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ORCIDWilhelmus A. M. Van Noije
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2020 – today
- 2024
[j13]Suzian Mahéli R. Santos
, Tailize C. De-Oliveira, Alessandro Girardi, Paulo César Comassetto de Aguirre, Wilhelmus A. M. Van Noije, Lucas Compassi Severo:
A Negative Resistance-Based ULV Variable-Gain OTA for Low-Power Applications. IEEE Trans. Circuits Syst. II Express Briefs 71(1): 86-90 (2024)- [j12]Lucas Compassi Severo, Tailize C. De-Oliveira, Paulo César Comassetto de Aguirre, Wilhelmus A. M. Van Noije, Alessandro Gonçalves Girardi:
Variable Conversion Approach for Design Optimization of Low-Voltage Low-Pass Filters. IEEE Trans. Very Large Scale Integr. Syst. 32(2): 205-218 (2024) - [c54]Rafael Maria, Bruno Sanches, Wilhelmus A. M. Van Noije:
An Area Optimized Power Amplifier for UWB Medical Applications in 65 nm CMOS Technology. MWSCAS 2024: 660-664 - 2023
- [j11]Alexandre de Jesus Aragão, Dionisio Carvalho, Bruno Sanches, Wilhelmus A. M. Van Noije:
Low-cost device for breast cancer screening: A dry setup IR-UWB proposal. Biomed. Signal Process. Control. 79(Part): 104078 (2023) - [c53]Lucas Martins M. De Almeida, Bruno Sanches, Wilhelmus Adrianus Maria Van Noije:
High-Speed Sampler for UWB Breast Cancer Detection System. LASCAS 2023: 1-4 - 2022
- [c52]Leonardo Rodrigues Leopoldo, Wilhelmus A. M. Van Noije:
Low Noise Broadband Amplifier for Breast Cancer System. SBCCI 2022: 1-5 - 2021
- [j10]Dionisio Carvalho, Alexandre J. Aragão, Bruno Sanches, Hugo Daniel Hernández, Wilhelmus A. M. Van Noije:
Experimental evaluation of a Software-Defined Radio through a Breast Phantom aiming at Microwave Medical Imaging. Microprocess. Microsystems 87: 104381 (2021) - [j9]Bruno Sanches, Wilhelmus A. M. Van Noije:
An Optimized Radiation Tolerant Baseline Correction Filter for HEP Using AI Methodologies. IEEE Trans. Circuits Syst. I Regul. Pap. 68(5): 1789-1799 (2021) - [c51]Tarciso A. Martins, David Reyes, Bruno Sanches, Wilhelmus A. M. Van Noije:
A Class AB Programmable Gain Amplifier for an UWB Breast Cancer Detection System. ICECS 2021: 1-4 - [c50]Hugo Daniel Hernández, Diego Augusto Pontes, Tarciso A. Martins, David Reyes, Wilhelmus A. M. Van Noije:
ISFET Array Readout System with Integrated 12 bit A/D Conversion for Lab-on-Chip Applications. LASCAS 2021: 1-4 - [c49]David Ponce, Alexandre de Jesus Aragão, Bruno Sanches, Wilhelmus A. M. Van Noije:
Assessment of key parameters in a microwave imaging system design for breast cancer detection. LASCAS 2021: 1-4 - [c48]Hugo D. Hernandez, Diego Augusto Pontes, Bruno Soares, Dionisio de Carvalho, Wilhelmus A. M. Van Noije:
Dual-Band GSM Energy Harvester for a Duty-Cycle Approach in 180nm CMOS Technology. SoCC 2021: 29-33 - 2020
- [j8]Hugo Daniel Hernández, Bruno Sanches, Dionisio Carvalho, Marco Bregant, Armando Ayala Pabón, Ronaldo Wilton da Silva, Raul Acosta Hernandez, Tiago Oliveira Weber, Andre Luis do Couto, Arthur Campos, Heiner Alarcon Cubas, Tarciso A. Martins, Marcelo Munhoz, Wilhelmus A. M. Van Noije:
A Monolithic 32-Channel Front End and DSP ASIC for Gaseous Detectors. IEEE Trans. Instrum. Meas. 69(6): 2686-2697 (2020) - [c47]Alexandre de Jesus Aragão, Bruno Sanches, Dionisio de Carvalho, Wilhelmus A. M. Van Noije:
Low-cost portable system prototype for breast cancer detection using UWB signals. CISP-BMEI 2020: 715-720 - [c46]Thiago Alves Mendes do Amaral, Hugo Daniel Hernández, Wilhelmus A. M. Van Noije:
Digital-LDO Switched Capacitors based for 0.5V applications. ICM 2020: 1-4 - [c45]Alexandre de Jesus Aragão, Dionisio de Carvalho, Bruno Sanches, Wilhelmus A. M. Van Noije:
An improved confocal algorithm for breast cancer detection using UWB signals. LASCAS 2020: 1-4 - [c44]Bruno Sanches, Wilhelmus A. M. Van Noije:
A Radiation Tolerant Baseline Correction Filter for Front-ends in High Energy Physics Experiments. LASCAS 2020: 1-4 - [c43]David Reyes, Tarciso A. Martins, Hugo Daniel Hernández, Wilhelmus A. M. Van Noije:
A 10.75-ENOB 20 MS/s SAR ADC for an UWB Transceiver Applied in Breast Cancer Detection in 180 nm CMOS. MWSCAS 2020: 357-360 - [c42]Dionisio Carvalho, Alexandre J. Aragão, André Ferrari, Bruno Sanches, Wilhelmus A. M. Van Noije:
Software-Defined Radio Assessment for Microwave Imaging Breast Cancer Detection. NorCAS 2020: 1-6 - [c41]Nágila Ribeiro de Menezes, Hugo Daniel Hernández, Dionisio Carvalho, Wilhelmus A. M. Van Noije:
All-digital FPGA-based RF pulsed transmitter with hardware complexity reduction techniques. SBCCI 2020: 1-5
2010 – 2019
- 2019
- [j7]Lucas C. Severo, Wilhelmus A. M. Van Noije:
A 0.4-V 10.9- $\mu$ W/Pole Third-Order Complex BPF for Low Energy RF Receivers. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(6): 2017-2026 (2019) - [c40]Daniele Santana, Hugo Daniel Hernández, Wilhelmus A. M. Van Noije:
A 1.8V 9bit 10MS/s SAR ADC in 0.18µm CMOS for bioimpedance analysis. LASCAS 2019: 53-56 - 2018
- [c39]Lucas C. Severo, Wilhelmus A. M. Van Noije:
A 10.9-μW/pole 0.4-V active-RC complex BPF for Bluetooth low energy RF receivers. LASCAS 2018: 1-4 - [c38]Dionisio de Carvalho, Bruno Sanches, M. De Carvalho, Wilhelmus A. M. Van Noije:
A flexible stand-alone FPGA-based ATE for ASIC manufacturing tests. LATS 2018: 1-6 - [c37]Tarciso A. Martins, Julio Saldana, Wilhelmus A. M. Van Noije:
A Programmable Gain Amplifier for Load Demodulation Channel in an NFC Reader Chip. SBCCI 2018: 1-6 - [c36]Hugo Daniel Hernández, Lucas C. Severo, Wilhelmus A. M. Van Noije:
0.5V 1OMS/S 9-Bits Asynchronous SAR ADC for BLE Receivers in L80NM CMOS Technology. SoCC 2018: 1-4 - 2017
- [c35]Hugo Daniel Hernández, Dionisio Carvalho, Bruno Sanches, Lucas C. Severo, Wilhelmus A. M. Van Noije:
Current mode 1.2-Gbps SLVS transceiver for readout front-end ASIC. ISCAS 2017: 1-4 - 2016
- [c34]Edwin G. Carreno, Christian D. Hernandez, Oscar M. Diaz, Héctor Gómez, Carlos Fajardo, Hugo Daniel Hernández, Wilhelmus A. M. Van Noije, Elkim Roa:
A 3.9 compression-ratio Huffman encoding scheme for the large ion collider on 65nm and 130nm CMOS technologies. LASCAS 2016: 347-350 - 2015
- [c33]Hugo Daniel Hernández, Wilhelmus A. M. Van Noije, Marcelo Munhoz:
Configurable low noise readout front-end for gaseous detectors in 130nm CMOS technology. ISCAS 2015: 1058-1061 - [c32]Hugo Daniel Hernández, Wilhelmus A. M. Van Noije, Marcelo Munhoz:
Configurable low noise readout front-end for gaseous detectors in 130nm CMOS technology. LASCAS 2015: 1-4 - [c31]Jose Alejandro Amaya Palacio, Wilhelmus Adrianus Maria Van Noije:
High Stability Voltage Controlled Current Source for Cervical Cancer Detection using Electrical Impedance Spectroscopy. LASCAS 2015: 1-4 - 2013
- [c30]Hugo Daniel Hernández, Sergio Takeo Kofuji, Wilhelmus A. M. Van Noije:
Fully integrated boost converter for thermoelectric energy harvesting. LASCAS 2013: 1-3 - [c29]Luiz Carlos Moreira, Jose Fontebasso Neto, Wilhelmus A. M. Van Noije, Emmanuel Torres-Rios:
Inductorless very small 2nd derivative Gaussian IRUWB transmitter module using n/p-latches as PDs in CMOS technology. LASCAS 2013: 1-4 - [c28]Emmanuel Torres-Rios, Svetlana Carsof Sejas Garcia, Luiz Carlos Moreira, Reydezel Torres-Torres, Wilhelmus A. M. Van Noije:
Analysis of the effects of coupling through substrate and the calculus of the Q factor. LASCAS 2013: 1-4 - [c27]Tiago Oliveira Weber, Sergio Chaparro, Wilhelmus A. M. Van Noije:
Synthesis of a narrow-band Low Noise Amplifier in a 180 nm CMOS technology using Simulated Annealing with crossover operator. SBCCI 2013: 1-5 - 2012
- [j6]Wilmar Carvajal Ossa, Wilhelmus A. M. Van Noije:
An Optimization-Based Reconfigurable Design for a 6-Bit 11-MHz Parallel Pipeline ADC with Double-Sampling S&H. Int. J. Reconfigurable Comput. 2012: 786205:1-786205:17 (2012) - [c26]Hugo Daniel Hernández, Jonathan Scott, Wilhelmus A. M. Van Noije:
DPA insensitive voltage regulator for contact smart cards. SBCCI 2012: 1-4 - 2011
- [c25]Marcelo Macchi da Silva, Jacobus W. Swart, Luiz Carlos Moreira, Wilhelmus A. M. Van Noije:
Current-mode motion detector sensor using copier cell in CMOS technology. ICECS 2011: 480-483 - [c24]Wilmar Carvajal Ossa, Wilhelmus A. M. Van Noije:
Time-interleaved pipeline ADC design: a reconfigurable approach supported by optimization. SBCCI 2011: 17-22 - [c23]Tiago Oliveira Weber, Wilhelmus A. M. Van Noije:
Analog design synthesis method using simulated annealing and particle swarm optimization. SBCCI 2011: 85-90 - 2010
- [c22]Jorge Johanny Sáenz Noval, Elkim Felipe Roa Fuentes, Armando Ayala Pabón, Wilhelmus A. M. Van Noije:
A methodology to improve yield in analog circuits by using geometric programming. SBCCI 2010: 140-145
2000 – 2009
- 2009
- [c21]Juan José Carrillo, Elkim Roa, José Vieira, Wilhelmus A. M. Van Noije:
A low-voltage bandgap reference source based on the current-mode technique. SBCCI 2009 - [c20]Sergio Chaparro, Armando Ayala Pabón, Elkim Roa, Wilhelmus A. M. Van Noije:
A merged RF CMOS LNA-Mixer design using geometric programming. SBCCI 2009 - [c19]Luiz Carlos Moreira, Wilhelmus A. M. Van Noije, Armando Ayala Pabón, Andrés Farfán-Peláez:
Comparison of small cross inductors and rectangular inductors designed in 0.35um CMOS technology. SBCCI 2009 - 2008
- [c18]Juan Mateus, Elkim Roa, Hugo Daniel Hernández, Wilhelmus A. M. Van Noije:
A 2.7ua sub1-v voltage reference. SBCCI 2008: 81-84 - [c17]Jorge Oliveros, Dwight Cabrera, Elkim Roa, Wilhelmus A. M. Van Noije:
An improved and automated design tool for the optimization of CMOS OTAs using geometric programming. SBCCI 2008: 146-151 - 2007
- [c16]Fernando P. H. de Miranda, João Navarro Jr., Wilhelmus A. M. Van Noije:
A 4.1 GHz Dual Modulus Prescaler Using the E-TSPC Technique and Double Data Throughput Structures. ISCAS 2007: 1895-1898 - [c15]Hugo Daniel Hernández, Wilhelmus A. M. Van Noije, Elkim Roa, João Navarro Jr.:
A small area 8bits 50MHz CMOS DAC for bluetooth transmitter. SBCCI 2007: 10-15 - [c14]Fernando P. H. de Miranda, João Navarro Jr., Wilhelmus A. M. Van Noije:
A 4.1 GHz prescaler using double data throughput E-TSPC structures. SBCCI 2007: 123-127 - 2006
- [c13]Alexandre J. Aragão, João Navarro Jr., Wilhelmus A. M. Van Noije:
Mismatch effect analyses in CMOS tapered buffers. ISCAS 2006 - [c12]Luis Henrique de Carvalho Ferreira, Tales Cleber Pimenta, Robson L. Moreno, Wilhelmus A. M. Van Noije:
Ultra low-voltage ultra low-power CMOS threshold voltage reference. SBCCI 2006: 80-82 - 2005
- [c11]Angel M. Gómez Argüello, João Navarro Jr., Wilhelmus A. M. Van Noije:
A 3.5 mW programmable high speed frequency divider for a 2.4 GHz CMOS frequency synthesizer. SBCCI 2005: 144-148 - 2004
- [c10]Fernando P. H. de Miranda, João Navarro Jr., Wilhelmus A. M. Van Noije:
A 4 GHz dual modulus divider-by 32/33 prescaler in 0.35m CMOS technology. SBCCI 2004: 94-99 - 2003
- [c9]Elkim Roa, Joao Navarro Soares, Wilhelmus A. M. Van Noije:
A Methodology for CMOS Low Noise Ampli.er Design. SBCCI 2003: 14-19 - 2002
- [j5]João Navarro Jr., Wilhelmus A. M. Van Noije:
Extended TSPC structures with double input/output data throughput for gigahertz CMOS circuit design. IEEE Trans. Very Large Scale Integr. Syst. 10(3): 301-308 (2002) - 2001
- [j4]Augusto Ken Morita, Marcio Toma, Wilhelmus A. M. Van Noije:
Implementação de Um Sistema de Decriptografia para Controle Bancário em Hardware tipo FPGA. RITA 8(1): 63-81 (2001) - 2000
- [c8]Marco Antonio Dal Poz, Jose Edinson Aedo Cobo, Wilhelmus A. M. Van Noije, Marcelo Knörich Zuffo:
A Simple RISC Microprocessor Core Designed for Digital Set-Top-Box Applications. ASAP 2000: 35- - [c7]Reinaldo Silveira, Wilhelmus A. M. Van Noije:
Modeling an E1/TU12 Mapper for SDH Systems. SBCCI 2000: 171-176 - [c6]Gustavo Adolfo Cerezo Vasquez, Wilhelmus A. M. Van Noije, Silvio E. Barbin:
Prototyping a Pager-Like Device Using FPGAs: Design of an Object Finder. SBCCI 2000: 191-196 - [c5]Joao Navarro Soares, Wilhelmus A. M. Van Noije:
The Use of Extended TSPC CMOS Structures to Build Circuits with Doubled Input/Output Data Throughput. SBCCI 2000: 228-236
1990 – 1999
- 1999
- [j3]Joao Navarro Soares, Wilhelmus A. M. Van Noije:
A 1.6-GHz dual modulus prescaler using the extended true-single-phase-clock CMOS circuit technique (E-TSPC). IEEE J. Solid State Circuits 34(1): 97-102 (1999) - 1998
- [c4]João Navarro Jr., Wilhelmus A. M. Van Noije:
CMOS Tapered Buffer Design for Small Width Clock/Data Signal Propagation. Great Lakes Symposium on VLSI 1998: 89-94 - [c3]João Navarro Jr., Wilhelmus A. M. Van Noije:
Design of an 8: 1 MUX at 1.7Gbit/s in 0.8µm CMOS Technology. Great Lakes Symposium on VLSI 1998: 103-107 - [c2]Jose Edinson Aedo Cobo, Wilhelmus A. M. Van Noije:
VHDL Models for High Level Synthesis of Fuzzy Logic Controllers. SBCCI 1998: 108-111 - 1997
- [c1]João Navarro Jr., Reinaldo Silveira, Fábio L. Romao, Wilhelmus A. M. Van Noije:
A 1.4 Gbit/s CMOS driver for 50 Ω ECL systems. Great Lakes Symposium on VLSI 1997: 14- - 1995
- [j2]Wilhelmus A. M. Van Noije, W. T. Liu, João Navarro Jr.:
Precise final state determination of mismatched CMOS latches. IEEE J. Solid State Circuits 30(5): 607-611 (1995) - 1994
- [j1]C. Thomas Gray, Wentai Liu, Wilhelmus A. M. Van Noije, Thomas A. Hughes, Ralph K. Cavin III:
A sampling technique and its CMOS implementation with 1 Gb/s bandwidth and 25 ps resolution. IEEE J. Solid State Circuits 29(3): 340-349 (1994)
Coauthor Index
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