English | 繁體

Search in the results

UM

Browse/Search Results:  1-10 of 15 Help

Selected(0)Clear Items/Page:    Sort:
Investigation of the Thermal-Force Coupling and Temperature Compensation of Embedded FBG Strain Sensor Journal article
Shen, Shunan, Xiong, Li, Pan, Hanwen, Ge, Dankai, Zhou, Wanhuan, Guo, Yongxing. Investigation of the Thermal-Force Coupling and Temperature Compensation of Embedded FBG Strain Sensor[J]. IEEE Sensors Journal, 2024, 24(13), 20645-20654.
Authors:  Shen, Shunan;  Xiong, Li;  Pan, Hanwen;  Ge, Dankai;  Zhou, Wanhuan; et al.
Favorite | TC[WOS]:1 TC[Scopus]:0  IF:4.3/4.2 | Submit date:2024/06/05
Embedded Fiber Bragg Grating (Fbg) Strain Sensor  Reinforced Concrete  Temperature Compensation  Thermal Strain  
Towards True In-situ Temperature Compensation Utilizing Multiple Parameter Decoupling for Resonant MEMS Sensors Subject to Blue Sideband Excitation Journal article
Xi, Jingqian, Zheng, Zhuoyue, Liu, Huafeng, Zhang, Pan, Zhao, Chun, Wang, Yuan, Wang, Chen, Kraft, Michael, Martins, Rui P., Mak, Pui In. Towards True In-situ Temperature Compensation Utilizing Multiple Parameter Decoupling for Resonant MEMS Sensors Subject to Blue Sideband Excitation[J]. IEEE Sensors Letters, 2024, 8(4), 2500804.
Authors:  Xi, Jingqian;  Zheng, Zhuoyue;  Liu, Huafeng;  Zhang, Pan;  Zhao, Chun; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:2.2/2.2 | Submit date:2024/05/02
Blue-sideband Excitation (Bse)  Mechanical Sensors  Multiple Parameter Decoupling (Mpd)  Resonant Sensor  Temperature Compensation  
An 1V Supply, 740nW, 8.7ppm/℃ Bandgap Voltage Reference Employing Segmented Curvature Compensation Journal article
Chi-Wa U, Cong Liu, Rui P. Martins, Chi-Seng Lam. An 1V Supply, 740nW, 8.7ppm/℃ Bandgap Voltage Reference Employing Segmented Curvature Compensation[J]. IEEE Transactions on Circuits and Systems I - Regular Papers, 2023, 70(12), 4755 - 4766.
Authors:  Chi-Wa U;  Cong Liu;  Rui P. Martins;  Chi-Seng Lam
Favorite | TC[WOS]:7 TC[Scopus]:6  IF:5.2/4.5 | Submit date:2023/08/31
Bandgap Reference  Segmented Curvature Compensation  Temperature Coefficient  
A −40–125 °C, 0.8 V, 33 kHz relaxation oscillator with integrated voltage and current reference and compensated comparator delay Journal article
Lidan Wang, Chenchang Zhan, Zhaobo Zhang, Shuangxing Zhao. A −40–125 °C, 0.8 V, 33 kHz relaxation oscillator with integrated voltage and current reference and compensated comparator delay[J]. Microelectronics Journal, 2021, 117, 105285.
Authors:  Lidan Wang;  Chenchang Zhan;  Zhaobo Zhang;  Shuangxing Zhao
Favorite | TC[WOS]:4 TC[Scopus]:5  IF:1.9/1.7 | Submit date:2021/12/08
Delay  Temperature Compensation  Voltage And Current Reference  —relaxation Oscillator  
A -40°C to 125°C, 1.08 ppm/°C, 918 nW Bandgap Voltage Reference with Segmented Curvature Compensation Journal article
Yan, T., U, C. W., Law, M. K., Lam, C. S.. A -40°C to 125°C, 1.08 ppm/°C, 918 nW Bandgap Voltage Reference with Segmented Curvature Compensation[J]. Microelectronics Journal, 2020, 104897-104897.
Authors:  Yan, T.;  U, C. W.;  Law, M. K.;  Lam, C. S.
Favorite |   IF:1.9/1.7 | Submit date:2022/08/12
Bandgap Voltage Reference  Temperature Coefficient (Tc)  Segmented Curvature Compensation  
A −40 ​°C–125 ​°C, 1.08 ​ppm/°C, 918 ​nW bandgap voltage reference with segmented curvature compensation Journal article
Yan,Tianzheng, U,Chi Wa, Law,Man Kay, Lam,Chi Seng. A −40 ​°C–125 ​°C, 1.08 ​ppm/°C, 918 ​nW bandgap voltage reference with segmented curvature compensation[J]. MICROELECTRONICS JOURNAL, 2020, 105, 104897.
Authors:  Yan,Tianzheng;  U,Chi Wa;  Law,Man Kay;  Lam,Chi Seng
Favorite | TC[WOS]:11 TC[Scopus]:12  IF:1.9/1.7 | Submit date:2021/03/11
Bandgap Voltage Reference  Temperature Coefficient (Tc)  Segmented Curvature Compensation  
A Temperature-Stabilized Single-Channel 1-GS/s 60-dB SNDR SAR-Assisted Pipelined ADC with Dynamic Gm-R-Based Amplifier Journal article
Jiang,Wenning, Zhu,Yan, Zhang,Minglei, Chan,Chi Hang, Martins,Rui Paulo. A Temperature-Stabilized Single-Channel 1-GS/s 60-dB SNDR SAR-Assisted Pipelined ADC with Dynamic Gm-R-Based Amplifier[J]. IEEE Journal of Solid-State Circuits, 2020, 55(2), 322-332.
Authors:  Jiang,Wenning;  Zhu,Yan;  Zhang,Minglei;  Chan,Chi Hang;  Martins,Rui Paulo
Favorite | TC[WOS]:42 TC[Scopus]:51  IF:4.6/5.6 | Submit date:2021/03/09
Analog-to-digital Converter (Adc)  Gm-r Amplifier  Pipelined-successive Approximation Register (Sar) Adc  Residue Amplifier (Ra)  Sar  Sar-assisted Pipelined Adc  Temperature Compensation  
A curvature compensated bjt-based time-domain temperature sensor with an inaccuracy of ±0.7°C from -40°C to 125°C Conference paper
Xu,Yukun, Law,Man Kay, Mak,Pui In, Martins,Rui P.. A curvature compensated bjt-based time-domain temperature sensor with an inaccuracy of ±0.7°C from -40°C to 125°C[C], 2019.
Authors:  Xu,Yukun;  Law,Man Kay;  Mak,Pui In;  Martins,Rui P.
Favorite | TC[WOS]:0 TC[Scopus]:3 | Submit date:2021/03/09
Cmos Temperature Sensor  Curvature Compensation  Low-power  Time Domain  
Process compensated bipolar junction transistor-based CMOS temperature sensor with a +/- 1.5 degrees C (3 sigma) batch-to-batch inaccuracy Journal article
Sun, Dapeng, Zhang, Tan-Tan, Law, Man-Kay, Mak, Pui-In, Martins, Rui Paulo. Process compensated bipolar junction transistor-based CMOS temperature sensor with a +/- 1.5 degrees C (3 sigma) batch-to-batch inaccuracy[J]. ELECTRONICS LETTERS, 2018, 54(22), 1270-1271.
Authors:  Sun, Dapeng;  Zhang, Tan-Tan;  Law, Man-Kay;  Mak, Pui-In;  Martins, Rui Paulo
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:0.7/0.9 | Submit date:2019/01/17
Resistors  Calibration  Cmos Integrated Circuits  Bipolar Transistors  Temperature Sensors  First-batch-only Calibration Parameters  Batch-to-batch Inaccuracy  Piecewise Bjt Process  Compensation Property  Base Recombination Current  Base-emitter Voltage  Cmos Temperature Sensor  Process Compensated Bjt  Intra-die Variation  Spread Compensation Property  On-chip Resistors  Inter-die Variation  Current 3  0 Mua  Voltage 1  2 v  Temperature-40 Degc To 125 Degc  Size 0  036 Mm  
Nano-Watt Class Energy-Efficient Capacitive Sensor Interface with On-Chip Temperature Drift Compensation Journal article
Tan-Tan Zhang, Man-Kay Law, Pui-In Mak, Mang-I Vai, Rui P. Martins. Nano-Watt Class Energy-Efficient Capacitive Sensor Interface with On-Chip Temperature Drift Compensation[J]. IEEE Sensors Journal, 2018, 18(7), 2870-2882.
Authors:  Tan-Tan Zhang;  Man-Kay Law;  Pui-In Mak;  Mang-I Vai;  Rui P. Martins
Favorite | TC[WOS]:17 TC[Scopus]:19 | Submit date:2019/02/11
Capacitive Sensor Interface  Energy Efficiency  High Accuracy  Mismatch Errors  Pressure Sensor  Temperature Compensation  Two-step Incremental-adc  Ultra-low Power