Publication List of 呂學士 Shey-Shi Lu

Journal articles & book chapters:

  1. K.-T. Lin, Y.-J. Chen, J.-Y. Hsieh, S.-H. Chang, Y.-J. Yang, J.-T. Huang, S.-S. Lu, “Gold Plated Carbon Nanotube Bundle Antenna for Millimeter-Wave Applications,” IEEE Electron Device Letters, vol.35, no.3,, pp.378-380, Mar. 2014
  2. Y. J. Huang, T. H. Tzeng, T. W. Lin, C. W. Huang, P. W. Yen, P. H. Kuo, C. T. Lin, and S. S. Lu, “A Self-powered CMOS Reconfigurable Multi-sensor SoC for Biomedical Applications,” IEEE J. Solid State Circuits, 2014
  3. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, S.-S. Lu, and C.-T. Lin, “A CMOS wireless biomolecular sensing system-on-chip based on polysilicon nanowire technology,” Lab on a Chip, vol.13, No. 22, pp.4451-4459, Dec. 2013
  4. Kuan-Ting Lin, Tao Wang, and Shey-Shi Lu, “A 0.8–6 GHz wideband receiver front-end for software-defined radio,” Active and Passive Electronic Components, vol. 2013, Dec. 2013
  5. J. C. Kuo, P. H. Kuo, Y. T. Lai, C. W. Ma, S. S. Lu, Y. J. Yang, “A Passive Inertial Switch Using MWCNT-Hydrogel Composite with Wireless Interrogation Capability,” IEEE Journal of Microelectromechanical Systems, vol.22, no.3, pp.646-654, Jun. 2013
  6. Huang, C.-W., Hsueh, H.-T., Huang, Y.-J., Liao, H.-H., Tsai, H.-H., Juang,, “A Fully Integrated Wireless CMOS Microcantilever Lab Chip for Detection of DNA from Hepatitis B Virus (HBV),” Sensors and Actuators B, vol.181, pp.867-873, May 2013
  7. K. T. Lin, H. K. Chen, and S. S. Lu, “100 GHz Transformer-coupled Quadrature Oscillator,” Electronics Letters, Vol.49, No.4, Feb. 2013
  8. Kuan-Ting Lin, Hsien-Ku Chen, Tao Wang and Shey-shi Lu, “TRANSMITTER FRONT-END WITH A NEW WIDEBAND ACTIVE BALUN IN 65-nm CMOS TECHNOLOGY,” Microwave and Optical Technology Letters, Vol.54, No.12,, pp.2868-2871, Dec. 2012
  9. 2. Huang, C.-W., Huang, Y.-J., Lu, S.-S., and Lin, C.-T, “A fully integrated humidity sensor system-on-chip fabricated by micro-stamping technology,” Sensors, 11592-11600, Dec. 2012
  10. Y.-S. Lin, J.-H. Lee, S.-L. Huang, C.-H. Wang, and S.-S. Lu, “Design and Analysis of a 21-29-GHz Ultra-Wideband Receiver Front-End in 0.18-um,” IEEE Trans. Microwave Theory and Techniques, Vol.60, No. 8, pp.2590-2604, Aug. 2012
  11. Fang-Ren Liao and Shey-Shi Lu, “A Waveform-Dependent Phase-Noise Analysis for Edge-Combining DLL Frequency Multipliers,” IEEE Trans. Microwave Theory and Techniques,, Vol. 60, No. 4, pp.1086-1096, Apr. 2012
  12. Y.-S. Lin, P.-L. Huang, T. Wang and S.-S. Lu, “A Novel Coplanar-Waveguide Band-Pass Filter Utilizing the Inductor–Capacitor Structure in 0.18 um CMOS Technology for Millimeter-Wave Applications,” Japanese Journal of Applied Physics, Vol. 51,, pp.034201-1~034201-4, Mar. 2012
  13. Pen-Li Huang, Po-Hung Kuo, Yu-Jie Huang, Hsin-Hung Liao, Yao-Joe Joseph Yang, Tao Wang, Yao-Hung Wang, and Shey-Shi Lu, “A Controlled-Release Drug Delivery System on a Chip Using Electrolysis,” IEEE Trans. Industrial Electronics, Vol. 59, No. 3, pp.1578-1587, Mar. 2012
  14. Y. J. Huang, H. H. Liao, P. L. Huang, T. Wang,Y. J. Yang, Y. H. Wang, and S.S. Lu, “An implantable release-on-demand CMOS drug delivery SoC using electrothermal activation technique,” ACM J. Emerg. Technol. Comput. Syst., Vol. 8, No. 2, Article 12, 2012
  15. Tao Wang and Shey-Shi Lu, “Micromachined monopole antenna by CMOS Compatible deep trench technology,” Microwave and Optical Technology Letters, vol. 53, no.12,, pp. 2971-2973,, Dec. 2011
  16. Y.-S. Lin, J.-F. Chang, and S.-S. Lu, “Analysis and Design of CMOS Distributed Amplifier Using Inductively Peaking Cascaded Gain Cell for UWB Systems,” IEEE Trans. Microwave Theory and Techniques, Vol. 59, No. 10, pp.2513-2524, Oct. 2011
  17. M.-H. Chang, Y.-J. Huang, H.-P. Huang, S.-S Lu, “Chip Implementation with a Combined Wireless Temperature Sensor and Reference Devices Based on the DZTC Principle,” Sensors, 11(11), pp.10308-10325, Oct. 2011
  18. Hong-Hui Chen, Cheng-Yi Chiang, Tung-Chien Chen, Chien-Sheng Liu, Yu-Jie Huang, Shey-Shi Lu, Chii-Wann Lin, and Liang-Gee Chen, “Analysis and Design of On-sensor ECG Processors for Realtime Detection of Cardiac Anomalies Including VF, VT, and PVC,” Journal of Signal Processing Systems, Vol. 65, Nr. 2, pp. 275-285., Aug. 2011
  19. S. S. Lu, H.-C. Chen, S.-Y. Yu, “More on Impulse Sensitivity Functions of CMOS Differential LC Oscillators,” IEICE Trans. Fundamentals, Vol.E94-A,No.8, pp.1671-1681, Aug. 2011
  20. H. K. Chen, T. Wang, S. S. Lu, “A Millimeter-Wave CMOS Triple-Band Phase Locked Loop with a Multimode LC-Based ILFD,” IEEE Trans. Microwave Theory and Techniques, Vol.59, No.5, pp.1327-1338, May 2011
  21. Yu-Tso Lin; Yo-Sheng Lin; Chun-Hao Chen; Hsiao-Chin Chen; Yu-Che Yang; Shey-Shi Lu;, “A 0.5 V Biomedical System-on-a-Chip for Intra-body Communication System,” IEEE Transactions on Industrial Electronics, Volume:58, Issue: 2, pp.690-699, Feb. 2011
  22. F. J. Liao and S. S. Lu, “A Programmable Edge-Combining DLL With a Current-Splitting Charge Pump for Spur Suppression,” IEEE Trans. on Circuits and Systems–II, Vol.57, No.12, pp.946-950, Dec. 2010
  23. H. W. Chiu, ……., S. S. Lu, “Pain Control On Demand Based on Pulsed Radio-Frequency Stimulation of the Dorsal Root Ganglion Using a Batteryless Implantable CMOS SoC,” IEEE Trans. Biomedical Circuits and Systems, Vol.4, No.6, pp.350-359, Dec. 2010
  24. Y. C. Yang and S. S. Lu, “A Single-VCO Fractional-N Frequency Synthesizer for Digital TV Tuners,” IEEE Transactions on Industrial Electronics, Vol.57 No.9, pp.3207-3215, Sept. 2010
  25. H.-K Chen, Y.-S. Lin, S.-S. Lu, “Analysis and Design of a 1.6–28-GHz Compact Wideband LNA in 90-nm CMOS Using a π-Match Input Network,” IEEE Trans. Microwave Theory and Techniques, Vol.58 No.8, pp.2092-2104, Aug. 2010
  26. Y. H. Wang, K.T. Lin, ….., S.-S. Lu, “A 2.1 to 6 GHz Tunable-band LNA With Adaptive Frequency Responses by Transistor Size Scaling,” IEEE Microwave and Wireless Components Letters, vol.20, no.6, pp.346-348, Jun. 2010
  27. Y. S. Lin, ……., S. S. Lu, “Analysis and Design of a CMOS UWB LNA with dual-RLC-Branch Wideband Input Matching Network,” IEEE Trans. Microwave Theory and Techniques, Vol.58, No.2, pp.287-296, Feb. 2010
  28. Y. C. Yang, and S.-S. Lu, “9.8mW CMOS Frequency Synthesizer for Mode-I UWB Transciever,” Electronics Letters, Vol.46, No.2, Jan. 2010
  29. J. Y. Hsieh, T. Wang, and S.-S. Lu, “Wide Band Amplifier by LC Load-Reusing Technique,” Electronics Letters (IET EL), Vol. 45, No.25, Dec. 2009
  30. H. C. Chen, ……., S. S. Lu, “A 5-GHz-Band CMOS Receiver with Low LO-Self-Mixing Front-end,” IEEE Trans. on Circuits and Systems –I, Vol. 56, No.4, pp.705-713, Apr. 2009
  31. C. C. Chen, Y. S. Lin, G. W. Huang, and S. S. Lu, “A 5.79 dB NF, 30-GHz-Band Monolithic LNA with 10 mW Power Consumption in Standard 0.18 μm CMOS Technology,” Microwave and Optical Technology Letters, vol. 51, no. 4, pp. 933-937, Apr. 2009
  32. C. H. Chen, ……., S. S. Lu, “A Wireless Bio-MEMS Sensor for C-Reactive Protein Detection based on Nano-Mechanics,” IEEE Transaction on BioMedical Engineering, Vol. 56, No.2, pp.462-470, Feb. 2009
  33. H. C. Chen, ……., S. S. Lu, “0.5-V 5.6-GHz CMOS Receiver Subsystem,” IEEE Trans. Microwave Theory and Techniques, vol.57, no.2, pp.329-335, Feb. 2009
  34. P. L. Huang, J. F. Chang, Y. S. Lin, and S.-S. Lu, “Micromachined V-band CMOS bandpass filter with 2 dB insertion loss,” Electronics Letters (IET EL), Vol.45, No.2, Jan. 2009
  35. C.-C. Chen, …, and S. S. Lu, “Low Noise Figure P+ AA Mesh Inductors for CMOS UWB RFIC Applications,” IEEE Trans. on Electron Devices, vol. 55, no.12, pp.3542-3548, Dec. 2008
  36. P.L. Huang, T. Wang, ……., Shey-Shi Lu, “Micromachined CMOS E-band bandpass coplanar filters,” Microwave and Optical Technology Letters, Vol. 50, Issue 12, pp.3123-3125, Dec. 2008
  37. P. L. Huang, T. Wang, Y. S. Lin, S. S. Lu, Y. M. Teng, and G. W. Huang, “Micromachined 50 GHz/60 GHz Phi Filters by CMOS Compatible ICP Deep Trench Technology,” Microwave and Optical Technology Letters, vol. 50, no. 12, pp. 3142-3146, Dec. 2008
  38. Hsien-Ku Chen, Da-Chiang Chang, Ying-Zong Juang, Shey-Shi Lu, “A 0.6 V, 4.32 mW, 68 GHz Low Phase-Noise VCO with Intrinsic-Tuned Technique in 0.13 μm CMOS,” IEEE Microwave and Wireless Components Letters, vol.18, no.7, pp.467-469, Jul. 2008
  39. F.-R. Liao and Shey-Shi Lu, “30 GHz Transformer-Coupled and Reused Injection-Loked VCO/Divider in 0.13 um CMOS Process,” Electronics Letters (IET EL), vol.44, No.10, May 2008
  40. Y. -C. Yang and S. S. Lu, “A Quantization Noise Pushing Technique for ΔΣ Fractional-N Frequency Synthesizers,” IEEE Trans. Microwave Theory and Techniques, vol. 56, no.4, pp.817-825, Apr. 2008
  41. Hsien-Ku Chen, Da-Chiang Chang, Ying-Zong Juang, Shey-Shi Lu, “A 30-GHz Wideband Low-Power CMOS Injection-Locked Frequency Divider for 60-GHz Wireless-LAN,” IEEE Microwave and Wireless Components Letters, vol. 43, no.23, Feb. 2008
  42. Chang JF, Lin YS, ……., Shey-Shi Lu, “An analysis of substrate effects on transmission-lines for millimeter-wave CMOS RFIC applications,” Microwave and Optical technology Letters, vol. 50, Issue 2, pp.319-324, Feb. 2008
  43. Chang JF, Lin YS, ……., Shey-Shi Lu, “A miniature micro-machined millimeter-wave bandpass filter by complementary metal-oxide-semiconductor compatible inductively-coupled-plasma deep-trench technology,” Japanese Journal of Applied Physics, Vol.47, Issue 1, pp.68-73, Jan. 2008
  44. T. Wang, Y.-S. Lin, and S.-S. Lu, “RFIC on polydimethylsilonexane for flexible electronics applications,” IEE Electronics Letters, vol. 43, no.23, Nov. 2007
  45. H. C. Chen, T. Wang, and S. S. Lu, “A 5-6 GHz 1-V CMOS Direct Conversion Receiver with an Integrated Quadrature Coupler,” IEEE Journal of Solid-State Circuits, vol.42, no.9, pp.1963-1975, Sept. 2007
  46. Y. T. Lin, H. C. Chen, T. Wang, Y. S. Lin, and S. S. Lu, “3–10-GHz Ultra-Wideband Low-Noise Amplifier Utilizing Miller Effect and Inductive Shunt–Shunt Feedback Technique,” IEEE Trans. Microwave Theory and Techniques, vol.55, no.9, pp.1832-1843, Sept. 2007
  47. Y.-S. Lin, C.-C. Chen, H. B. Liang, C.-Z. Chen, J.-F. Chang, T. Wang, and S. S. Lu, “Ultra Low Loss and Broadband Micromachined transmission Line Inductors for 30-60 GHz CMOS RFIC Applications,” IEEE Trans. on Electron Devices, vol. 54, no.9, pp.2512-2518, Sept. 2007
  48. Hsien-Ku Chen, Da-Chiang Chang, Ying-Zong Juang, Shey-Shi Lu, “A Compact Wideband CMOS Low Noise Amplifier Using Shunt Resistive-Feedback and Series Inductive-Peaking Techniques,” IEEE Microwave and Wireless Components Letters, vol.17, no.8, pp.616-618, Aug. 2007
  49. Y.-S. Lin, C.-C. Chen, H. B. Liang, C.-Z. Chen, J.-F. Chang, T. Wang, and S. S. Lu, “A High-Performance Micromachined RF Monolithic Transformer with Optimized Pattern Ground Shield for UWB RFIC Applications,” IEEE Trans. on Electron Devices, vol. 54, no.3, pp.609-613, Mar. 2007
  50. T. Wang, Y.-S. Lin, and S.-S. Lu, “Micromachined 22 GHz PI filter by CMOS compatible ICP deep trench technology,” IEE Electronics Letters, vol. 43, no.7, Mar. 2007
  51. W.-C. Hua, H.-L. Chang, T. Wang, C.-Y. Lin, C.-P.Lin, S. S. Lu, C. C. Meng, and C. W. Liu, “Performance Enhancement of the nMOSFET Low-Noise Amplifier by Package Strain,” IEEE Trans. on Electron Devices, vol. 54, no.1, pp.160-162, Jan. 2007
  52. Y. S. Lin, C. C. Chen, H. B. Liang, P. F. Yeh, T. Wang, and S. S. Lu, “High-Performance Single-Turn Interlaced-Stacked Transformers for Ka-Band CMOS RFIC Applications,” Microwave and Optical Technology letters, vol. 49, no. 4, pp. 936-942, 2007
  53. Y. S. Lin, C. C. Chen, H. B. Liang, T. Wang, and S. S. Lu, “Characterization and Modeling of Pattern Ground Shield (PGS) and Silicon-Substrate Effects on Radio-Frequency (RF) Monolithic Bifilar Transformers for Ultra-Wide Band (UWB) Radio-Frequency Integrated Circuit (RFIC) Applications,” Japanese Journal of Applied Physics, vol. 46, no. 1A, pp. 65-70, 2007
  54. Y. S. Lin, H. B. Liang, T. Wang, and S. S. Lu, “An Analysis of Perfect- Magnetic-Coupling Ultra-Low-Loss Micromachined SMIS RF Transformers for RFIC Applications,” IEEE Trans. on Microwave Theory and Techniques, Vol.54, No.12, pp.4256-4267, Dec. 2006
  55. Y. S. Lin, H. B. Liang, C. C. Chen, T. Wang, and S. S. Lu, “A High Quality Factor and Low Power Loss Micromachined RF Bifilar Transformer for UWB RFIC Applications,” IEEE Electron Devices Letters, vol.27, no.8, pp.684-687, Aug. 2006
  56. H. C. Chen, T. Wang, K. W. Huang, S. S. Lu, “A Monolithic 5.9 GHz CMOS I/Q Direct-Down Converter Utilizing a Quadrature Coupler and Transformer-coupled Subharmonic Mixers,” IEEE Microwave and Wireless Components Letters, vol. 16, no. 4, pp.197-199, Apr. 2006
  57. Wang, T., Chen, C.-H., Lin, Y.-S., Lu, S.-S., “A Micromachined CMOS Distributed Amplifier by CMOS Compatible ICP,” IEEE Electron Device Letters, Vol. 27, No. 4, pp.291-293, Apr. 2006
  58. Tao Wang, Yo-Sheng Lin, and Shey-Shi Lu, “An Ultra-Low-Loss and Broadband Micomachined RF Inductor for RFIC Input-Matching Application,” IEEE Trans. on Electron Devices, vol. 53, no.3, pp.568-570, Mar. 2006
  59. H. W. Chiu, S. S. Lu and Y. S. Lin, “Micromachined CMOS LNA and VCO By CMOS Compatible ICP Deep Trench Technology,” IEEE Tran. on Microwave Theory and Technique, vo1.54, no.6, pp.580-588, Feb. 2006
  60. C. L. Tai, S. S. Lu, and Y. S. Lin, “A 5.2 GHz Low-Power Low Noise Amplifier Using InGaP- GaAs HBT Technology,” Microwave and Optical Technology Letters, vol.45. no.5, pp.425-427, Jun. 2005
  61. H. W. Chiu, S. S. Lu and Y. S. Lin, “A 2.17 dB NF, 5 GHz Band Monolithic CMOS LNA with 10 mW DC Power Consumption,” IEEE Tran. on Microwave Theory and Technique, vol.53, no.3, pp.813-824, Mar. 2005
  62. Y.-S. Lin, T. Wang, and S.-S. Lu, “Temperature-Dependence of Noise Figure of Monolithic RF Transformers on a Thin (20 um) Silicon Substrate,” IEEE Electron Devices Letters, Vol.26, no.3, pp.208-211, Mar. 2005
  63. S. S. Lu, Y. S. Lin, H. W. Chiu, Y. C. Chen and C. C. Meng, “The Determination of S parameters from the Poles of Voltage Gain Transfer Function for RF IC Design,” IEEE Trans. Circuits and System, vol.52, no.1, pp.191-199, Jan. 2005
  64. Y.-S. Lin and S.-S. Lu, “An Analysis of Base Bias Current Effect on SiGe HBT,” IEEE Trans. on Electron Devices, vol.52, no.1, pp.132-136, Jan. 2005
  65. K.-Y. Yeh, S.-S. Lu and Y.-S. Lin, “Monolithic InGaP-GaAs HBT Receiver Front-end with 6 mW DC Power Consumption for 5 GHz Band WLAN Applications,” IEE Electronics Letters, vol. 40, no.24, Nov. 2004
  66. C. C. Meng, T. H. Wu, and S. S. Lu, “DC to 6-GHz High-Gain Low-noise GaInP/GaAs HBT direct-Coupled Amplifiers with and without Emitter-Capacitive Peaking,” Microwave & Optical Tech. Letters, Vol.43, no.1, pp.67-69, Aug. 2004
  67. H. B. Liang, T. Wang, Y. S. Lin, S. H. Wu, and S. S. Lu, “Temperature Dependence of Q and Noise in Monolithic Transformer Fabricated in a Silicon-Germanium/BiCMOS Technology,” WSEAS Trans. on Electronics, vol. 1, no. 1, pp. 149-156, 2004
  68. Y. S. Lin, and S. S. Lu, “An Analysis of the Anomalous Dip in Scattering Parameter S11 of InGaP/GaAs Heterojunction Bipolar Transistors (HBTs),” Japanese Journal of Applied Physics, vol. 43, no. 6B, pp. L803-L805, 2004
  69. Y. S. Lin, and S. S. Lu, “GaInP/InGaAs/GaAs Doped-Channel FETs and Their Applications on MMICs,” Microwave & Optical Tech. Letters, vol.39, no.1, pp.56-62, Oct. 2003
  70. Y. S. Lin, and S. S. Lu, “An Analysis of Small-Signal Substrate Resistance Effect in Deep-Submicrometer RF MOSFETs,” IEEE Tran. on Microwave Theory and Technique, vol.51, no.5, pp.1534-1539, May 2003
  71. C. C. Meng, S. S. Lu, M. H. Chiang and H. C. Chen, “DC-8 GHz 11 dB Gain Gilbert Micromixer Using GaInP/GaAs HBT Technology,” IEE Electronics Letters, vol. 39, no.8, pp. 637-638, Apr. 2003
  72. H.-Y. Tu, T.H. Chou, Y.-S. Lin, H.-C. Chiu, P.-Y Chen, and S.-S. Lu, “DC and RF Characteristics of E-mode Ga0.51In0.49P/In0.15Ga0.85As Pseudomorphic HEMT’s (pHEMT’s),” IEEE Electron Devices Letters, vol.24, no.3, pp.132-134, Mar. 2003
  73. Y. S. Lin, and S. S. Lu, “An Analysis of the Kink Phenomenon of Scattering Parameter S22 in RF Power MOSFETs for System-on-Chip (SOC) Applications,” Microwave and Optical Technology Letters, vol. 36, no. 5, pp. 371-376, Mar. 2003
  74. Y.-S. Lin and S.-S. Lu, “An Analysis of Small-Signal Gate-Drain Resistance Effect on RF Power MOSFETs,” IEEE Trans. on Electron Devices, vol. 50, no.2, pp.525-528, Feb. 2003
  75. Y. S. Lin, and S. S. Lu, “Theoretical Analysis of the Anomalous Dips of Scattering Parameter S22 in Deep Sub-Micrometer MOSFETs,” Microwave and Optical Technology Letters, vol. 36, no. 3, pp. 193-200, Feb. 2003
  76. Ming-Chou Chiang , Ping-Yu Chen , Shey-Shi Lu, Chin-Chun Meng, “DC-2.1 GHz CMOS Multiple Feedback Transimpedance Amplifiers with High Dynamic Range and Linearity,” Microwave & Optical Tech. Letters, Vol.36, no.1, pp.60-61, Jan. 2003
  77. H.-Y. Tu,Y.-S. Lin, P.-Yu Chen and S.-S. Lu, and H.-Y. Pan, “An Analysis of the Anomalous Dip in Scattering Parameter S22 of InGaP-GaAs Heterojunction Bipolar Transistors(HBTs),” IEEE Trans. on Electron Devices, vol. 49,No.10, pp.1831-1833, Oct. 2002
  78. P.-Y. Chen, S.-S. Lu and H. Wang, “A Simple Method for the Determination of Noise Coefficients P, R, and C by Two Port Noise Parameters,” Microwave & Optical Tech. Letters, vol. 35,Issue 2, pp. 129-132, Oct. 2002
  79. S. A. Yu, C. C. Meng and S. S. Lu, “A 5.7 GHz Interpolative VCO Using InGaP/GaAs HBT Technology,” IEEE Microwave and Wireless Components Letters, vol. 12, No.2, Feb. 2002
  80. M. C. Chiang, S. S. Lu et al, “Analysis, Design, and Optimization of InGaP/GaAs HBT Matched-Impedance Wide-band Amplifiers with Multiple Feedback Loops,” IEEE J. Solid State Circuits, vol. 37,No.6, pp.694-701, Jan. 2002
  81. H. Y. Pan, H. Y. Tu, S. S. Lu and C. C. Meng, “A novel interpretation of Transducer Power Gain by Optical Analogy,” Microwave & Optical Tech. Letters, vol. 31 no. 2, pp. 124-126, Oct. 2001
  82. H. W. Chiu, N. S. Ho and S. S. Lu, “A process for the formation of Submicron V-Gate by Micromachined V-Grooves Using GaInP/GaAs Selective Etching Technique,” IEEE Electron Devices Letters, Vol. 22, No.9, pp. 420-422, Sept. 2001
  83. C. C. Meng, G. R. Liao and S. S. Lu, “Formation of Submicron T- Gate by Rapid thermally reflowed resist with metal transfer layers,” IEE Electronics Letters, Vol.37, No.16, pp.1045-1046, Aug. 2001
  84. S. S. Lu, , C. C. Meng, T. W. Chen, and H.C. Chen, “The origin of the kink phenomenon of transistor scattering parameter S22,” IEEE Tran. on Microwave Theory and Technique, Vol.49, No.2, pp. 333-340, Feb. 2001
  85. S. S. Lu, , C. C. Meng, T. W. Chen, and H.C. Chen, “A novel interpretation of transistor S parameters by poles and zeros for RFIC Circuit Design,” IEEE Tran. on Microwave Theory and Technique, Vol.49, No.2, pp. 406~409, Feb. 2001
  86. H. C. Chen, C. C. Meng and S. S. Lu, “2.4 GHz CMOS double balanced Gilbert Cell Micromixer,” Microwave & Optical Tech.Letters, vol. 28 no.4, pp.251~253, Feb. 2001
  87. Y. S. Lin, S. S. Lu, and P. Z. Chang, “GaInP/InGaAs/GaAs Lattice-Matched and Strained Doped-Channel Field-Effect-Transistors Grown by Gas-Source Molecular- Beam-Epitaxy,” J. of Applied Phys, Vol.85, No.2, Feb. 1999
  88. Y. J. Wang and S. S. Lu, “Two-Dimensional Simulation for the GaAs V-Groove Gate MESFETs,” Solid State Electronics, Vol.43, pp.229-244, Feb. 1999
  89. Y. S. Lin, S. S. Lu, H. Lan and P. Z. Chang, “S-Band MMIC Amplifier Using GaInP/GaAs MISFET’s,” Microwave & Optical Tech.Letters, Vol.20, No.3, pp.187-188, Feb. 1999
  90. S. S. Lu, , C. C. Meng, Y. S. Lin, and H. Lan, “The effect of Gate Recess Profile on Device performance of GaInP/InGaAs Doped-Channel FETs,” IEEE Tran. on Electron Devices, Vol.46, No.1, pp. 48-54, Jan. 1999
  91. S. S. Lu, , Y. W. Hsu, C. C. Meng, and L. B. Chen, “Single-Voltage-supply Operation of GaInP/InGaAs Insulated-Gate FET’s for Power Application,” IEEE Electron Devices Letter, Vol. 20, No.1, pp. 21-23, Jan. 1999
  92. Y. W. Hsu, S. S. Lu, and P. Z. Chang, “Piezo-resistive Response Induced by Piezo-electric charge in n-type GaAs Mesa Resistor for Application in Stress Transducer,” J. of Applied Phys, Vol.85, No.1, pp.333-340, Jan. 1999
  93. C. L. Dai, P. Z. Chang and S. S. Lu, “Design and Processing of Integrated Micro-accelerometers using Standard CMOS Process,” J. Chinese Institute of Electrical Engineers, Vol. 20, No.1, pp.47-55, Nov. 1997
  94. Y. S. Lin, S. S. Lu, and Y. J. Wang, “High-Performance GaInP/GaAs Airbridge Gate MISFET's Grown by Gas-Source MBE,” IEEE Tran. on Electron Devices, Vol. 44. No.6, Jun. 1997
  95. Y.S. Lin, T. P. Sun and S. S. Lu, “GaInP/InGaAs Pseudomorphic Doped Channel Field Effect Transistors with High Current Drivability and High Breakdown Voltage,” IEEE Electron Device Letters, Vol.18,No.4, Apr. 1997
  96. Y. J. Wang and S. S. Lu, “Ultra-High Speed 1 mu m V-Gate GaAs MESFET with Cutoff Frequency up to 47 GHz by 2D Simulation,” Electronics Letters, Vol.33, No.6, pp. 538-539, Mar. 1997
  97. Y. S. Lin, S. S. Lu, “High-Breakdown-Voltage Ga0.51In0.49P Channel MESFET’s Grown by GSMBE,” IEEE Electron Device Letters, Vol.17, No.9, pp. 452-454, Sept. 1996
  98. Y.S. Lin, S. S. Lu and T. P. Sun, “High-Linearity High Current Drivability GaInP/GaAs MISFET using GaInP Airbridge Gate Structure,” IEEE Electron Device Letters, Vol.16, No.11, pp.518-520, Nov. 1995
  99. Y. W. Hsu, S. S. Lu, L. J. Yang, and P. Z. Chang, “A Wide-g Range Silicon Accelerometer,” J. Chinese Institute of Electrical Engineers, Vol. 18, No.6, pp.873-878, Nov. 1995
  100. S. S. Lu and C. L. Huang, “High-breakdown-voltage GaInP/GaAs I-HEMT and I2HEMT with a GaInP Passivation Layer Grown by Gas Source Molecular Beam Epitaxy,” Solid Stale Electronics, Vol.38,No. 1, pp. 25-29, Jan. 1995
  101. S. S. Lu and C. L. Huang, “Piezoelectric Field Effect Transistor (PEFET) using InGaAs/AlGaAs/InGaAs/GaAs strained layer structure on (111)B GaAs substrate,” IEE Electronics Letters, Vol.30, No.10, pp.823-825, May 1994
  102. S. S. Lu and Y. J. Wang, “A GSMBE Grown GaInP/GaAs Narrow Base DHBT Exhibiting Variable N-type Negative Differential Resistance with Variable Peak-to-Valley Current Ratio up to i07 at Room Temperature,” IEEE Electron Device Letters, Vol.15, No.2, pp.60-62, Feb. 1994
  103. C. C. Wu, S. S. Lu, “High Performance GaInP/GaAs Tunneling Emitter Bipolar Transistor,” Jpn J. Appl. Phys., Vol.32. No.1, Part1, pp.560-563, Jan. 1993
  104. S. S. Lu, and C. C. Wu, “High-Current-Gain Small-Offset-Voltage GaInP/GaAs Tunneling Emitter Bipolar Transistors,” IEEE Electron Device Letters, Vol.13, No.9, pp.468-470, Sept. 1992
  105. C. C. Wu, and S. S. Lu, “Small-Offset-Voltage GaInP/GaAs Double Barrier Bipolar Transistors,” IEEE Electron Device Letters, Vol.13, No.8, pp.418-420, Aug. 1992
  106. S. S. Lu and C. C. Huang, “High-Current-Gain GaInP/GaAs Heterojunction Bipolar Transistors,” IEEE Electron Device Letters, Vol.13 , No.4, pp.214-216, Apr. 1992
  107. S. S. Lu, C. C. Wu, and C. C. Huang, “DC Characterization of the GaInP/GaAs Tunneling Emitter Bipolar Transistor,” Applied Physics Letters, Vol.60, No.17, pp.2138-2140, Apr. 1992
  108. S. S. Lu and C. C. Huang, “GSMBE Grown (GaIn)P/GaAs Heterojunction Bipolar Transistors Exhibiting Current Gain up to 590,” IEE Electronics Letters, Vol.28, No.4, pp.398-400, Feb. 1992
  109. S. S. Lu, C. C. Meng, F. Williamson, and M. I. Nathan, “Uniaxial Stress Effects on the AlAs/GaAs Double Barrier Heterostructures,” Journal of Applied Physics, Vol.69, No.12, pp.8241-8246, Jun. 1991
  110. S. S. Lu, K. R. Lee, M. I. Nathan, and S. L. Wright, “Resonant Indirect Fowler-Nordheim Tunneling,” Applied Physics Letters, Vol.58, No.3, pp.266-268, Jan. 1991
  111. S. S. Lu, M. I. Nathan, and C. C. Meng, “Uniaxial Stress Dependence of the Current-Voltage Characteristics of n-Type AlAs/GaAs/AlAs Resonant Tunneling Diodes at 77K,” Journal of Applied Physics, Vol.69, No.1, pp.525-527, Jan. 1991
  112. S. S. Lu, K. R. Lee, K. H. Lee, M. I. Nathan, M. Heiblum, and S. L. Wright, “Theoretical and Experimental Study of the Longitudinal Uniaxial Stress Dependence of the I-V Characteristics in GaAs-AlGaAs-GaAs Heterojunction Barriers,” Journal of Applied Physics, Vol.67, No.10, pp.6360-6367, May 1990
  113. S. S. Lu, K. R. Lee, K. H. Lee, M. I. Nathan, M. Heiblum,and S. L. Wright, “Excess current in GaAs-AlGaAs-GaAs Heterojunctions,” Surface Science, Vol.228,No. 1-3, pp.430-432, Apr. 1990
  114. S. S. Lu, K. R. Lee, K. H. Lee, M. I. Nathan, M. Heiblum,and S. L. Wright, “Dependence of current-voltage Characteristics in GaAs-AlGaAs-GaAs Heterojunction Barriers on Transverse Uniaxial Stress,” Gallium Arsenide and Related Compounds (Institute of Physics, Bristol), Inst. Phys. Conf. Ser., No.106, pp.795-799, Apr. 1990
  115. S. S. Lu, K. R. Lee, M. I. Nathan, M. Heiblum, and S. L. Wright, “Uniaxial Stress Dependence of Current-Voltage Characteristics in GaAs-AlGaAs-GaAs Heterojunction Barriers,” Applied Physics Letters, Vol.55, No.13, pp.1336-1338, Sept. 1989
  116. K. Yamasaki, T. Daniels-Race, S. S. Lu, W. J. Schaff, P. J. Tasker, and L.F. Eastman, “Determination of Electron Energy Distribution in a GaAs Vertical Field-Effect Transistor with Hot-Electron Injection,” Applied Physics Letters, Vol.54, No.3, pp.274-276, Jan. 1989

Conference & proceeding papers:

  1. P.-H. Kuo, J.-Y. Hsieh, Y.-C. Huang, Y.-J. Huang, R.-D. Tsai, T. Wang, H.-W. Chiu, S.-S. Lu, “A Remotely Controlled Locomotive IC Driven by Electrolytic Bubbles and Wireless Powering,” IEEE, International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2014
  2. K.-T. Lin, J.-Y. Hsieh, Y.-J. Chen, S.-H. Chang, Y.-J. Yang, and S.-S. Lu, “Gold plating carbon nanotube antenna integrated with voltage control oscillator,” Progress in Electromagnetics Research Symposium, pp. 1726-1729, Stockholm, Aug. 2013
  3. Y.-J. Huang, T.-W. Lin, T.-H. Tzeng C.-W. Huang, P.-W. Yen, C.-T. Lin, ,S.-S. Lu, “A Self-powered CMOS Reconfigurable Multi-sensor SoC for Biomedical Applications,” IEEE Symposium on VLSI Circuits, Kyoto, Japan, Jun. 2013
  4. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-T. Hsueh, C.-Y. Lin, M.-C. Chen, C.-H. Ho, F.-L. Yang, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, S.-S. Lu, and C.-T. Lin , “The Implementation of Polysilicon Nanowire based Biomolecular Sensor System-on-Chip,” 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Okinawa, Japan, Oct. 2012
  5. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-T. Hsueh, C.-Y. Lin, M.-C. Chen,, “The Implementation of Polysilicon Nanowire based,” 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS), Okinawa, Japan, Oct. 2012
  6. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-T. Hsueh., C.-Y. Lin, M.-C. Chen, C.-H. Ho, F.-L. Yang, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, C.-T. Lin, and S.-S. Lu, “A Fully Integrated Hepatitis B Virus DNA Detection SoC based on Monolithic Polysilicon Nanowire CMOS Process,” 2012 Symposia on VLSI Technology and Cricuits, Hawaii, USA, Jun. 2012
  7. C.-W. Huang, H.-T. Hsueh,Y.-J. Huang, J.-K. Lee, M.-C. Chen, S.-S. Lu, and C.-T. Lin,, “Low-cost and Ultra-sensitive Poly-Si Nanowire Bio-sensor for Hepatitis B Virus (HBV) DNA Detection,” 2012 IEEE International Symposium on Circuits and Systems, Seoul, Korea, May 2012
  8. P.-H. Kuo, J.-C. Kuo, Y.-J. Yang, T. Wang and S.-S. Lu, “A Hydrogel-Based Implantable Wireless CMOS Glucose Sensor SoC,” 2012 IEEE International Symposium on Circuits and Systems (ISCAS 2012), Seoul, Korea, May 2012
  9. C.-W. Huang, Y.-J. Huang, T.-H. Lin, C.-T. Lin, J.-K. Lee, L.-G. Chen, P.-Y. Hsiao, B.-R. Wu, H.-T. Hsueh, B.-J. Kuo, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, and S.-S. Lu., “An Integrated Microcantilever-based Wireless DNA Chip for Hepatitis B Virus (HBV) DNA Detection,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Science, Seattle, WA, USA, Oct. 2011
  10. C.-W. Huang, Y.-J. Huang, T.-H. Lin, C.-T. Lin, J.-K. Lee, L.-G. Chen, P.-Y. Hsiao, B.-R. Wu, H.-T. Hsueh, B.-J. Kuo, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, and S.-S. Lu, “An Integrated Micro-cantilever-based Wireless DNA Chip for Hepatitis B Virus (HBV) DNA Detection,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Science, Seattle, Oct. 2011
  11. H. K. Chen, K.-T. Lin, T. Wang, and S.-S. Lu, “A compact-size dual-band (Tri-mode) receiver front-end with switched harmonic mixer and technology scaling,” IEEE Radio Frequency Integrated Circuits Symposium, pp. 1-4, Baltimore, USA, Jun. 2011
  12. W.-H. Hung, K.-T. Lin, J.-Y Hsieh, and S.-S. Lu, “A 2-6GHz Broadband CMOS Low-Noise Amplifier with Current Reuse Topology Utilizing a Noise-Shaping Technique,” IEEE International Symposium on Circuits and Systems (ISCAS), pp.1291 - 1294, Brazil, May 2011
  13. S.-S. Lu, “ Miniaturized Wireless CMOS Drug Delivery SoC,” IEEE International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2011
  14. Y.-J. Huang, C.-W. Huang, T.-H. Lin, C.-T. Lin, L.-G. Chen, P.-Y. Hsiao, B.-R. Wu, H.-T. Hsueh, B.-J. Kuo1, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, and S.-S Lu, “A Fully-integrated Cantilever-based DNA Detection SoC in a CMOS Bio-MEMS Process,” IEEE Symposium on VLSI Circuits, pp.50 - 51, Kyoto, Japan, Feb. 2011
  15. P.-H. Kuo, K.-T. Lin, T. Wang, S.-S. Lu, Y.-J. Yang, and S.-H. Chang, “Carbon Materials for EM Wave Absorption in V Band Applications,” IEEE Asia-Pacific Microwave Conference, pp.1332-1335, Yokohama, Japan, Dec. 2010
  16. K.-T. Lin, H.-K. Chen, T. Wang, and S.-S. Lu, “A 0.4 – 6 GHz Variable-gain Driver Amplifier for Software-Defined Radio,” IEEE Asia-Pacific Microwave Conference, pp.531-534, Yokohama, Japan, Dec. 2010
  17. H.-K. Chen, T. Wang, K.-T. Lin, H.-C. Chen, and S.-S. Lu, “A 50-mW, 386 GHz/mm2 Wideband Amplifier in 0.13-μm CMOS Technology,” IEEE Asia-Pacific Microwave Conference, pp.774-777, Yokohama, Japan, Dec. 2010
  18. H.-C. Chen and S.-S. Lu, “6.8-10 GHz Frequency Synthesizer for Software-Defined-Radio,” IEEE Asia-Pacific Microwave Conference, pp.2279-2282, Yokohama, Japan, Dec. 2010
  19. W.-S. Hung, K.-T. Lin, and S.-S. Lu, “A 1.2V Low-power Receiver for Short Range Applications,” Progress in Electromagnetics Research Symposium, Xi'an, China, Mar. 2010
  20. C.-W. Lin, …, Shey-Shi Lu, “Pain Control On Demand Based on Pulsed Radio-Frequency Stimulation of the Dorsal Root Ganglion Using a Batteryless Implantable CMOS SoC,” IEEE, International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2010
  21. Jin-Fa Chang; Yo-Sheng Lin; Pen-Li Huang; Shey-Shi Lu, “A micromachined V-band CMOS bandpass filter with 2-dB insertion-loss,” Electronic Components and Technology Conference, p.1590- p.1593, May 2009
  22. K.-T. Lin, …, S.-S. Lu, S.-H. Chang, and Y.-J. Yang, “Electromagnetic Wave Absorption in K Band and V Band with Carbon Microcoils,” Progress in Electromagnetics Research Symposium, Beijing, China, Mar. 2009
  23. H. K. Chen, …, Shey-shi Lu, “A mm-Wave CMOS Multimode Frequency Divider,” IEEE, ISSCC, San Francisco, Feb. 2009
  24. Y. J. Yang, Y. J. Huang, …, Shey-shi Lu, “A Release-on-Demand Wireless CMOS Drug Delivery SoC Based on Electrothermal Activation Technique,” IEEE, ISSCC, San Francisco, Feb. 2009
  25. Yu-Pin Hsu, ……, and Shey-Shi Lu, “Low-Noise Wide-Dynamic Range CMOS Analog Front-end IC for Portable Biomedical Applications,” IEEE Asia-Pacific Microwave Conference (APMC), Hong-kong, China, Dec. 2008
  26. Chang JF, Lin YS, ……., Shey-Shi Lu, “A miniature micro-machined millimeter-wave bandpass filter by CMOS compatible ICP deep-trench technology,” Radio and Wireless Symposium 2008 IEEE, pp.399 - 402, Jan. 2008
  27. Yu-Pin Hsu, Yu-Tso Lin, Chun-Hao Chen, and Shey-Shi Lu, “A Feed-Forward Automatic-Gain Control Amplifier for Biomedical Applications,” IEEE Asia-Pacific Microwave Conference (APMC), Bangkok, Thailand, Dec. 2007
  28. Hsien-Ku Chen, Da-Chiang Chang, Ying-Zong Juang, Shey-Shi Lu, “A Low Phase-Noise 9-GHz CMOS Quadrature-VCO using Novel Source-Follower Coupling Technique,” IEEE International Microwave Symposium, Honolulu, Hawaii, Jun. 2007
  29. Y. -C. Yang, F. -T. Lee and S. -S. Lu, “A Single-VCO Fractional-N Frequency Synthesizer for Digital TV Tuners,” IEEE International Microwave Symposium, Honolulu, Hawaii, Jun. 2007
  30. Y. -C. Yang and S. -S. Lu, “A CMOS ΔΣ Fractional-N Frequency Synthesizer with Quantization Noise Pushing Technique,” IEEE Symposium on VLSI Circuits, Kyoto, Japan, Jun. 2007
  31. Hsiao-Chin Chen; Tao Wang; Yu-Che Yang; Yu-Hsuan Liu; Shey-Shi Lu, “CMOS RF circuits for 5-GHz Broadband Wireless Access,” Mobile WiMAX Symposium, Florida, USA, Mar. 2007
  32. H.-C. Chen, T. Wang, S.-S. Lu and G.-W. Huang, “A Low-phase-noise Area-efficient 3-D LC VCO in Standard 0.18-um CMOS Technology,” IEEE Proceedings of 13th Mediterranean Electrotechnical Conference, pp.202-205, May 2006
  33. C. Y. Liu, J. H. Hsu, H. C. Chen, S. S. Lu, S. H. Chang, “Electromechanical Oscillator Based on Carbon Nanotube Field-Effect Transistors,” ChemOnTubes, Arcachon, France, Apr. 2006
  34. C. H. Chen, …, Shey-shi Lu, “A wireless Bio-MEMS Sensor for C-Reactive Protein Detection Based on Nanomechanics,” IEEE, ISSCC, San Francisco, Feb. 2006
  35. H. T. Chou, R. Z. Hwang, C. M. Hung, C. W. Tseng, L. S. Huang and S.-S. Lu, “A Micromachined Cantilever PSA Sensor with Digital Wireless Interface,” Asia-Pacific Microwave Conference, pp.1622-25, Dec. 12-15, Yokohama, Japan, 2006
  36. C. C. Chen, Y. S. Lin, H. B. Liang, T. Wang and S.-S. Lu, “An Ultra-Loss Micromachined RF Transformer with Partial Patterned Ground Shield for UWB RFIC Applications,” Asia-Pacific Microwave Conference, Dec. 12-15, Yokohama, Japan, 2006
  37. Y. H. Liu, H. C. Chen, T. Wang and S. S. Lu, “A CMOS transmitter front-end with digital power control for WiMAX 802.16e applications,” 17th Asia-Pacific Microwave Conference, Suzhou, China, Dec. 2005
  38. K. Y. Liu, C. H. Chen, Y. C. Yang, H. C. Chen, S. A. Yu and S. S. Lu, “A Low Power Fully Integrated Analog Baseband Circuit with Variable Bandwidth for 802.11 a/b/g WLAN,” 17th Asia-Pacific Microwave Conference, Suzhou, China, Dec. 2005
  39. Y.T. Lin, T. Wang, S. S. Lu, and G. W. Huang, “A 0.5 V 3.1 mW Fully Monolithic OOK Receiver for Wireless Local Area Sensor Network,” IEEE International Asian Solid-State Circuit, Hsin-Chu, Nov. 2005
  40. Y. S. Lin, H. B. Liang, C. C. Chen, J. L. Chen, and S. S. Lu, “Small-Signal Intrinsic Base Resistance Effect on InP-InGaAs, InGaP-GaAs, and SiGe HBTs,” Proceedings of 2005 IEEE Device Research Conference (2005 IEEE DRC), 2005
  41. H. B. Liang, Y. S. Lin, J. N. Yeh, G. W. Huang, and S. S. Lu, “Wide-Band Modeling of Temperature Effect on Differentially Symmetrical 4-port Transformer on Silicon,” Proceedings of 2005 Symposium on Nano-Device Technology (2005 SNDT), Hsin-Chu, Taiwan, 2005
  42. Tao Wang, Hsiao-Chin Chen, Hung-Wei Chiu, Shih-An Yu, S. S. Lu, Chia-Sung Chiu, Ming-Hsiang Cho, An-Sam Peng, and Guo-Wei Huang, “High-Q Inductors in a CMOS Process for RFICs,” Proceedings of 2005 Symposium on Nano-Device Technology (2005 SNDT), Hsin-Chu, Taiwan, 2005
  43. Y. S. Lin, H. B. Liang, and S. S. Lu, “An analysis of the bias dependence of scattering parameters S11 and S22 of SiGe HBTs,” Proceedings of 2004 IEEE Radio-Frequency Integrated-Circuits, pp. 611-614, Denver, Jun. 2004
  44. Y. S. Lin, T. Wang, and S. S. Lu, “Temperature-Dependence of Noise Figure of Monolithic RF Transformers on a Thin (20 m) Silicon Substrate,” IEEE 2004 Radio and Wireless Conference, pp. 103-106, Atlanta, 2004
  45. Y. S. Lin, T. H. Lee, H. B. Liang, and S. S. Lu, “Characterization and Modeling of 100 nm RF Generic CMOS and 500 nm RF Power CMOS,” To be published in Proceedings of IEEE VLSI Technology, System and Applications, Hsin-Chu, Taiwan, R.O.C, Oct. 2003
  46. Y. S. Lin, K. N. Liao, and S. S. Lu, “Characterization and Modeling of the Anomalous Dip in Scattering Parameter S11 of InGaP/GaAs HBTs,” Proceedings of IEEE 2003 International Symposium on Compound Semiconductors, pp. 209-210, San Diego, Sept. 2003
  47. Y. S. Lin, H. Y. Tu, D. S. Chou, and S. S. Lu, “DC, and RF Scattering Parameters, Noise and Power Characteristics of Enhancement-Mode In0.51Ga0.49P/In0.15Ga0.85As/GaAs Power pHEMT’s,” Proceedings of IEEE 2003 International Symposium on Compound Semiconductors, pp. 223-224, San Diego, USA, Aug. 2003
  48. Y. S. Lin, H. Y. Tu, H. W. Chiu, and S. S. Lu, “Characterization and Modeling of Size Effect on the Performances of 0.10 m RF MOSFETs for SOC Applications,” Proceedings of 2003 IEEE Radio-Frequency Integrated-Circuits, pp. 543-546, Philadelphia, Jun. 2003
  49. T. H. Lee, Y. S. Lin, H. Y. Tu, D. S. Chou, and S. S. Lu, “Temperature-Dependence of DC and RF Characteristics of E-mode Ga0.51In0.49P/In0.15Ga0.85As pHEMTs,” 2003 Electron Devices and Materials Symposium, Keelung, pp.261-264, Taiwan, R.O.C, 2003
  50. Yo-Sheng Lin and Shey-Shi Lu, “An Analysis of Small-Signal Gate-Drain Resistance Effect on RF Power MOSFETs,” 2002 International Electronic Device and Materials Symposium, Taipei, Taiwan, ROC, Dec. 2002
  51. Chin-Chun Meng, Tzung-Han Wu and Shey-shi Lu, “28dB Gain DC-6GHz GaInP/GaAs HBT Wideband Amplifiers with and without Emitter Capacitive Peaking,” GaAs 2002 Conference, Milanno, Sept. 2002
  52. Y. S. Lin, H. Y. Tu, and S. S. Lu, “A Comprehensive Analysis of the Kink Phenomenon in Scattering Parameter S22 and S21 of GaInP/GaAs HBTs,” Solid-State Device Meeting (SSDM), Nagoya, Japan, Sept. 2002
  53. Cheng-Yu Wang, Shey-shi Lu and C. C. Meng, “Wideband Impedance Matched GaInP/GaAs HBT Gilbert Micromixer with 12 dB Gain,” IEEE ASIA-PACIFIC conference proceedings, pp.323-326, Taipei,Taiwan, Aug. 2002
  54. H. W Chiu and S. S. Lu, “A 2.17 dB NF, 5 GHz Band Monolithic CMOS LNA with 10 mW DC Power Consumption,” Symposium on VLSI Circuits, Honolulu, Honolulu, USA, Jun. 2002
  55. Y. S. Lin, S. S. Lu et al, “Characterization and Modeling of Small-Signal Substrate Resistance Effect in RF CMOS,” RFIC Symposium, Seattle, USA, Jun. 2002
  56. Y. S. Lin, H. B. Liang, and S. S. Lu, “An Analysis of the Kink Effect of Scattering Parameter S22 in RF Power MOSFETs for System-On-Chip (SOC) Applications,” 2002 Taiwan-Japan Symposium on SQUID & Communication Electronics, Yuanlin,Taiwan, R.O.C., 2002
  57. Shey-Shi Lu, Hsuan-Yu Pan, Hsing-Yuan Tu, “Develop and Future of InGap/GaAs HFET - A nova of high speed GaAs transistor,” Electrical monthly magazine, pp.156-164, Taiwan, Jul. 2001
  58. Hsuan-Yu Pan, Hsing-Yuan Tu, Shey-Shi Lu, Chin-Chun Meng, Guo-We Huang, C.K. Peng, “Unified InGap/AlGaAs/InGaAs HFET Models,” Sysposium on Nano Device Technology 2001, pp.264-266, Taiwan, Apr. 2001
  59. Hsuan-Yu Pan, Hsing-Yuan Tu, Shey-Shi Lu, Chin-Chun Meng, Guo-We Huang, C.K. Peng, “Extracting Small-Signal Model Parameters of InGaP/InGaAs HEMT,” Sysposium on Nano Device Technology 2001, pp.260-263, Taiwan, Apr. 2001
  60. Hsing-Yuan Tu, Hsuan-Yu Pan , Shey-Shi Lu, Chin-Chun Meng, Guo-We Huang, C.K. Peng, “Single-Voltage-Supply Operation of InGaP/AlGaAs/InGaAs HEMT’s for Power Application,” Sysposium on Nano Device Technology 2001, pp.90-93, Taiwan, Apr. 2001
  61. Hsing-Yuan Tu, Hsuan-Yu Pan , Shey-Shi Lu, Chin-Chun Meng, Guo-We Huang, C.K. Peng, “The Fabrication of Submicron T gate by Photoresist Flowing Technique,” Sysposium on Nano Device Technology 2001, pp189-192, Taiwan, Apr. 2001
  62. K. L. Deng, C. C. Meng, S. S. Lu, H. D. Lee and H. Wang, “A Fully Monolithically Integrated Twin Dipole Antenna Mixer on a GaAs Substrate,” Asia-Pacific Microwave Conference, Sydney, Dec. 2000
  63. H. C. Chen, C. C. Meng, S. S. Lu, M. H. Chiang, “CMOS mixer with Gilbert cell variant topology,” National symposium on telecommunications, pp. 2.12-2.16, Dec. 2000
  64. N. S. Ho and S. S. Lu, “Micromachined-V gate Technology,” International Symposium on Voice, Video and Data Communications, Boston, USA, Sept. 1999
  65. S. S. Lu and Y. S. Lin, “Single-Voltage-supply Operation of GaInP/InGaAs Doped Channel FET's for Wireless Communication,” 1998 IEEE 25th International Symposium on Compound Semiconductors, Nara, Japan, Oct. 1998
  66. R.W. Wang, Y. W. Hsu, H. D. Lee, S. S. Lu, “A Micromachined 2D Vertical Hall Sensor with Active Carrier Confinement by CMOS Technology,” 1997 Electronic Device and Materials Symposium, Chung-Li, Taiwan, ROC, Oct. 1997
  67. S. S. Lu and Y. S. Lin, “High-Breakdown-Voltage High Speed GaInP/InGaAs DCFET using Triple Recessed Gate Structure,” 1997 IEEE 24th International Symposium on Compound Semiconductors, Sandiego, California, USA, Sept. 1997
  68. S. S. Lu and Y. S. Lin, “Fabrication and Simulation of GaInP/InGaAs Doped Channel FET's and MMIC Amplifiers,” 1997 IEEE Device Research Conference, Fort Collins, Colorado, USA, Jun. 1997
  69. C. L. Dai, P. Z. Chang, S. S. Lu, “A pure CMOS surface micromachined pressure sensor,” International Conference on Precision Engineering, pp. 987-991, Taiwan, 1997
  70. C. L. Dai, P. Z. Chang, S. S. Lu, “Microstructure for measuring residual strains of CMOS thin films,” International Conference on Precision Engineering, pp. 981-986, Taiwan, 1997
  71. Y. S. Lin, and S. S.Lu, “High-Power High-Speed Ga0.51In0.49P/InxGa1-xAs Doped Channel FET's,” 9TH IEEE International Conference on Indium-Phosphide and Related Materials, Hyannis, Massachusetts, U.S.A., 1997
  72. Y. S. Lin, and S. S. Lu, “Simulation and Fabrication of GaInP/GaAs MISFET using GaInP Airbridge Gate Structure,” 1996 IEEE Gallium Arsenide Integrated Circuits Symposium, Orlando, Florida, USA, Nov. 1996
  73. Y.S. Lin, and S. S. Lu, “High Speed GaInP/GaAs MISFET,” 21st International Conference on Far Infrared and millimeter waver, Berlin ,Germany, Jul. 1996
  74. C. L. Dai, P. Z. Chang, S. S. Lu, D. J. Wei and S. I. Liu, “An integrated capacitive accelerometer using standard CMOS process,” International Electron Devices and Material Symposia, Symposium C、E & F, pp. 315-318, Taiwan, 1996
  75. Y.S. Lin, and S. S. Lu, “GaInP/GaAs Differential Amplifiers,” 20th International Conference on Far Infrared and millimeter waver, Orlando, Florida, USA, Nov. 1995
  76. Y.S. Lin, S. S. Lu and T.P. Sun, “High-Linearity High Current Drivability GaInP/GaAs MISFET using GaInP Airbridge Gate Structure,” 18th International Semiconductor Conference (CAS'95), Sinaia, Romania, Oct. 1995
  77. S. G. Pan, S. S. Lu, L .J. Young and P. J. Chang, “A Latch Type Accelerometer fabricated on (110) Substrate,” Electronic Device and Materials Symposium, Gau-Hsiung, Taiwan, ROC, Jul. 1995
  78. C. C. Jian, S. S. Lu, L .J. Young and P. J. Chang, “A Novel Method to Identify the Membrane Thickness of Piezoresistive Pressure Sensor with a Micrometer Precision,” Electronic Device and Materials Symposium, Gau-Hsiung, Taiwan, ROC, Jul. 1995
  79. L .J. Young and P. J. Chang, Y. W. Hsu, S. S. Lu, “A Capacitive Accelerometer Fabricated by the Si Bulk Micromachining,” Electronic Device and Materials Symposium, Gau-Hsiung, Taiwan, ROC, Jul. 1995
  80. Y. W. Hsu, S. S. Lu, L .J. Young and P. J. Chang, “A Piezo-Resistive Silicon Accelerometer,” 1993 Electronic Device and Materials Symposium, Chung-Li, Taiwan, ROC, Oct. 1993
  81. S. S. Lu and C. L. Huang, “DC Characterization of GaInP/GaAs I2HEMT Grown by Gas Source Molecular Beam Epitaxy,” 23rd European Solid State Device Research Conference, Grenoble, France, Sept. 1993
  82. C. L. Huang and S. S. Lu, “A Piezo-electric Field Effect Transistor (PEFET) using AlGaAs/InGaAs/GaAs Strained Layer Structure,” 23rd European Solid State Device Research Conference, Grenoble, France, Sept. 1993
  83. C. L. Huang, Y. W. Hsu and S. S. Lu, “DC Characterization of GaInP/GaAs Inverted-Structure High Electron Mobility Transistor,” 20th International Symposium on Gallium Arsenide and Related Compounds, Freiburg, Germany, Aug. 1993
  84. S. S. Lu, and C. C. Wu, “High Current Gain GaAs Bipolar Transistors with a GaInP Hole barrier,” 3rd International Conference on Solid State and Integrated Circuit Technology (ICSICT'92), Beijing, China, Oct. 1992
  85. C. C. Wu, S. S. Lu, and S. C. Lee, “High Performance GaInP/GaAs Tunneling Emitter Bipolar Transistors,” International conference on Solid State Devices and Materials(SSDM'92), Japan, Aug. 1992
  86. S. S. Lu, C. C. Wu, and C. C. Huang, “DC Characterization of GaInP/GaAs Tunneling Emitter Bipolar Transistors,” 4th International Conference on Indium Phosphide and Related Materials (IPRM'92), Newport, Rhode Island, USA, Apr. 1992
  87. S. S. Lu, K. Beyazavi, F. Williamson, N. I. Nathan, and C. C. Meng, “Stress Induced Resonant Tunneling between Two Dimensional Electron Gases,” 1991 American Physical Society March Meeting, Cincinnati, Ohio, USA, Mar. 1991
  88. C. J. Torng, T. A. Yeh, J. M. Silvertsen, S. S. Lu, and A. Gopinath, “Deposition and Characterization of C :N Films on Si for Microelectronics Applications,” 2nd International Conference on the New Diamond Science and Technology, Washington DC, USA, Sept. 1990
  89. C. J. Torng, T. A. Yeh, J. M. Silvertsen, S. S. Lu, and A. Gopinath, “Study on Al/C:N/Si MJS Structures for Microelectronics Applications,” International Conference on Electrical Materials, Newark, New Jersey, USA, Sept. 1990
  90. S. S. Lu, T. Miller, F. Williamson, M. I. Nathan, C. C. Meng, and H.R. Fetterman, “Uniaxial Stress Dependence of, and F Electron Tunneling in AlAs-GaAs- AlAs Resonant Tunneling Heterostructures,” 1990 American Physical Society March Meeting, Annaheim, California, USA, Mar. 1990
  91. S. S. Lu, K. R. Lee, M. I. Nathan, M. Heiblum, and S. L. Wright, “The Dependence of I-V Characteristics in GaAs-AlGaAs-GaAs Heterojunction Barriers on the Transverse Uniaxial Stress,” 16th International Symposium on Gallium Arsenide and Related Compounds, Karuizawa, Japan, Sept. 1989
  92. S. S. Lu, K. R. Lee, K. H. Lee, M. I. Nathan, M. Heiblum, and S. L. Wright, “Uniaxial Stress Dependence of I-V Characteristics in GaAs-AlGaAs-GaAs Heterojunctions: Theory and Experiment,” 4th International Conference on Modulated Semiconductors Structure, Ann Arbor, Michigan, USA, Jul. 1989

Books:

  1. S. S. Lu, “Micromachined Devices for Wireless Communication of Novel Technologies for microwave and millmeter-wave applications,” Kluwar academic publishers, Chapters 7 pages, 2004
  2. 呂學士編譯, “「微波通訊半導體電路」,” 全華圖書公司出版, Mar. 1996

Patents:

  1. Lu; Shey-Shi, Chen; Hsien-Ku, “Dual mode RF transceiver and receiving method of the same,” US8,521,221, Aug. 2013
  2. Lu; Shey-Shi, Yang; Yao-Joe, Huang; Yu-Jie, Lin; Chii-Wann, Liao; Hsin-Hung, Wang; Tao, Huang; Pen-Li, Wang; Yao-Hong, “Drug delivery chip and fabricating method thereof,” US patent 8,460,564, Jun. 2013
  3. 呂學士;陳憲穀, “多除頻模式毫米波除頻電路,” Apr. 2013
  4. 呂學士;王裕翔;林冠廷, “可變頻率響應之低雜訊放大器及切換頻率響應之方法,” 中華民國專利第 I389448 號, Mar. 2013
  5. 呂學士;黃毓傑;陳澤源;柯舜揚, “無線智慧控制顯示裝置之控制方法,” 中華民國專利第 I387283 號, Feb. 2013
  6. Lu; Shey-Shi, Chen; Hsien-Ku, “Phase-locked loop circuit and an associated method,” US patent 8,354,867, Jan. 2013
  7. Lu; Shey-Shi, Chen; Hsien-Ku, “Voltage-controlled oscillator,” US patent 8,339,211, Dec. 2012
  8. Lu; Shey-Shi, Lin; Yu Tso, Liao; Fang Ren, “Self-mixing receiver and forming method thereof,” US patent 8,340,623, Dec. 2012
  9. 呂學士;楊英杰;張所鋐;謝建宇;林冠廷;汪濤;蘇志中;李振宏;張能凱, “電磁波吸收元件及電磁波吸收裝置,” 中華民國專利第 I369943 號, Aug. 2012
  10. 呂學士;林宥佐;陳春豪;葉凱文, “近身通訊生醫晶片系統及其使用方法,” 中華民國專利第 I368188 號, Jul. 2012
  11. 呂學士;葉凱文;李義欽;王堯弘;邱弘緯, “一種感測配對系統,” 中華民國專利第 I367740 號, Jul. 2012
  12. Lu; Shey-Shi, Chen; Hsien-Ku,, “Harmonic suppression circuit, an injection-locked frequency divider circuit and associated methods,” US patent 8,198,923, Jun. 2012
  13. Lu; Shey-Shi, Lin; Yu-Tso, Chen; Chun-Hao, Yeh; Kai-Wen,, “Intra-body communication (IBC) device and a method of implementing the IBC device,” US patent 8,131,334, Mar. 2012
  14. 呂學士;林宥佐, “自我混波接收機及其方法,” 中華民國專利第 I348852 號, Sept. 2011
  15. 呂學士;陳憲穀, “寬頻低雜訊放大器,” 中華民國專利第 I342666 號, May 2011
  16. 呂學士;林宥佐, “超寬頻低雜訊放大器及其方法,” 中華民國專利第 I341079 號, Apr. 2011
  17. Lu; Shey-Shi, Chen; Hsien-Ku, “Multimode millimeter-wave frequency divider circuit with multiple presettable frequency dividing modes,” US patent 7,898,304, Mar. 2011
  18. Lu; Shey-Shi, Chen; Hsien-Ku, Chang; Da-Chiang, Juang; Ying-Zong Chiu; Chin-Fong, “Adapter for the RF front end processor chip,” US patent 7,769,360, Aug. 2010
  19. 呂學士;張仁忠;許家榮;楊育哲;吳宗謙;林子超, “鎖相迴路與其方法,” 中華民國專利第I328354 號, Aug. 2010
  20. Lu; Shey-Shi, Chen; Hsien-Ku, “Wideband low noise amplifiers,” US patent 7,755,435, Jul. 2010
  21. Lu; Shey-Shi, Hsu; Yu-Pin, Lin; Yu-Tso, Chen; Chun-Hao, “Feed-forward automatic-gain control amplifier (FFAGCA) for biomedical applications and an associated method,” US patent 7,733,175, Jun. 2010
  22. 呂學士;張仁忠;許家榮;陳筱青;林子超, “次諧波混頻器及具備該混頻器之下轉換器,” 中華民國專利第I324449號, May 2010
  23. Chang; Jen-Chung, Hsu; Chia-Jung, Lu; Shey-Shi, Chen; Hsiao-Chin, Liow; Yu-Yee, “Frequency-converting circuit and down converter with the same,” US7,672,658, Mar. 2010
  24. 呂學士;張仁忠;許家榮;陳筱青;廖以義, “頻率轉換電路與具備該電路之下轉換器,” 中華民國專利第I321899號, Mar. 2010
  25. Chang; Jen-Chung, Hsu; Chia-Jung, Lu; Shey-Shi, Yang; Yu-Che, Wu; Tsung-Chien, Lin; Tzu-Chao, “Phase locked loop with phase shifted input,” US7,636,018, Dec. 2009
  26. 呂學士;游世安;楊育哲, “具分數除頻器之分數型鎖相迴路之構型與控制方法,” 中華民國專利第I317211號, Nov. 2009
  27. Yu; Shih-An, Yang; Yu-Che, Lu; Shey-shi, “Configuration and controlling method of fractional-N PLL having fractional frequency divider,” US7,587,019, Sept. 2009
  28. Chang; Jen-Chung, Hsu; Chia-Jung, Lu; Shey-Shi, Chen; Hsiao-Chin, Lin; Tzu-Chao, “Sub-harmonic mixer and down converter with the same,” US7,577,418, Aug. 2009
  29. Lin; Yu Tso, Lu; Shey Shi, “Ultra-wideband low noise amplifier and amplification method thereof,” US7,466,205, Dec. 2008
  30. S.S. Lu, H. W. Chiu, Y. C. Yang, “Designing Methods and Circuits for Multi-band Electronic Circuits,” US patent 6,949,979, Sept. 2005
  31. S. S. Lu, “Designing Methods and Circuits for Impedance Matching,” US patent 6,906,599, Jun. 2005
  32. 呂學士、謝志偉, “次諧波混波器,” 中華民國專利第1226750號, Jan. 2005
  33. 呂學士、邱弘緯、陳昱璋, “一種振盪器的設計方法和電腦可讀取記錄媒體,” 中華民國專利第589798號, Jun. 2004
  34. 呂學士, “一種阻抗匹配的設計方法及其電路,” 中華民國專利第588512號, May 2004
  35. 呂學士、邱弘緯、楊育哲, “一種多頻段電子電路及其設計方法,” 中華民國專利第584984號, Apr. 2004
  36. 呂學士、邱弘緯、林宥佐, “一種多頻段同時共存電子電路及其設計方法,” 中華民國專利第578368號, Mar. 2004
  37. 呂學士、邱弘緯、李勃緯, “多頻段放大器電子電路及其設計方法,” 中華民國專利第578365號, Mar. 2004
  38. 李世光、廖宏榮、呂學士、何念修, “藉反應性離子蝕刻於一鋼基材的表面上形成式樣的方法,” 中華民國專利第130598號, Apr. 2001
  39. 呂學士、何念修, “含蝕刻停止層之V型谷空橋閘極的製造方法,” 中華民國專利第400582號, Jun. 2000
  40. 李世光、廖宏榮、呂學士、何念修, “Method for Forming Pattern on Steel Substrate by Reactive Ion Etching,” US patent 5,891, 351, Apr. 1999

other:

  1. 呂學士,潘敏治, “無線感測網路技術,” Mar. 2011, 科學發展月刊
  2. 呂學士 ; 潘敏治, “無線感測網路技術,” Mar. 2010, 科學發展月刊 447, 頁4-14+16-55
  3. 黃毓傑 ; 廖信宏 ; 黃本立 ; 楊燿州 ; 林啟萬 ; 呂學士, “植入式CMOS即時釋藥系統單晶片,” Aug. 2009, 零組件雜誌 214, 頁36-39
  4. 呂學士 ; 潘敏治, “無所不在--國科會無線感測器網路平臺建置計畫簡介,” Dec. 2007, 奈米通訊 14:4, 頁3-6
  5. 游世安 ; 呂學士 ; 林啟萬 ; 王堯弘, “電子貼身護士,” 2005, 科學發展月刊 393, pp 32-37
  6. Shey-Shi Lu, Hsuan-Yu Pan, Hsing-Yuan Tu, “Development and Future of InGap/GaAs HFET - A nova of high speed GaAs transistor,” Jul. 2001, Electrical monthly magazine, Taiwan, pp.156-164, (電子月刊,中文)
  7. 張培仁、呂學士、劉深淵、楊龍杰, “固態加速度計簡介,” Apr. 1996, 電子月刊四月號, pp.59-62
  8. S. Tiwari, S. S. Lu, M. Milshtein, S. L. Wright, L. Palmateer, J. Burroughes, E. Marshall, and J. Yates, “Lateral p-i-n Diodes,” Sept. 1990, IBM Internal Report