期刊論文

[1] G. C. Hsieh, and C. H. Lin, “Modeling and estimation of the fluorescent lamp and its pre-heating control,” Journal of Light & Visual Environment, vol. 23, no. 1, pp. 1-9, June 1999. [NSC86-2213-E011-078, SCI]

[2] G. C. Hsieh, and C. H. Lin, “Harmonized strategy for breaking the striations in the fluorescent lamp,” IEEE Transaction on Industrial Electronics, vol. 48, no. 2, pp. 352-366, Apr. 2001. [NSC87-2213-E011-071, SCI, EI]

[3] C. H. Lin, and Ying Lu, “Using Frequency-Shift Technique in Digital-Dimming Controller Design to Improve the Ignition Behavior of Cold Cathode Fluorescent Lamp,” Journal of National Taipei University of Technology (in Chinese), vol. 37-1, pp. 411-422, Mar. 2004,   [NSC92-2213-E-129-009]

[4] C. H. Lin, “Application of Soft-starting Technique to Improve Digital-dimming Behavior for Backlight Module,” IEICE Transaction on Communication (special issue of INTELEC’03), vol. E87-B, no. 12, pp. 3515-3521, Dec. 2004. [NSC92-2213-E-129-009, SCI, EI]

[5] C. H. Lin, and Y. C. Chen, “Design of class E resonant inverter incorporating piezoelectric transformer,” Fu Jen Studies (Science and Engineering), no. 38, pp. 233-249, Dec. 2004. [NSC93-2213-E-129-014]

[6] C. H. Lin, and J. Y. Chen, “The Tracking of the Optimal Operating Frequency in a Class E Backlight Inverter Using the PLL Technique,” IEICE Transaction on Electronics, vol. E88-C, no. 6, pp. 1253-1262, June 2005. [NSC93-2213-E-129-014, SCI, EI]

[7] C. H. Lin, and Ken-Chuan Hsu, “Design and Implementation of a Microcontroller-based Electronic Ballast for Metal Halide Lamp,” Journal of St. John’s & St. Mary’s Institute of Technology, vol. 22, pp. 113-124, Aug. 2005.

[8] C. H. Lin, J. Y. Chen, and F. L. Wen, “A Backlight Module Driver for an LCD Using a Multi-lamp Current Sharing Technique,” IEICE Trans. on Electronics, vol. E88-C, no. 11, pp. 2111-2117, Nov. 2005. [NSC93-2213-E-129-014, SCI, EI]

[9] C. H. Lin, “The design and implementation of a new digital dimming controller for the backlight resonant inverter,” IEEE Transaction on Power Electronics, vol. 20, no. 6, pp. 1459-1466, Nov. 2005. [NSC92-2213-E-129-009, SCI, EI]

[10] H. J. Chiu, L. W. Lin, C. H. Lin, and H. M. Huang, “PAS power supply harmonic Elimination by active conditioner,” IEEE Transaction on Aerospace and Electronic system, vol. 42, no. 1, pp. 341-350, Jan. 2006. [SCI, EI]

[11] F. L. Wen, Y.-L. Lo, C.-H. Lin, and S.-C. Mou, “A Pulse DC plasma deposited resistor process,” Journal of Materials Science Forum, vol. 505-507, pp. 865-870, Jan. 2006 [ISSN: 0255-5476, SCI, EI]

[12] C. H. Lin, “Digital-dimming controller with current spikes elimination technique for LCD backlight electronic ballast,” IEEE Transaction on Industrial Electronics, vol. 53, no. 6, pp. 1881-1888, Dec. 2006. [NSC92-2213-E-129-009, SCI, EI]

[13] C. H. Lin, Y. Lu, H. J. Chiu, and C. L. Ou, “Eliminating the temperature effect of piezoelectric transformer in backlight electronic ballast by applying the digital phase-locked loop technique,” IEEE Transaction on Industrial Electronics, vol. 54, no. 2, pp. 1024-1031, Apr. 2007. [NSC94-2213-E-129-015, SCI, EI]

[14] C. H. Lin, Y. Lu, “Application of maximum-efficiency tracking control to backlight module based on phase-locked technique,” Journal of Marine Science and Technology, vol. 16, no. 1, pp. 27-33, May 2008. [NSC93-2213-E-129-014, SCI, EI]

[15] C. H. Lin, C. M. Wang, M. S. Hung, and S. P. Hsieh, “Reducing the Parasitic Capacitance Effect in LCD Panel for Backlight Module Based on Primary-Side Control and DPLL Technique,” IEEE Transaction on Industrial Electronics, vol. 56, no. 8, pp. 2918-2922, Aug. 2009. [NSC95-2221-E-129-024, SCI, EI]

[16] C. H. Lin, C. M. Wang, and H. W. Liu, “Power Management of Electric Bike By Using a Bidirectional Buck-Boost Converter with SOC Estimation,” International Journal Intelligent System Science and Technology, vol. 2, no. 2, pp. 29-37, June 2010. [NSC 97-3114-E-036-001, EI]

[17] C. H. Lin, C. M. Wang, and M. H. Hung, “High Voltage Driving Circuit with Negative Pulse feature for Tubular Field Emission Lamp,” International Review of Electrical Engineering, vol. 5, no. 4, pp. 1430-1435, Aug. 2010. [NSC98-2221-E-036-044-MY2, SCI, EI, Impact Factor: 1.364]

[18] C. H. Lin, C. M. Wang, and M. H. Hung, “High Voltage Pulse Driver with Energy Recovery Circuit for CNT-FEL,” International Review of Electrical Engineering, vol. 5, no. 5, pp. 1930-1938, Oct. 2010. [NSC98-2221-E-036-044-MY2, SCI, EI, Impact Factor:1.364]

[19] C. M. Wang, C. H. Lin, and T. C. Yang, “High-Power-Factor Soft-Switched DC Power Supply System,” IEEE Trans. on Power Electronics, vol. 26, no. 2, pp. 647-654, Feb. 2011. [SCI, EI, Impact Factor: 2.929]

[20] C. M. Wang, C. H. Lin, C. H. Su, and S. Y. Chang, “A Novel Single-Phase Soft-Switching AC Chopper Without Auxiliary Switches,” IEEE Trans. on Power Electronics, vol. 26, no. 7, pp. 2041-2048, July 2011. [SCI, EI, Impact Factor: 3.24]

[21] C. H. Lin, C. M. Wang, and M. H. Hung, “Eliminating the Arcing Phenomenon in Field Emission Lighting Based on the Impulse-Power Technique,” IEEE Trans. on Industrial Electronics, vol. 59, no. 4, pp. 1929-1938, Apr. 2012. [NSC98-2221-E-036-044-MY2, SCI, EI, Impact Factor: 3.439]

[22] C. H. Lin, C. M. Wang, M. H. Hung, and H. Y. Chao, “Implementation of a Battery Management System Incorporating with Dual-Balancing Technique for Lithium-Ion Battery Packs,” International Review of Electrical Engineering, vol. 7, no. 3, pp. 4499-4505, June 2012. [NSC 99-2632-E-036-001-MY3, B100-E01-025, SCI, EI, Impact Factor:1.364]

[23] C. H. Lin, C. M. Wang, M. H. Hung, and Ying Lu, “Pulse Current Generator for Driving Tubular Field Emission Lamp Based on DCM Flyback Converter,” International Journal of Circuit Theory and Applications, vol. 40, pp. 1127-1141, Nov. 2012. [NSC98-2221-E-036-044-MY2, SCI, EI, Impact Factor: 1.759]

[24] C. C. Wen, F. L. Wen, and C. H. Lin, “Frequency Adaptive Driver for Ultrasonic Vibrators with Motional Current Feedback,” Instruments and Experimental Techniques, vol. 56, no.1, pp. 104-112, June 2013. [SCI, EI, Impact Factor: 0.33]

[25] C. M. Wang, C. H. Lin, H. Y. Lin, and S. Y. Hsu, “Analysis, design and performance of a soft-switching single-phase inverter,” IET Power Electronics, vol. 7, issu. 9, pp. 2412-2423, July 2014. [SCI, EI, Impact Factor: 1.318]

[26] C. M. Wang, C. H. Lin, S. Y. Hsu, C. M. Lu, and J. C. Li, “Analysis, design and performance of a zero-current-switching pulse-width-modulation interleaved boost dc/dc converter,” IET Power Electronics, vol. 7, issu. 9, pp. 2437-2445, July 2014. [SCI, EI, Impact Factor: 1.318]

[27] M. H. Hung, C. H. Lin, L. C. Lee and C. M. Wang, “State-of-charge and state-of-health estimation for lithium-ion batteries based on dynamic impedance technique,” Journal of Power Sources, vol. 268, pp. 861-873, Dec. 2014. [SCI, EI, Impact Factor: 5.211]

[28] C. M. Wang, C. H. Lin, C. M. Lu, and J. C. Li, “Design and realization of a ZVT-PWM Interleaved Boost PFC Converter,”IET Power Electronics, vol. 8, issu. 8, pp. 1542-1551, July 2015.[SCI, EI, Impact Factor: 1.318]

[29] C. M. Wang, C. H. Lin, and C. H. Cheng, “Analysis, design and realization of a zero-current transition pulse-width modulation interleaved boost power factor correction converter with a zero-current transition auxiliary circuit,” IET Power Electronics, vol. 8, issu. 9, pp. 1777-1785, Sep. 2015. [SCI, EI, Impact Factor: 1.318]

[30] L. C. Lee and C. H. Lin, “An Impulse Power Driver for Field Emission Lighting with Variable Frequency Control,” Journal of the Chinese Institute of Engineers, vol. 39, issu. 5, pp. 637-645, July 2016. [SCI, EI, Impact Factor: 0.246]

[31] C. H. Lin, H. D. Liu, Y. L. Lin, and T. C. Pan, “Design and implementation of a battery test system with energy recycling technique,” IEICE Electronics Express, vol.14, no.8, pp. 1-6, Apr. 2017.

[32] H.-D. Liu, C. H. Lin⁠, ⁠K.-J. Pai⁠, Y.-L. Lin, “A novel photovoltaic system control strategies for improving hill climbing algorithm efficiencies in consideration of radian and load effect,” Energy Conversion and Management, vol. 165, pp. 815-826, June 2018.

[33] K. J. Pai, L. D. Qin, C. H. Lin, and S. Y. Tang, “Start-Up Current Spike Mitigation of High-Power Laser Diode Driving Controller for Vehicle Headlamp Applications,” Applied Sciences, vol. 8, no. 9, pp. 1-19, Sep. 2018.

[34] W. Y. Shieh, C. C. J. Hsu, C. H. Lin, and T. H. Wang, “Investigation of Vehicle Positioning by Infrared Signal-Direction Discrimination for Short-Range Vehicle-to-Vehicle Communications,” IEEE Trans. on Vehicular Technology, vol. 67, no. 12, pp. 11563-11574, Dec. 2018.

[35] Y.-W. Chen, J.-F. Chen, C.-H. Lin, C.-H. Hou “Integrating a supercapacitor with capacitive deionization for direct energy recovery from the desalination of brackish water,” Applied Energy, vol. 252, pp. 1-9, Oct. 2019.

[36] C. H. Lin, K. J. Pai, and P. H. Chen, “Development and implantation of a laser headlight system for electro-optic characteristic measurement and comparison,” International Journal of Circuit Theory and Applications, vol. 48, issue 2, pp. 294-307, Jan. 2020.

[37] C.-H. Lin, K.-F. Chen, K.-J. Pai, and K.-C. Chen, “A Low-Cost Programmable High-Frequency AC Electronic Load with Energy Recycling for Battery Module Diagnostics,” Applied Sciences, vol. 10, issu. 2, pp. 546-564, Jan. 2020.

[38] H.-D. Liu, C.-H. Lin, K.-J. Pai, and C.-M. Wang, “A GMPPT algorithm for preventing the LMPP problems based on trend line transformation technique,” Solar Energy, vol. 198, pp. 53-67, Mar. 2020.

[39] Y.-L. Lee, C.-H. Lin, and S.-J. Yang, “Power Loss Analysis and a Control Strategy of an Active Cell Balancing System Based on a Bidirectional Flyback Converter,” Applied Sciences, vol. 10, issu. 12, pp. 4380-4397, June 2020.

[40] K.-J. Pai, C.-H. Lin, and P.-H. Chen, “Employing a Laser Headlight Electrical System to Measure and Calculate Electro-Optic Conversion Efficiencies of Blue-Beam Laser Diodes,” Electronics, vol. 9, issu. 11, pp. 1-25, Nov. 2020.

[41] J. Ahmad, M. Zaid, A. Sarwar, C.-H. Lin, S. Ahmad, M. Sharaf, M. Zaindin, and M. Firdausi, “A Voltage Multiplier Circuit Based Quadratic Boost Converter for Energy Storage Application,” Applied Sciences, vol. 10, issu. 22, pp. 8254-8269, Nov. 2020.

[42] J. Ahmad, C.-H. Lin, M. Zaid, A. Sarwar, S. Ahmad, M. Sharaf, M. Zaindin, and M. Firdausi, “A New High Voltage Gain DC to DC Converter with Low Voltage Stress for Energy Storage System Application,” Electronics, vol. 9, issu. 12, 2067, pp. 2067-2086, Dec. 2020.

[43] A. Mahmood, M. Zaid, J. Ahmad, M. A. Khan, S. Khan, Z. Sifat, C.-H. Lin, A. Sarwar, M. Tariq, and B. Alamri, “A Non-Inverting High Gain DC-DC Converter With Continuous Input Current,” IEEE Access, vol. 9, pp. 54710-54721, Apr. 2021.

[44] J. Ahmad, M. Zaid, A. Sarwar, C.-H. Lin, M. Asim, R. K. Yadav, M. Tariq, K. Satpathi, and B. Alamri, “A New High-Gain DC-DC Converter with Continuous Input Current for DC Microgrid Applications,” Energies, vol. 14, issu. 2629, pp. 1-14, May 2021.

[45] M. Zaid, C.-H. Lin, S. Khan, J. Ahmad, M. Tariq, A. Mahmood, A. Sarwar, B. Alamri, and A. Alahmadi, “A Family of Transformerless Quadratic Boost High Gain DC-DC Converter,” Energies, vol. 14, issu. 4372, pp. 1-25, July 2021.

[46] A.-S. Jana, H.-D. Liu, S.-D. Lu, and C.-H. Lin, “New Control Scheme for Solar Power Systems under Varying Solar Radiation and Partial Shading Conditions,” Processes, vol. 9, issu. 1359, pp. 1-12, Aug. 2021.

[47] M. Ali, M. Tariq, C.-H. Lin, R. K. Chakrobortty, B. Alamri, A. Alahmadi, and M. J. Ryan, “Operation of a UXE-Type 11-Level Inverter with Voltage-Balance Modulation Using NLC and ACO-Based SHE,” Sustainabilty, vol. 13, issu. 9035, pp. 1-19, Aug. 2021.

[48] C.-H. Lin, M. Admir, M. Tariq, M. Shahvez, B. Alamri, A. Alahmadi, M. Siddiqui, and A. R. Beig, “Comprehensive Analysis of IPT v/s CPT for Wireless EV Charging and Effect of Capacitor Plate Shape and Foreign Particle on CPT,” Processes, vol. 9, issu. 9, pp. 1-25, Sep. 2021.

[49] J. Ahmad, M. D. Siddique, A. Sarwar, C.-H. Lin, A. Iqbal, “A high gain noninverting DC–DC converter with low voltage stress for industrial applications,” International Journal of Circuit Theory and Applications, vol. 49, issue 10, pp. 1-19, Sep. 2021.

[50] K. J. Pai, and C.-H. Lin, “Simulation and implementation of a two-mode-operation transconductance regulator with a Gallium Nitride High-Electron-Mobility Transistor,” International Journal of Circuit Theory and Applications, vol. 49, issue 11, pp. 1-17, Sep. 2021.

[51] S. Khan, A. Mahmood, M. Zaid, M. Tariq, C.-H. Lin, J. Ahmad, B. Alamri, and A. Alahmadi, “A High Step-up DC-DC Converter Based on the Voltage Lift Technique for Renewable Energy Applications,” Sustainabilty, vol. 13, issu. 11059, pp. 1-24, Oct. 2021.

[52] Y.-L. Lee, K.-F. Chen, C.-H. Lin, and Y.-H. Cheng, “Modified SPWM Control for a Single-Stage Differential Boost Inverter Applied in a BESS,” Processes, vol. 9, issu. 11, pp. 1-25, Oct. 2021.

[53] K. J. Pai, and C.-H. Lin, “Equivalent Circuit Establishments of a GaN High-Electron-Mobility Transistor and 635 nm Laser Diode for a Short-Pulsed Rising Current Simulation,” Processes, vol. 9, issu. 11, pp. 1-15, Nov. 2021.

[54] H.-D. Liu, S.-D. Lu, Y.-L. Lee, and C.-H. Lin, “A Novel Photovoltaic Module Quick Regulate MPPT Algorithm for Irradiation and Partial Shading Conditions,” Processes, vol. 9, issu. 12, pp. 1-15, Dec. 2021.

[55] J. Ahmad, C.-H. Lin, S.-D. Lu, T.-H. Kao, H.-D. Liu, “Analysis of a New Tripled Boost High Voltage Gain DC/DC Converter with Continuous Input Current,” IEEJ Transactions on Electrical and Electronic Engineering, pp. 1-7, Dec. 2021.