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Taufiq Alif Kurniawan teaches at Universitas Indonesia, Depok, Indonesia in the field of analog electronics, and radio frequency integrated circuits design (RFICs). He was born in a small village, Tersidilor, Purworejo district, Jawa Tengah, Indonesia on August 24, 1987. He received the B.S. degree in electrical engineering from Universitas Indonesia, Depok, Indonesia in 2009, and the M.S. degree in electrical engineering from National Taiwan University of Science and Engineering, Taipei, Taiwan, in 2011. He received full scholarship during M.S. degree with his research interest on low noise amplifier and inductor design.
He joined Universitas Indonesia as a junior lecturer in 2011. During 2011 to 2013, the subjects he taught were device electronics, VLSI design, analog circuits, electronic circuits, microprocessor and microcontrollers, and RFIC design. He initiated a international research collaboration between his institution and National Taiwan University of Science and Technology in the design of fully integrated transceiver for m-BWA applications funded by Indonesia Government Grant. He was also involved in research on the development of fisherman radio financed by Ministry of Communication and Informatics Republic of Indonesian in 2012. In 2012, He served as general treasurer of IEEE Indonesia Joint Chapter Microwave, Theory and Techniques dan Antennas and Propagation (MTT/AP).
Started on October 2013, he received full scholarship honored by Hitachi Scholarship Foundation for pursuing doctoral degree. And since April 2014, he has been taking a doctoral degree at the Graduate School of Information, Production and Systems, Waseda University, Japan. His major is Low Power RFICs design, especially on low-supply voltage power amplifier design under supervision of Prof. Toshihiko Yoshimasu. 

PUBLICATIONS 

Journal Papers

1. Taufiq Alif Kurniawan, Toshihiko Yoshimasu, "A 2.5-GHz 1-V High Efficiency CMOS Power Amplifier IC with a Dual-Switching Transistor and Third Harmonic Tuning Technique", Electronics 2019, 8(1), 69; https://doi.org/10.3390/electronics8010069 (SCI)
2. Taufiq Alif Kurniawan, Hsiao Chin Chen, "A 2.3/3.3-GHz Dual Band Low Noise Amplifier Using Switchable Load Inductor in 0.18-μm CMOS Technology", Makara Journal of Technology, vol. 22, no. 3, pp. 159-168, Dec 2018.
3. Gunawan Wibisono, Teguh Firmansyah, Purnomo S. Priambodo, Agus S. Tamsir, Taufiq A. Kurniawan, Achmad B. Fathoni, “Multiband Bandpass Filter (BPF) based on Folded Dual Crossed Open Stubs”, International Journal of Technology, [S.l.], v. 5, n. 1, p. 32-39, jan. 2014. ISSN 2087-2100. (SCI)
4. Gunawan Wibisono, Taufiq A. Kurniawan, and Mohamad W. Santoso, " Design of Quad-Band Bandpass Filter Lumped-Element Using Shunt Resonator and Independent Transmission Zero," International Journal of Information and Electronics Engineering vol. 3, no. 6, pp. 626-629, 2013.
5. Gunawan Wibisono, Daniel Simanjuntak, dan Taufiq A. Kurniawan, “Perancangan Quadband BPF Dengan Komponen Lumped untuk Sistem m-BWA,” Jurnal Elektronika dan Telekomunikasi, vol.12, no. 2, pp. 47-54, Dec. 2013. ISSN 1411-8289

Conferences

1. Purnomo Sidi Priambodo, Yosua Adriadi and  Taufiq Alif Kurniawan, "Transformerless SoC-Based Switching Current Control Battery Charger for eVehicles: design and analysis", E3S Web Conf. 67 03044 (2018) DOI: 10.1051/e3sconf/20186703044
2. Taufiq Alif Kurniawan, "A High Gain Concurrent Dual-band Low-Noise Amplifier in 130-nm BiCMOS Technology", in the 2018 Indonesia Japan Joint Scientific Symposium (IJJSS 2018) in conjunction with CEReS International Symposium 2018, October 9-11, 2018, Depok, Indonesia
   
3. Purnomo Sidi Priambodo, Taufiq Alif Kurniawan and Yosua Adriadi, "Transformerless SoC-Based Switching Current Control Battery Charger for eVehicles", in 3rd i-TREC (International Tropical Renewable Energy Conference) 2018, September 6-8, 2018, Bali, Indonesia
   
4. Taufiq Alif Kurniawan, X. Yang, X. Xu, T. Yoshimasu, “A 2.5-GHz Band Low Voltage High Efficiency CMOS Power Amplifier IC Using Parallel Switching Transistor for Short Range Wireless Applications,” in 45th European Microwave Conference 2015, 6-11 September 2015, Paris, France
5. X. Xu, X. Yang, Z. Sun, Taufiq Alif Kurniawan, T. Yoshimasu, “Highly Linear High Isolation SPDT Switch IC with Back-gate Effect and Floating Body Technique in 180-nm CMOS,” IEEE International Symposium on Radio Frequency Integration Technology (RFIT) 2015, 26 -28 August 2015, Sendai, Japan
6. Xiao Xu, Xin Yang, Taufiq Alif Kurniawan, Toshihiko Yoshimasu, “Broadband Highly Linear High Isolation SPDT Switch IC with Floating Body Technique in 180-nm CMOS,” IEEE International Conference on Electron Deviceｓ and Solid-State Circuits (EDSSC) 2015, Singapore.
7. Taufiq Alif Kurniawan, X. Yang, X. Xu, N. Itoh, T. Yoshimasu, “A 2.5-GHz Band, 0.75-V High Efficiency CMOS Power Amplifier IC With Third Harmonic Termination Technique in 0.18-um CMOS,” 2015 IEEE Wireless and Microwave Technology Conference (WAMICON), 12-15 April 2015, Cocoa Beach, Florida, USA.
8. Taufiq Alif Kurniawan, X. Yang, Z. Sun, X. Xu, T. Yoshimasu, “A 2.5-GHz Band Low-Voltage High Efficiency Class-E Power Amplifier IC With Body Effect,” International Symposium on Integrated Circuits (ISIC) 2014, 10-12 December 2014, Singapore.
9. Taufiq Alif Kurniawan, X. Yang, Z. Sun, X. Xu, T. Yoshimasu, “A 2.5-GHz High Efficiency Class-E CMOS Amplifier IC for Low Supply Voltage,” 8th International collaboration Symposium on Information, Production and Systems (ISIPS 2014), 12-13 November 2014, Kitakyushu, Japan.
10. Taufiq Alif Kurniawan, X. Yang, Z. Sun, X. Xu, T. Yoshimasu, “A 2.5-GHz 1-V High Efficiency CMOS Class-E Amplifier IC Using Back-gate Voltage Injection,” Asia Pacific Microwave Conference 2014, 4-7 November 2014, Sendai, Japan.
11. X. Xu, Z. Sun, K. Xu, X. Yang, T. Kurniawan, T. Yoshimasu, “A 2.5-GHz Band Low-Voltage Class-E Power Amplifier IC for Short-Range Wireless Communications in 180-nm CMOS,” 2014 IEEE International Symposium on Radio-Frequency Integration Technology, 27-30 August 2014, Heifei, China.
12. Taufiq Alif Kurniawan, Gunawan Wibisonoa, “Noise Modeling of Inductive Source Degeneration Low Noise Amplifier in 0.18-um CMOS Technology," 2013 IEEE International Conference on Communication, Networks and Satellite (COMNETSAT), 03-06 Dec 2013, Yogyakarta, Indonesia.
13. Gunawan Wibisono, Daniel Simanjuntak, Taufiq Alif Kurniawan, Purnomo Sidi Priambodo, “Design of Power amplifier for Radio-Frequency Identification application on 13.56 MHz,” 2013 IEEE International Conference on Communication, Networks and Satellite (COMNETSAT), 03-06 Dec 2013, Yogyakarta, Indonesia.
14. Gunawan Wibisono, Taufiq Alif Kurniawan, Puspita Sulistyaningrum , “Design of Concurrent Multiband Inductive Degeneration Low Noise Amplifier with LC Resonator," 2013 IEEE International Conference on Communication, Networks and Satellite (COMNETSAT), 03-06 Dec 2013, Yogyakarta, Indonesia.
15. Gunawan Wibisono, Taufiq Alif Kurniawan, Purnomo Sidi Priambodo, Martine Maurence, “Dualband Quadrature Mixer Up-Conversion Dengan Current Reuse Untuk Aplikasi Sistem Wireless,” Seminar Nasional TEKNOIN 2013, 16 Nov 2013, Yogyakarta, Indonesia.
16. Taufiq Alif Kurniawan, Gunawan Wibisono, Hsiao-Chin Chen, Chia-Yu Yao, “Gain Performance Analysis of Inductive Source Degeneration Amplifier in 0.18-µm CMOS Technology," in 5th Indonesia Japan Joint Scientific Symposium (IJJSS), 25-28 Oct 2012, Chiba, Japan.
17. Gunawan Wibisono, Puspita Sulistyaningrum, Taufiq Alif Kurniawan, dan Teguh Firmansyah, “Perancangan Concurrent Multiband Low Noise Amplifier Menggunakan Teknologi CMOS 0.18-μm," Seminar Microwave Antena Propagasi, 2-3 Oktober 2013, Depok, Indonesia.
18. Gunawan Wibisono, Parmonangan Manalu, Taufiq Alif Kurniawan, danTeguh Firmansyah
    “Perancangan Concurrent Down Converter Multiband Mixer Pada Frekuensi 900 MHz, 2.1 GHz, 2.3 GHz dan 2.6 GHz dengan Teknologi CMOS 0-18-µm,” Seminar Microwave Antena Propagasi, 2-3 Oktober 2013, Depok, Indonesia.
19. Gunawan Wibisono, Daniel Simanjuntak, Teguh Firmansyah, Taufiq Alif Kurniawan, Toto Supriyanto, Hsiao-Chin Chen, “Design of Concurrent Quadband Bandpass Filter Using Lumped Components for m-BWA," in 5th Indonesia Japan Joint Scientific Symposium (IJJSS), 25-28 Oct 2012, Chiba, Japan.
20. Gunawan Wibisono, Teguh Firmansyah, Taufiq Alif Kurniawan,“Multiband BPF Based on Folded dual Crossed Open Stub," International Conference on Electronics, Communications and Computer Science (ICECCS), 15-17 June 2012 Nanning, China.
21. Taufiq Alif Kurniawan, “Propagation Delay Optimization in the Design of 4-bit Carry-Select Adder," National Conference in FORTEI 2012, July 2012, Depok, Indonesia.
22. Taufiq Alif Kurniawan, Agus Santoso Tamsir, “Optimization of Low Frequency Phase Detector Circuit as Read-Out Circuit of Moisture and Electric Conductivity Sensor Output," Indonesia Malaysia Microwave Antenna Conference 2011, Depok, Indonesia.

TEACHING EXPERIENCES

1. Electronic Devices, the topics cover : basic microelectronic device analysis and design, physical electronics of semiconductor junction, semiconductor physics, physics-based models, etc.
2. VLSI Design. The aims of this subject is to give students the basic of design integrated circuit based on CMOS technology and to develop a function/computation. The topics of this subjects are scaling transistor and fabrication, design rules/layout/extraction, timing optimization, sequential machines, validation, high-level design optimization, asynchrony, packaging, design for manufacturing, fault modeling, etc.
3. Electronic Circuits, at the completion of the subject, students will be able to describe, characterize diode, FET, JFET, MOSFET, VMOS, CMOS, and MESFET; and also able to analyze BJT application circuits : small-signal and large-signal models in electronic circuits and able to analyze FET application circuits.
4. Microprocessor and Microcontrollers. After completing this course, the students are expected to be able to program 16 bits and 32 bits Intel Microprocessor and 8051 Microcontroller (8 bits) using low level language and also able to design microcontroler 8051 based embedded system.
5. RFIC Design, the topics cover : multiple access techniques and wireless standards, transceiver architectures, low-noise amplifiers and mixers, oscillators, frequency synthezisers, power amplifiers, etc.