| 臺大學術典藏 |
2022-09-21T23:32:27Z |
CMOS-MEMS Vibro-Impact Devices and Applications
|
Tsai, Chun Pu; WEI-CHANG LI |
| 臺大學術典藏 |
2022-04-21T23:17:56Z |
An Ultrasensitive Cmos-Mems Tuned-Mass-Damper (Tmd) Based Voltmeter
|
Huang, Pin Chun; Chen, Ting Yi; Tsai, Chun Pu; WEI-CHANG LI |
| 臺大學術典藏 |
2022-04-21T23:17:56Z |
A Micromechanical Frequency Controlled Pulse Density Modulator
|
Tsai, Chun Pu; WEI-CHANG LI |
| 臺大學術典藏 |
2022-04-21T23:17:55Z |
1:6 Internal Resonance in CMOS-MEMS Multiple-Stepped CC-Beam Resonators
|
Chen, Ting Yi; Tsai, Chun Pu; WEI-CHANG LI |
| 臺大學術典藏 |
2022-04-21T23:17:55Z |
Cmos-Mems Resonators with Sub-100-Nm Transducer Gap Using Stress Engineering
|
Zheng, Hong Sen; Tsai, Chun Pu; Chen, Ting Yi; WEI-CHANG LI |
| 臺大學術典藏 |
2022-03-22T08:31:44Z |
Tapping Bandwidth Widening of CMOS-MEMS Vibro-Impacting Resonators Based on Double-Sided Stopper Structures
|
Tsai C.-P;Wang H.-W;Li W.-C.; Tsai C.-P; Wang H.-W; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2022-03-22T08:31:44Z |
Micromechanical Vibro-Impact Resonator-Enabled Sensing Applications
|
Li W.-C.; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2022-03-22T08:31:42Z |
Tapping Bandwidth Widening of CMOS-MEMS Vibro-Impacting Resonators Based on Double-Sided Stopper Structures
|
Tsai C.-P;Wang H.-W;Li W.-C.; Tsai C.-P; Wang H.-W; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2022-03-22T08:31:42Z |
Micromechanical Vibro-Impact Resonator-Enabled Sensing Applications
|
Li W.-C.; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2022-03-22T08:28:39Z |
Tapping Bandwidth Widening of CMOS-MEMS Vibro-Impacting Resonators Based on Double-Sided Stopper Structures
|
Tsai C.-P;Wang H.-W;Li W.-C.; Tsai C.-P; Wang H.-W; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2022-03-22T08:28:39Z |
Micromechanical Vibro-Impact Resonator-Enabled Sensing Applications
|
Li W.-C.; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2021-10-21T23:28:06Z |
Tapping Bandwidth Widening of CMOS-MEMS Vibro-Impacting Resonators Based on Double-Sided Stopper Structures
|
Tsai, Chun Pu; Wang, Hsuan Wei; WEI-CHANG LI |
| 臺大學術典藏 |
2021-10-21T23:28:05Z |
Micromechanical Vibro-Impact Resonator-Enabled Sensing Applications
|
WEI-CHANG LI |
| 臺大學術典藏 |
2021-08-05T02:41:40Z |
Mitigating the Insufficient Etching Selectivity in the Wet Release Process of CMOS-MEMS Metal Resonators Via Diffusion Control
|
Hsu C.-E;Li W.-C.; Hsu C.-E; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2021-08-05T02:41:40Z |
Experimental Study on Frequency Stability of Micromechanical Resonators Operating in the Nonlinear Tapping Mode
|
Tsai C.-P;Liu J.-R;Li W.-C.; Tsai C.-P; Liu J.-R; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2021-08-05T02:41:40Z |
Enhancing the Release Process Yield for CMOS-MEMS Metal Resonators Based on Diffusion-Controlling Structures
|
Hsu C.-E;Li W.-C.; Hsu C.-E; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2021-08-05T02:41:39Z |
Vibration Mode Suppression in Micromechanical Resonators Using Embedded Anti- Resonating Structures
|
Liu J.-R;Tsai C.-P;Du W.-R;Chen T.-Y;Chen J.-S;Li W.-C.; Liu J.-R; Tsai C.-P; Du W.-R; Chen T.-Y; Chen J.-S; Li W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2021-04-21T23:30:32Z |
Enhancing the Release Process Yield for CMOS-MEMS Metal Resonators Based on Diffusion-Controlling Structures
|
Hsu, Cheng En; WEI-CHANG LI |
| 臺大學術典藏 |
2021-03-29T06:10:15Z |
微機械折疊樑梳狀共振式開關非線性動態碰撞模型
|
蔡淳樸;杜文睿;李尉彰; 蔡淳樸; 杜文睿; 李尉彰; WEI-CHANG LI |
| 臺大學術典藏 |
2021-03-29T06:10:15Z |
30 Years' Voyage of MEMS IEEE MEMS'17研討會活動報導
|
李尉彰; 李尉彰; WEI-CHANG LI |
| 臺大學術典藏 |
2021-01-19T12:08:51Z |
Vibration Mode Suppression in Micromechanical Resonators Using Embedded Anti-Resonating Structures
|
Liu, Jia Ren; Tsai, Chun Pu; Du, Wun Ruei; Chen, Ting Yi; Chen, Jung San; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:13:00Z |
Statistical root cause analysis of novel faults based on digraph models
|
Lv, Ning; Xu, Haipeng; Ye, Hao; Li, Weichang; Xu, Peng; Song, Liming; Usadi, Adam K.; WEI-CHANG LI; Yang, Fan; Wan, Yiming |
| 臺大學術典藏 |
2020-04-28T07:13:00Z |
Estimation of rapidly time-varying sparse channels
|
Li, Weichang; Preisig, James C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:13:00Z |
Focus detection from digital in-line holograms based on spectral l(1) norms
|
Li, Weichang; Loomis, Nick C.; Hu, Qiao; Davis, Cabell S.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:59Z |
A 1.1-V CMOS frequency synthesizer with pass-transistor-logic prescaler for U-NII band system
|
Cheng, J.-L.; Wang, C.-S.; Li, W.-C.; Wang, C.-K.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:59Z |
A 3-10 GHz full-band single VCO agile switching frequency generator for MB-OFDM UWB
|
Wang, C.-S.; Li, W.-C.; Wang, C.-K.; Shih, H.-Y.; Yang, T.-Y.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:59Z |
A 2.4-GHz/3.5-GHz/5-GHz multi-band LNA with complementary switched capacitor multi-tap inductor in 0.18μm CMOS
|
Li, W.-C.; Wang, C.-S.; Wang, C.-K.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:59Z |
A multi-band multi-standard RF frontend for IEEE 802.16a and IEEE 802.11a/b/g applications
|
Wang, C.-S.; Li, W.-C.; Wang, C.-K.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:59Z |
Cold Start Approach for Data-Driven Fault Detection
|
WEI-CHANG LI; Grbovic, Mihajlo; Li, Weichang; Subrahmanya, Niranjan A.; Usadi, Adam K.; Vucetic, Slobodan |
| 臺大學術典藏 |
2020-04-28T07:12:59Z |
Weighted Reconstruction-Based Contribution for Improved Fault Diagnosis
|
Xu, Haipeng; Yang, Fan; Ye, Hao; Li, Weichang; Xu, Peng; Usadi, Adam K.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:58Z |
Digitally-specified micromechanical displacement amplifiers
|
WEI-CHANG LI; Nguyen, C.T.-C.; Kim, B.; Ren, Z.; Lin, Y.-W.; Li, S.-S.; Gurin, I.; Li, W.-C.; Lin, Y. |
| 臺大學術典藏 |
2020-04-28T07:12:58Z |
Enhancement of micromechanical resonator manufacturing precision via mechanically-coupled arraying
|
Lin, Y.; Li, W.-C.; Kim, B.; Lin, Y.-W.; Ren, Z.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:58Z |
Micromechanical resonant displacement gain stages
|
Kim, B.; Lin, Y.; Huang, W.-L.; Akgul, M.; Li, W.-C.; Ren, Z.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:57Z |
A MEMS-based charge pump
|
Lin, Y.; Li, W.-C.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:57Z |
A metal micromechanical resonant switch for on-chip power applications
|
WEI-CHANG LI; Nguyen, C.T.-C.; Alon, E.; Li, W.-C.; Riekkinen, T.; Lin, Y. |
| 臺大學術典藏 |
2020-04-28T07:12:57Z |
Hollow stems for higher micromechanical disk resonator quality factor
|
Akgul, M.; Ren, Z.; Lin, Y.; Li, W.-C.; Nguyen, C.T.-C.; WEI-CHANG LI; Wu, L. |
| 臺大學術典藏 |
2020-04-28T07:12:57Z |
Polysilicon-filled carbon nanotube grass structural material for micromechanical resonators
|
Li, W.-C.; Jiang, Y.; Schneider, R.A.; Barrow, H.G.; Lin, L.; Nguyen, C.T.C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:57Z |
Acceleration sensitivity of small-gap capacitive micromechanical resonator oscillators
|
Kim, B.; Akgul, M.; Lin, Y.; Li, W.-C.; Ren, Z.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:57Z |
Quality factor enhancement in micromechanical resonators at cryogenic temperatures
|
Li, W.-C.; Lin, Y.; Kim, B.; Ren, Z.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:57Z |
Micromechanical disk array for enhanced frequency stability against bias voltage fluctuations
|
Wu, L.; Akgul, M.; Li, W.-C.; Lin, Y.; Ren, Z.; Rocheleau, T.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:56Z |
High temperature energy harvesters utilizing ALN/3C-SiC composite diaphragms
|
Lai, Y.-J.; Li, W.-C.; Felmetsger, V.V.; Senesky, D.G.; Pisano, A.P.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:56Z |
Multi-input energy harvesting interface for low-power biomedical sensing system
|
Chou, Y.-Y.; Wu, C.-C.; Chen, Y.-H.; Huang, Y.-C.; Chiu, Y.-C.; Tsai, L.-J.; Hsieh, W.-C.; Li, W.-C.; Huang, Y.-J.; Lu, S.-S.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:56Z |
Metal micromechanical filter-power amplifier utilizing a displacement-amplifying resonant switch
|
Li, W.-C.; Lin, Y.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:56Z |
High-temperature stable piezoelectric aluminum nitride energy harvesters utilizing elastically supported diaphragms
|
WEI-CHANG LI; Lai, Y.-J.; Li, W.-C.; Lin, C.-M.; Felmetsger, V.V.; Pisano, A.P. |
| 臺大學術典藏 |
2020-04-28T07:12:56Z |
A micromechanical resonant charge pump
|
Lin, Y.; Liu, R.; Li, W.-C.; Akgul, M.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:55Z |
Surface Condition Influence on the Nonlinear Response of MEMS CC-Beam Resoswitches
|
Tsai, C.-P.; Huang, Y.-C.; Du, W.-R.; Li, W.-C.; WEI-CHANG LI; Lu, S.-C. |
| 臺大學術典藏 |
2020-04-28T07:12:55Z |
Soft-impacting micromechanical resoswitch zero-quiescent power AM receiver
|
Liu, R.; Nilchi, J.N.; Li, W.-C.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:55Z |
Polycide contact interface to suppress squegging in micromechanical resoswitches
|
Lin, Y.; Liu, R.; Li, W.-C.; Nguyen, C.T.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:55Z |
A CMOS-MEMS CC-beam metal resoswitch for zero quiescent power receiver applications
|
Lu, S.-C.; Tsai, C.-P.; Li, W.-C.; WEI-CHANG LI |
| 臺大學術典藏 |
2020-04-28T07:12:55Z |
A CMOS-MEMS clamped-clamped beam displacement amplifier for resonant switch applications
|
Liu, J.-R.; Lu, S.-C.; Tsai, C.-P.; Li, W.-C.; WEI-CHANG LI |
