 2701
  • [28] A New Curvature-corrected CMOS Bandgap Voltage Reference Using Current Sink Technique
    Rhaffor, Nuha A.
    Zawawi, Ruhaifi Abdullah
    Mohd, Shukri Korakkottil Kunhi
    Hamid, Sofiyah Sal
    Abd Manaf, Asrulnizam
    PROCEEDINGS OF 2017 INTERNATIONAL CONFERENCE ON IMAGING, SIGNAL PROCESSING AND COMMUNICATION, 2015, : 176 - 179
  • [29] A 2.2-V 2.9-ppm/degrees C BiCMOS bandgap voltage reference with full temperature-range curvature-compensation
    Zhou Zekun
    Ma Yingqian
    Ming Xin
    Zhang Bo
    Li Zhaoji
    JOURNAL OF SEMICONDUCTORS, 2010, 31 (07)
  • [30] A 0.52 ppm/A°C high-order temperature-compensated voltage reference
    Liu, Yonggen
    Li, Zhaoji
    Luo, Ping
    Zhang, Bo
    ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING, 2010, 62 (01) : 17 - 21
12345