Publications

Citations' Statistics from Google Scholar

Granted Patents

[1] A. Rusu, S. Rodriguez, and S. Ollmar, “Health Monitoring System,” US10357180B2, CA2936487A1, AU2015206086B2, MX2016008956A, JP6486964B2, CN106061378A, KR20160110477A, EP3094245A1, WO2015107042A1, 2015

[2] A. Rusu, S. Rodriguez, and S. Ollmar, “Implantable Sensor and Method for Such Sensor,” AU2015206084B2, CN106028926A, CA2936458A1, MX2016008954A, KR20160108531A, EP3094246A1, JP6549154B2, WO2015107040A1, 2015

[3] S. Ollmar, S. Rodriguez, A. Rusu, U. Birgersson, and A. Fernandez, “Implantable Glucose Sensor,” EP4042941B1, BR112023015814A2, MX2023009042A, WO2022171684A1, KR20230154801A

Ongoing Patent Applications

[4] S. Ollmar, S. Rodriguez, and U. Birgersson, “Implantable sensor with optimal electrode distance,” EP4257037A1, WO2023194341A1

Book chapters

[5] M. W. Hussain, S. Rodriguez, and A. Rusu, “An Overview of Silicon Carbide Electronics for High-Temperature Applications,” in Advances in micro- and nanoelectronics, Editura Academi Romane, 2018, pp. 208–228.

[6] S. Rodriguez, S. Tao, and A. Rusu, “Advances in Technologies for Implantable Bioelectronics,” in Wireless Medical Systems and Algorithms, Tailor & Francis, 2016, pp. 3–20.

Peer-reviewed Articles

[7] Y. K. Huang and S. Rodriguez, “Noise Analysis and Design Methodology of Chopper Amplifiers With Analog DC-Servo Loop for Biopotential Acquisition Applications,” IEEE Trans. Very Large Scale Integr. VLSI Syst., vol. 32, no. 1, pp. 55–67, 2024.

[8] A. D. Fernandez Schrunder, Y. K. Huang, S. Rodriguez, and A. Rusu, “A Real-Time Muscle Fatigue Detection System Based on Multifrequency EIM and sEMG for Effective NMES,” IEEE Sens. J., vol. 24, no. 14, pp. 22553–22564, 2024.

[9] A. D. Fernandez Schrunder, Y. K. Huang, S. Rodriguez, and A. Rusu, “A Bioimpedance Spectroscopy Interface for EIM Based on IF-Sampling and Pseudo 2-Path SC Bandpass Delta-Sigma ADC,” IEEE Trans. Biomed. Circuits Syst., vol. 18, no. 5, pp. 1001–1013, 2024.

[10] S. Ollmar et al., “A battery-less implantable glucose sensor based on electrical impedance spectroscopy,” Sci. Rep., vol. 13, no. 1, pp. 1–8, 2023, doi: 10.1038/s41598-023-45154-8.

[11] R. Juthberg, J. Flodin, S. Rodriguez, L. Guo, N. K. Persson, and P. W. Ackermann, “Neuromuscular electrical stimulation in garments optimized for compliance,” Eur. J. Appl. Physiol., 2023, doi: 10.1007/s00421-023-05181-9.

[12] Y. K. Huang, A. Rusu, and S. Rodriguez, “A Current Monitoring and Over-Current Detection Circuit for Safe Electrical Stimulation,” IEEE Trans. Circuits Syst. II Express Briefs, vol. 70, no. 5, pp. 1684–1688, 2023, doi: 10.1109/TCSII.2023.3252804.

[13] A. Fernandez, S. Rodriguez, and A. Rusu, “A Finite Element Analysis and Circuit Modelling Methodology for Studying Electrical Impedance Myography of Human Limbs,” IEEE Trans. Biomed. Eng., vol. 69, no. 1, pp. 244–255, 2021.

[14] N. Ivanisevic, S. Rodriguez, and A. Rusu, “Impedance Spectroscopy Based on Linear System Identification,” IEEE Trans. Biomed. Circuits Syst., vol. 13, no. 2, pp. 396–402, 2019, doi: 10.1109/TBCAS.2019.2900584.

[15] D.-I. Albertsson, J. Åkerman, S. Rodriguez, and A. Rusu, “Compact Macrospin-Based Model of Three-Terminal,” IEEE Trans Magn., vol. 55, no. 10, 2019.

[16] R. Onet, A. Rusu, and S. Rodriguez, “High-Purity and Wide-Range Signal Generator for Bioimpedance Spectroscopy,” IEEE Trans Circuits Syst. II Express Briefs TCAS-II, 2018.

[17] S. Kargarrazi, H. Elahipanah, S. Rodriguez, and C.-M. Zetterling, “500 C, High Current Linear Voltage Regulator in 4H-SiC BJT technology,” IEEE Electron Device Lett, 2018.

[18] N. Ivanisevic, S. Rodriguez, and A. Rusu, “A 14-ENOB Delta-Sigma Based Readout Architecture for ECoG Recording Systems,” IEEE Trans Circuits Syst Reg Pap., 2018.

[19] M. W. Hussein et al., “A SiC-BJT Based Negative Resistance Oscillator for High-Temperature Sensors,” IEEE J Electron Devices Soc., 2018.

[20] M. W. Hussain et al., “An Intermediate Frequency Amplifier for High-Temperature Applications,” IEEE Trans. Electron Devices, vol. 65, no. 4, pp. 1411–1418, 2018, doi: 10.1109/TED.2018.2804392.

[21] M. W. Hussain et al., “A 500 ◦C Active Down-Conversion Mixer in Silicon Carbide Bipolar Technology,” IEEE Electron Device Lett, 2018.

[22] P. Chaourani, S. Rodriguez, P.-E. Hellström, and A. Rusu, “Inductors in a Monolithic 3-D Process: Performance Analysis and Design Guidelines,” IEEE Trans Very Large Scale Integr. VLSI Syst., 2018.

[23] J. Katic, S. Rodriguez, and A. Rusu, “A High-Efficiency Energy Harvesting Interface for Implanted Biofuel Cell and Thermal Harvesters,” IEEE Trans Power Electron, 2017.

[24] S. Rodriguez, S. Ollmar, M. Waqar, and A. Rusu, “A Batteryless Sensor ASIC for Implantable Bio-impedance Applications,” IEEE Trans Biomed Circuits Syst, vol. 10, no. 3, pp. 533–544, 2016.

[25] J. Katic, S. Rodriguez, and A. Rusu, “A Dual-Output Thermoelectric Energy Harvesting Interface with 86.6% Peak Efficiency at 30 μW and Total Control Power of 160 nW,” IEEE J Solid-State Circuits, vol. 51, no. 8, pp. 1928–1937, 2016.

[26] A. Smith, S. Vaziri, S. Rodriguez, M. Ostling, and M. C. Lemme, “Large scale integration of graphene transistors for potential applications in the back end of the line,” Solid-State Electron., vol. 108, pp. 61–66, 2015.

[27] M. Iannazzo et al., “Optimization of a Compact I-V Model for Graphene FETs: Extending Parameter Scalability for Circuit Design Exploration,” IEEE Trans Electron Devices, vol. 62, no. 11, pp. 3870–3875, 2015.

[28] T. Chen et al., “Integration of GMR-based spin torque oscillators and CMOS circuitry,” Solid-State Electron., 2015.

[29] T. Chen et al., “Comprehensive and Macrospin-Based Magnetic Tunnel Junction Spin Torque Oscillator Model - Part I: Analytical Model of the MTJ STO,” IEEE Trans Electron Devices, vol. 62, no. 3, pp. 1037–1044, 2015.

[30] T. Chen et al., “Comprehensive and Macrospin-Based Magnetic Tunnel Junction Spin Torque Oscillator Model - Part II: Verilog-A Model Implementation,” IEEE Trans Electron Devices, vol. 62, no. 3, pp. 1045–1051, 2015.

[31] S. Rodriguez et al., “A Comprehensive Graphene FET Model for Circuit Design,” IEEE Trans Electron Devices, vol. 61, no. 4, pp. 1199–1206, 2014.

[32] S. Rodriguez, A. Smith, S. Vaziri, M. Ostling, M. C. Lemme, and A. Rusu, “Static Non-linearity in Graphene Field Effect Transistors,” IEEE Trans Electron Devices, vol. 61, no. 8, pp. 3001–3003, 2014.

[33] R. Onet, M. Neag, I. Kovacs, M. Topa, S. Rodriguez, and A. Rusu, “Compact Variable Gain Amplifier for a Multistandard WLAN/WiMAX/LTE Receiver,” IEEE Trans Circuits Syst I, vol. 61, no. 1, pp. 247–257, 2014.

[34] R. Hedayati, L. Lanni, S. Rodriguez, B. G. Malm, A. Rusu, and C.-M. Zetterling, “A Monolithic, 500 C Operational Amplifier in 4H-SiC Bipolar Technology,” Electron Device Lett, vol. 35, no. 7, pp. 693–695, 2014.

[35] T. Chen, P. Durrenfeld, S. Rodriguez, J. Åkerman, and A. Rusu, “A Highly-Tunable Microwave Oscillator Based on MTJ STO Technology,” Microw. Opt. Technol. Lett., vol. 56, no. 9, pp. 2092–2095, 2014.

[36] S. Tao, S. Rodriguez, and A. Rusu, “Two-step continuous-time incremental sigma-delta ADC,” Electron. Lett., vol. 49, no. 12, pp. 749–751, 2013.

[37] J. Garcia, S. Rodriguez, and A. Rusu, “On Continuous-Time Incremental Sigma-Delta ADCs with Extended Range,” IEEE Trans Instrum. Meas., vol. 62, no. 1, pp. 60–70, 2013.

[38] J. Garcia, S. Rodriguez, and A. Rusu, “A Low-Power CT Incremental 3rd Order Sigma-Delta ADC for Biosensor Applications,” IEEE Trans Circuits Syst Reg Pap., vol. 60, no. 1, pp. 25–36, 2013.

[39] S. Rodriguez, S. Vaziri, M. Ostling, A. Rusu, E. Alarcon, and M. C. Lemme, “RF Performance Projections of Graphene FETs vs. Silicon MOSFETs,” ECS Solid State Lett., vol. 1, no. 5, pp. 39–41, 2012.

[40] S. Tao, S. Rodriguez, A. Rusu, and M. Ismail, “A 60 GHz receiver front-end in 65 nm CMOS,” Kluwer Acad. Publ. J. Analog Integr. Circuits Signal Process., vol. 67, no. 1, pp. 61–71, Jul. 2011, doi: 10.1007/s10470-010-9510-8.

[41] S. Tao, V. Manolopoulos, S. Rodriguez, and A. Rusu, “Real-time Urban Traffic State Estimation with A-GPS Mobile Phones as Probes,” J. Tranportation Technol., vol. 2, no. 1, pp. 22–31, 2011.

[42] S. B. Sleiman, J. Atallah, S. Rodriguez, A. Rusu, and M. Ismail, “Optimal Sigma-Delta Modulator Architectures for Fractional-N Frequency Synthesis,” IEEE Trans Very Large Scale Integr. VLSI Syst., vol. 18, no. 2, pp. 194–200, 2010.

[43] S. Rodriguez, J. G. Atallah, A. Rusu, L.-R. Zheng, and M. Ismail, “ARCHER: An Automated RF-IC Rx Front-End Circuit Design Tool,” Kluwer Acad. Publ. J. Analog Integr. Circuits Signal Process., vol. 58, no. 3, pp. 255–270, 2009.

[44] S. Rodriguez, A. Rusu, L. Zheng, and M. Ismail, “CMOS RF mixer with digitally enhanced IIP2,” Electron. Lett., vol. 44, no. 2, pp. 37–38, 2008, doi: 10.1049/el.

Peer-reviewed Conference Proceedings

[45] Y. K. Huang, A. Fernandez Schrunder, A. Rusu, and S. Rodriguez, “A Frequency-Division Multiplexed 16-Channel AFE for Wearable MC-sEMG Recording,” in Proc. IEEE International Conference on Electronics, Circuits, and Systems (ICECS), 2024.

[46] Y. K. Huang and S. Rodriguez, “An Inductorless 40.5V High-Voltage Generator for Integrated Neuromuscular Electrical Stimulators,” in Proc. IEEE Biomedical Circuits & Systems Conference (BIOCAS), 2023.

[47] Y. K. Huang and S. Rodriguez, “Noise Analysis of Current-Feedback DC-Servo Loop in Current-Balancing Chopper Amplifiers,” in 2022 IEEE Nordic Circuits and Systems Conference, NORCAS, IEEE, 2022, pp. 1–6. doi: 10.1109/NorCAS57515.2022.9934347.

[48] Y.-K. Huang, A. Rusu, and S. Rodriguez, “A 4-Channel NMES IC for Wearable Applications,” in Proc. IEEE Biomedical Circuits & Systems Conference (BIOCAS), 2021, pp. 1–5.

[49] M. Mouis et al., “Potential of nanonets for the 3D integration of biosensors on CMOS,” in Journées Nationales Nanofils Semiconducteurs Journées Nationales Nanofils Semiconducteurs, 2019.

[50] N. Ivanisevic, S. Rodriguez, and A. Rusu, “Area-Efficient Switched-Capacitor Integrator with Flicker Noise Cancellation,” in IEEE International Symposium on Circuits and Systems (ISCAS), 2018.

[51] P. Chaourani, D. Stathis, S. Rodriguez, P.-E. Hellström, and A. Rusu, “A Study on Monolithic 3-D RF/AMS ICs: Placing Digital Blocks Under Inductors,” in IEEE SOI-3D-Subthreshold Microelectronics, 2018.

[52] M. W. Hussain, H. Elahipanah, S. Rodriguez, B. G. Malm, and A. Rusu, “Silicon Carbide BJT Oscillator Design Using S-Parameters,” in 12th European Conference on Silicon Carbide and Related Materials (ECSCRM), 2018.

[53] N. Ivanisevic, S. Rodriguez, and A. Rusu, “Impedance Spectroscopy Systems: Review and an All-Digital Adaptive IIR Filtering Approach,” in Proc. IEEE Biomedical Circuits & Systems Conference (BIOCAS), 2017.

[54] P. Chaourani, P. E. Hellstrom, S. Rodriguez, R. Onet, and A. Rusu, “Enabling area efficient RF ICs through monolithic 3D integration,” in Proc. of IEEE Automation and Test in Europe (DATE), 2017, pp. 610–613. doi: 10.23919/DATE.2017.7927059.

[55] S. Rodriguez, S. Ollmar, and A. Rusu, “An Implantable Bioimpedance Spectrometer,” in International Conference on Electrical Bio-Impedance (ICEBI), 2016.

[56] J. Katic, S. Rodriguez, and A. Rusu, “An Adaptive FET Sizing Technique for High Efficiency Thermoelectric Harvesters,” in Proc. IEEE International Conference on Electronics, Circuits, and Systems (ICECS), 2016.

[57] N. Ivanisevic, S. Rodriguez, and A. Rusu, “A 96.4 dB High-Pass Delta-Sigma Modulator with Dynamic Biasing and Tree-Structured DEM,” in IEEE Northeast Workshop on Circuits and Systems (NEWCAS), 2016.

[58] P. Chaourani, P.-E. Hellström, G. Malm, S. Rodriguez, and A. Rusu, “Towards Monolithic 3D Integration: A Design Flow,” in CDN Live, 2016.

[59] S. Rodriguez, A. Rusu, and J. M. de la Rosa, “Overview of Carbon-Based Circuits and Systems,” in IEEE International Symposium on Circuits and Systems (ISCAS), 2015.

[60] M. Iannazzo, V. Lo Muzzo, S. Rodriguez, A. Rusu, M. C. Lemme, and E. Alarcon, “Design exploration of graphene-FET based ring-oscillator circuits: A test-bench for large-signal compact-models,” in IEEE International Symposium on Circuits and Systems (ISCAS), 2015.

[61] A. D. Smith, S. Vaziri, S. Rodriguez, M. Ostling, and M. C. Lemme, “Wafer Scale Graphene Transfer for Back End of the Line Device Integration,” in Proc. IEEE International Conference on Ultimate Integration on Silicon (ULIS), 2014.

[62] S. Rodriguez, A. Smith, S. Vaziri, M. Östling, M. C. Lemme, and A. Rusu, “A Graphene FET Process Design KIT,” in Proc. CDN Live, 2014.

[63] J. Katic, S. Rodriguez, and A. Rusu, “Analysis of Dead Time Losses in Energy Harvesting Boost Converters for Implantable Biosensors,” in Proc. IEEE NORCHIP, 2014.

[64] T. Chen, S. Rodriguez, J. Åkerman, and A. Rusu, “An Inductorless Wideband Balun-LNA for Spin Torque Oscillator-Based Field Sensing,” in Proc. IEEE International Conference on Electronics, Circuits and Systems (ICECS), 2014, pp. 1–4.

[65] S. Tao, S. Rodriguez, and A. Rusu, “DAC Waveform Effects in CT Incremental ΣΔ ADCs for Biosensor Applications,” in Proc. IEEE North-East Workshop on Circuits and Systems (NEWCAS), 2013.

[66] J. Katic, S. Rodriguez, and A. Rusu, “An Efficient Boost Converter Control for Thermoelectric Energy Harvesting,” in Proc. IEEE International Conference on Electronics, Circuits, and Systems (ICECS), 2013.

[67] S. Tao, J. Garcia, S. Rodriguez, and A. Rusu, “Analysis of Exponentially Decaying Pulse Shape DACs in Continuous-Time Sigma-Delta Modulators,” in Proc. IEEE International Conference on Electronics, Circuits and Systems (ICECS), 2012, pp. 424–427.

[68] M. C. Lemme et al., “Graphene for More Moore and More Than Moore applications,” in Proc. IEEE Silicon nanoelectronics Workshop (SNW)(invited paper), 2012, pp. 1–3.

[69] T. Chen, S. Rodriguez, and A. Rusu, “Wideband amplifier design for magnetic tunnel junction based spin torque oscillators,” in Proc. GigaHertz Symposium, 2012.

[70] T. Chen, S. Rodriguez, E. Alarcon, and A. Rusu, “A 2 GHz - 8.7 GHz Wideband Balun-LNA with Noise Cancellation and Gain Boosting,” in Proc. IEEE Ph.D Research in Microelectronics and Electronics (PRIME), 2012.

[71] S. Tao, V. Manolopoulos, S. Rodriguez, M. Ismail, and A. Rusu, “Hybrid vehicle positioning and tracking using mobile phones,” in Proc. IEEE International Conference on ITS Telecommunications (ITST), 2011.

[72] S. Rodriguez and A. Rusu, “A 6.4mW, 1-3.5GHz Current-Mode Receiver Front End with Noise Cancellation,” in Proc. IEEE European Solid-State Circuits Conference (ESSCIRC), 2011, pp. 235–238.

[73] S. Rodriguez and A. Rusu, “A 65nm CMOS Current-Mode Receiver Front-End,” in Proc. of IEEE International Symposium on Circuits and Systems (ISCAS), 2011.

[74] M. Razzaghpour, S. Rodriguez, E. Alarcon, and A. Rusu, “A Highly-Accurate Low-Power CMOS Potentiostat for Implantable Biosensors,” in Proc. IEEE Biomedical Circuits & Systems Conference (BIOCAS), 2011, pp. 5–8.

[75] R. L. Grimaldi, S. Rodriguez, and A. Rusu, “A 10-Bit 5kHz Level-Crossing ADC,” in Proc. IEEE European Conference on Circuit Theory and Design (ECCTD), 2011.

[76] S. Tao, S. Rodriguez, and A. Rusu, “Vehicle Location using Wireless Wide Area Networks,” in Proc. of IEEE IFIP Wireless and Mobile Networking Conference (WMNC), 2010.

[77] S. Tao, S. Rodriguez, and A. Rusu, “UMTS Mobile Positioning Simulator for Vehicle Location,” in Proc. of IET International Conference on Wireless, Mobile & Multimedia Network (ICWMMN), 2010.

[78] S. Rodriguez, J. G. Atallah, A. Rusu, and M. Ismail, “A 2.3-GHZ to 5.8-GHZ CMOS Receiver Front-End for WIMAX/WLAN,” in Proc. IEEE International Conference on Electronics, Circuits, and Systems (ICECS), 2010, pp. 8–11.

[79] S. Rodriguez, S. Tao, A. Rusu, and M. Ismail, “An IIP2 Digital Calibration Technique for Passive CMOS Down-Converters,” in Proc. of IEEE International Symposium on Circuits and Systems (ISCAS), 2010, pp. 825–828.

[80] V. Manolopoulos, S. Tao, S. Rodriguez, and A. Rusu, “MobiTraS: A Mobile Application for a Smart Traffic System,” in Proc. IEEE International Northeast Workshop on Circuits and Systems (NEWCAS), 2010, pp. 1–4.

[81] V. Manolopoulos, S. Rodriguez, M. Ismail, and A. Rusu, “Security and Privacy Issues in a GPS-enabled Mobile Application for Smart Traffic,” in Proc. of Smart Mobility Conference, 2010.

[82] S. Tao, S. Rodriguez, A. Rusu, and M. Ismail, “Device Modelling for 60 GHz Radio Front-ends,” in Proc. of IEEE NORCHIP, 2009, pp. 1–4.

[83] A. Rusu, A. Leonida, J. Garcia, S. Rodriguez, and M. Ismail, “A Continuous-Time Complex Bandpass Sigma-Delta ADC for Software Defined Radio,” in Proc. of Software Defined Radio Forum Conference (SDR), 2009.

[84] S. Rodriguez, A. Rusu, and M. Ismail, “4G CMOS Nanometer Receiver for Mobile Systems: Challenges and Solutions,” in Proc. of IEEE International Symposium on Signals, Circuits and Systems (ISSCS), 2009, pp. 73–76.

[85] S. Rodriguez, A. Rusu, and M. Ismail, “WiMAX/LTE Receiver Front-End in 90nm CMOS,” in Proc. IEEE International Symposium on Circuits and Systems (ISCAS), 2009, pp. 1036–1039. [Online]. Available: http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=5117936

[86] H. Rabén, S. Rodriguez, A. Rusu, and M. Ismail, “A 4.5 GHz Receiver Front-End in 90nm CMOS,” in Proc. of CDNLive EMEA, 2009.

[87] A. Morici, S. Rodriguez, A. Rusu, M. Ismail, and C. Turchetti, “A 3.6mW 90nm CMOS 2.4GHz Receiver Front-End Design for IEEE 802.15.4 WSNs,” in Proc. IEEE International Symposium on Signals, Circuits and Systems (ISSCS), 2009, pp. 1–4.

[88] L. Zheng, S. Rodriguez, S. Zhang, B. Shao, and L.-R. Zheng, “Design and implementation of a fully reconfigurable chipless RFID tag using Inkjet printing technology,” in Proc. of IEEE International Symposium on Circuits and Systems, (ISCAS), 2008, pp. 1524–1527.

[89] S. B. Sleiman, J. G. Atallah, S. Rodriguez, A. Rusu, and M. Ismail, “Wide-division-range high-speed fully programmable frequency divider,” in Proc. of IEEE North-East Workshop on Circuits and Systems (NEWCAS), 2008, pp. 17–20.

[90] S. Rodriguez, A. Rusu, L.-R. Zheng, and M. Ismail, “A Novel BiST and Calibration Technique for CMOS Down-Converters,” in Proc. of IEEE International Conference on Circuits and Systems for Communications (ICCSC), 2008, pp. 828–832.

[91] S. Rodriguez, A. Rusu, L.-R. Zheng, and M. Ismail, “Digital calibration of gain and linearity in a CMOS RF mixer,” in Proc. of IEEE International Symposium on Circuits and Systems (ISCAS), 2008, pp. 1288–1291.

[92] D. Ayadi, S. Rodriguez, M. Loulou, and M. Ismail, “System level design of radio frequency receiver for IEEE 802.16 standard,” in Proc. of IEEE International Design and Test Workshop (IDT), 2008, pp. 82–86.

[93] A. Akour, S. Rodriguez, and M. Ismail, “Digital-Self calibration of CMOS Mixers,” in Proc. of Software Defined Radio Forum Conference (SDR), 2008.

[94] S. Rodriguez, J. G. Atallah, L.-R. Zheng, and M. Ismail, “ARCHER: An Automated RF-IC Rx Front-End Circuit Design Tool,” in Proc. of IEEE International Symposium on Signals, Circuits and Systems (ISSCS), 2007, pp. 1–4.

[95] J. G. Atallah, S. Rodriguez, L.-R. Zheng, and M. Ismail, “A Direct Conversion WiMAX RF Receiver Front-End in CMOS Technology,” in Proc. of IEEE International Symposium on Signals, Circuits and Systems (ISSCS), 2007, pp. 1–4.

[96] L.-R. Zheng, M. B. Nejad, S. Rodriguez, L. Zhang, C. Chen, and H. Tenhunen, “System-on-flexible-substrates: electronics for future smart-intelligent world,” in Proc. of IEEE Conference on High Density Microsystem Design and Packaging and Component Failure Analysis, 2006, pp. 29–36.

[97] L.-R. Zheng, X. Duo, M. B. Nejad, S. Rodriguez, M. Ismail, and H. Tenhunen, “On-Chip versus Off-Chip Passives in Radio and Mixed-Signal System-on-Package Design,” in Proc. of IEEE Conference on Electronics System integration Technology, 2006, pp. 221–232.

[98] L. Zhang, S. Rodriguez, H. Tenhunen, and L.-R. Zheng, “An innovative fully printable RFID technology based on high speed time-domain reflections,” in Proc. of IEEE Conference on High Density Microsystem Design and Packaging and Component Failure Analysis, 2006.

[99] S. Rodriguez, L.-R. Zheng, and M. Ismail, “Analysis of Wideband CMOS Low Noise Amplifiers using current-reuse configuration,” in Proc. IEEE International Conference on Electronics, Circuits and Systems (ICECS), 2006, pp. 62–65.

[100] S. R. Duenas, D. Xinzhong, S. Yamac, M. Ismail, and L. R. Zheng, “CMOS UWB IR Non-Coherent Receiver for RF-ID Applications,” in Proc. of IEEE North-East Workshop on Circuits and Systems (NEWCAS), 2006, pp. 213–216.

Non-reviewed Conference proceedings

[101] S. Tao, J. Garcia, S. Rodriguez, and A. Rusu, “Impact of Feedback DAC Timing Errors in Continuous-Time Incremental Sigma-Delta ADCs,” in Proc. of Swedish System-on-Chip conference (SSoCC), 2014.

[102] S. Rodriguez, L.-R. Zheng, and M. Ismail, “CMOS Wideband LNA for WiMAX/WLAN,” in Proc. of Swedish System-on-Chip conference (SSoCC), 2006, pp. 1–4.

[103] S. Rodriguez, L.-R. Zheng, and M. Ismail, “System Design of a Direct Sequence UWB Impulse Transceiver,” in Proc. of Swedish System-on-Chip conference (SSoCC), 2005, pp. 1–4.