ARTICLE IN ACADEMIC JOURNALS
NO | DETAILS OF ARTICLE IN ACADEMIC JOURNALS |
---|---|
1. |
CMOS High Swing and Q Boosted Dual Core Voltage Controlled Oscillator for 5G New Radio Application
2023
Author(s) : Narendra Kumar A/l Aridas Source : APPLIED COMPUTATIONAL ELECTROMAGNETICS SOCIETY JOURNAL DOI : 10.13052/2023.ACES.J.380610 |
2. |
CMOS Radio Frequency Energy Harvester (RFEH) with Fully On-Chip Tunable Voltage-Booster for Wideband Sensitivity Enhancement
2023
Author(s) : Narendra Kumar A/l Aridas Source : MICROMACHINES DOI : 10.3390/mi14020392 |
3. |
A 27-dBm, 0.92-GHz CMOS Power Amplifier With Mode Switching and a High-Q Compact Inductor (HQCI) Achieving a 30 Back-Off PAE
2023
Author(s) : Narendra Kumar A/l Aridas Source : IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS DOI : 10.1109/TCSII.2022.3201670 |
4. |
A 53-mu A-Quiescent 400-mA Load Demultiplexer Based CMOS Multi-Voltage Domain Low Dropout Regulator for RF Energy Harvester
2023
Author(s) : Narendra Kumar A/l Aridas Source : MICROMACHINES DOI : 10.3390/mi14020379 |
5. |
A Wide-Bandwidth PVT-Reconfigurable CMOS Power Amplifier with an Integrated Tunable-Output Impedance Matching Network
2023
Author(s) : Narendra Kumar A/l Aridas Source : MICROMACHINES DOI : 10.3390/mi14030530 |
6. |
A Systematic Approach of Generalized Reactance Compensation Technique in Wideband Class-E Power Amplifier for Lower High Frequency (HF) Bands
2023
Author(s) : Narendra Kumar A/l Aridas Source : IEEE ACCESS DOI : 10.1109/ACCESS.2023.3297877 |
7. |
A 54 μW CMOS Auto-Trimming Bandgap References (ATBGR) Achieving 90 dB PSRR for Artificial Intelligence of Things (AIoT) Chips
2023
Author(s) : Narendra Kumar A/l Aridas Source : MICROMACHINES DOI : 10.3390/mi14091724 |
8. |
A State-of-the-Art Review on CMOS Radio Frequency Power Amplifiers for Wireless Communication Systems
2023
Author(s) : Narendra Kumar A/l Aridas Source : MICROMACHINES DOI : 10.3390/mi14081551 |
9. |
A 40% PAE and 34dBm Peak OIP3 CMOS Power Amplifier with Integrated Zero Power Consumption Phase Linearizer
2023
Author(s) : Narendra Kumar A/l Aridas Source : JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS DOI : 10.1142/S021812662350189X |
10. |
Design of Wireless Sensor Network for Agricultural Greenhouse Based on Improved Zigbee Protocol
2023
Source : AGRICULTURE-BASEL DOI : 10.3390/agriculture13081518 |
11. |
A 919 MHz-923 MHz, 21 dBm CMOS Power Amplifier With Bias Modulation Linearization Technique Achieving PAE of 29% for LoRa Application
2022
Author(s) : Narendra Kumar A/l Aridas Source : IEEE ACCESS DOI : 10.1109/ACCESS.2022.3193689 |
12. |
Nearfield radio link of normal mode helical antenna for wireless capsule endoscopy
2022
Author(s) : Tarik Bin Abdul Latef,Narendra Kumar A/l Aridas Source : JOURNAL OF ELECTROMAGNETIC WAVES AND APPLICATIONS DOI : 10.1080/09205071.2022.2104658 |
13. |
A fully matched dual stage CMOS power amplifier with integrated passive linearizer attaining 23 db gain, 40% PAE and 28 DBM OIP3
2021
Author(s) : Narendra Kumar A/l Aridas Source : MICROELECTRONICS INTERNATIONAL DOI : 10.1108/MI-01-2021-0008 |
14. |
A 23.3 dBm CMOS power amplifier with third-order gm cancellation linearization technique achieving OIP3 of 34 dBm
2021
Author(s) : Narendra Kumar A/l Aridas Source : CIRCUIT WORLD |
15. |
A DUAL STAGE CMOS POWER AMPLIFIER WITH INTEGRATED PASSIVE LINEARIZER ATTAINING 23dB GAIN, 40% PAE AND 28 dBm OIP3
2021
Author(s) : Narendra Kumar A/l Aridas Source : MICROELECTRONICS INTERNATIONAL |
16. |
The Advancement of Radio Frequency Energy Harvesters (RFEHs) As a Revolutionary Approach for Solving Energy Crisis in Wireless Communication Devices: A Review
2021
Author(s) : Narendra Kumar A/l Aridas Source : IEEE ACCESS |
17. |
A 23.3 dBm CMOS Power Amplifier with Third Order gm Cancellation Linearization Technique Achieving OIP3 of 34 dBm
2020
Author(s) : Narendra Kumar A/l Aridas Source : Circuit World |
18. |
Increase of Input Resistance of a Normal-ModeHelical Antenna (NMHA) in Human Body Application
2020
Author(s) : Narendra Kumar A/l Aridas Source : Sensors |
19. |
Broadband RF Power Amplifier with Combination of Large Signal X-Parameter and Real Frequency Techniques
2020
Source : IEICE TRANSACTIONS ON ELECTRONICS |
20. |
Design of YIG Tuned Oscillator based SiGe HBT with Real Frequency Technique
2020
Author(s) : Narendra Kumar A/l Aridas Source : IEEE Microwave Wireless Component Letters |
21. |
Design of a high-gain silicon BJT and an E-pHEMT hybrid matrix amplifier with an optimum filter-matching technique
2019
Author(s) : Narendra Kumar A/l Aridas Source : IET MICROWAVES ANTENNAS PROPAGATION |
22. |
Broadband RF Power Amplifier with Combination of Large Signal X-Parameter and Real Frequency Techniques
2019
Author(s) : Narendra Kumar A/l Aridas Source : IEICE Transactions on Electronics DOI : doi.org/10.1587/transele.2019ECP5036 |
23. |
Plos One
2019
Author(s) : Narendra Kumar A/l Aridas Source : A Low-loss and Compact Single-layer Butler Matrix for a 5G Base Station Antenna |
24. |
Design and Characterization of a Compact Single-layer Multibeam Array Antenna using an 8 8 Butler Matrix for 5G Base Station Applications
2019
Author(s) : Narendra Kumar A/l Aridas Source : Turkish Journal of Electrical and Computer Sciences DOI : 10.3906/elk |
25. |
Design of a high-gain silicon BJT and an EpHEMT hybrid matrix amplifier with an optimum filter-matching techniqu
2019
Author(s) : Narendra Kumar A/l Aridas Source : IET Microwave, Antennas & Propagation |
26. |
A 5.1-to-7.3 mW, 2.4-to-5 GHz Class-C Mode-Switching Single-Ended-Complementary VCO Achieving > 190 dBc/Hz FoM
2019
Author(s) : Harikrishnan A/l Ramiah,Narendra Kumar A/l Aridas Source : IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS |
27. |
A 5.1-to-7.3 mW, 2.4-to-5 GHz Class-C Mode-Switching Single-Ended-Complementary VCO Achieving >190 dBc/Hz FoM
2018
Source : IEEE Transactions on Circuits and Systems II: Express Briefs DOI : 10.1109/TCSII.2018.2848301 |
28. |
Broadband GaN HEMT Distributed Power Amplifier Design with Phase Adjustment
2018
Author(s) : Tarik Bin Abdul Latef,Narendra Kumar A/l Aridas Source : Microwave Optical Technology Letters DOI : 10.1002/mop.30950 |
29. |
A High-Efficiency Ultra-Broadband Mixed-Mode GaN HEMT Power Amplifier
2018
Author(s) : Harikrishnan A/l Ramiah,Narendra Kumar A/l Aridas Source : IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS |
30. |
A high gain 10 watts wideband distributed power amplifier for two way radio system
2018
Author(s) : Narendra Kumar A/l Aridas Source : MICROELECTRONICS INTERNATIONAL |
31. |
A High-Efficiency Ultra-Broadband Mixed-Mode GaN HEMT Power Amplifier
2018
Source : IEEE Transactions on Circuits and Systems II: Express Briefs DOI : doi:10.1109/TCSII.2018.2809491 |
32. |
An Integrated Linearization Technique for GaAs Bipolar WCDMA Power Amplifier
2018
Author(s) : Harikrishnan A/l Ramiah,Narendra Kumar A/l Aridas Source : Current Science |
33. |
Distributed Power Amplifier with Novel Integration Technique of Broadband Impedance Transformer using pHEMT and GaN HEMT
2017
Author(s) : Narendra Kumar A/l Aridas Source : IET Microwave, Antennas & Propagation DOI : 10.1049/iet-map.2016.0934 |
34. |
Efficiency Enhancement of Wireless Power Transfer with Optimum Coupling Mechanism for Mid-Range Operation
2017
Author(s) : Harikrishnan A/l Ramiah,Narendra Kumar A/l Aridas Source : Journal of Electrical Engineering & Technology |
35. |
Ultra-wideband GaN HEMT power amplifier with practical mixed lumped approach employing real-frequency technique
2017
Author(s) : Narendra Kumar A/l Aridas Source : IEICE Electronics Express DOI : https://doi.org/10.1587/elex.14.20170455 |
36. |
A New Technique to Characterize Transient Behavioral of Multistage RF Power Amplifier for Two-way Radio Applications
2017
Author(s) : Narendra Kumar A/l Aridas Source : IET Circuits, Devices and Systems DOI : 10.1049/iet-cds.2016.0372 |
37. |
A High Gain 10 Watts Wideband Distributed Power Amplifier for Two Way Radio System
2017
Author(s) : Narendra Kumar A/l Aridas Source : Microelectronics International |
38. |
High-efficiency resonant coupled wireless power transfer via tunable impedance matching
2017
Author(s) : Narendra Kumar A/l Aridas Source : International Journal of Eletronics DOI : 10.1080/00207217.2017.1312711 |
39. |
High Efficiency Resonant Coupled Wireless Power Transfer via Tunable Impedance Matching
2016
Author(s) : Ahmed Wasif Reza,Narendra Kumar A/l Aridas Source : International Journal of Electronics |
40. |
Computer Aided Darlington Synthesis of All Purpose Immitance Function
2016
Author(s) : Narendra Kumar A/l Aridas Source : Istanbul University - Electrical & Electronics Engineering |
41. |
Journal of Computer Science & Computational Mathematics
2016
Author(s) : Narendra Kumar A/l Aridas Source : Journal of Computer Science & Computational Mathematics DOI : 10.20967/jcscm.2016.04.002 |
42. |
Wireless Powering by Magnetic Resonant Coupling: Recent Trends in Wireless Power Transfer System and its Applications
2015
Author(s) : Narendra Kumar A/l Aridas Source : Renewable Sustainable Energy Reviews DOI : http://dx.doi.org/10.1016/j.rse |
43. |
A Novel Design of Circular Edge Bow-Tie Nano Antenna for Energy Harvesting
2015
Author(s) : Narendra Kumar A/l Aridas Source : Frequenz |
44. |
Two-side Impedance Matching for Maximum Wireless Power TransmissionNovember 2015.
2015
Author(s) : Narendra Kumar A/l Aridas Source : Iete Journal of Research DOI : http://dx.doi.org/10.1080/03772 |
45. |
Broadband High Performance Laterally Diffused Metal- Oxide Semiconductor Power Amplifier for Mobile Two- Way Radio Applications
2015
Author(s) : Narendra Kumar A/l Aridas Source : Iet Circuits Devices Systems |
46. |
A Design Technique to Improve Harmonic Suppression in High Efficiency Wideband Class E RF Power Amplifier
2014
Author(s) : Narendra Kumar A/l Aridas Source : IEICE Elec. Express |
47. |
Novel Wideband UHF Power Amplifier with Real-Frequency Technique for Two-Way Radio Applications
2014
Author(s) : Narendra Kumar A/l Aridas Source : Iet Circuits Devices Systems |
48. |
High Precision Synthesis of a Richard Immitance via Parametric Approach
2014
Author(s) : Narendra Kumar A/l Aridas Source : IEEE Transactions Circuit and Systems - 1 |
49. |
Optimized High-Efficiency Class E RF Power Amplifier for Wide Bandwidth and High Harmonics Suppression
2014
Source : IET Circuits, Devices and Systems |
50. |
Dual Fed Distributed Power Amplifier with Controlled Termination Adjustment
2013
Author(s) : Narendra Kumar A/l Aridas |
51. |
pHEMT Distributed Power Amplifier Adopting Broadband Impedance Transformer
2013
Author(s) : Narendra Kumar A/l Aridas Source : Microwave Journal |
52. |
Vectorially Combined Distributed Power Amplifiers for Software-Defined Radio Applications
2012
Author(s) : Narendra Kumar A/l Aridas |
53. |
A Compact Broadband Nonsynchronous Noncommensurate Impedance Transformer
2012
Author(s) : Narendra Kumar A/l Aridas Source : Microwave and Optical Technology Letters |
54. |
An extended Topology of Parallel-Circuit Class E Power Amplifier to account for Larger Output Capacitances
2011
Author(s) : Narendra Kumar A/l Aridas |
55. |
Vectorially Combined Distributed Power Amplifier with Load Pull Determination
2010
Author(s) : Narendra Kumar A/l Aridas Source : Electronics Letters |
56. |
Parametric oscillations in Distributed Power Amplifiers
2009
Author(s) : Narendra Kumar A/l Aridas Source : Electronics Letters |
57. |
A High Linearity and Efficiency UHF RF Power Amplifier with Cartesian Feedback for Digital Modulation
2008
Author(s) : Narendra Kumar A/l Aridas Source : Microwave Journal |
58. |
High Efficiency Broadband Parallel-Circuit Class E RF Power Amplifier with Reactance Compensation Technique
2008
Author(s) : Narendra Kumar A/l Aridas Source : IEEE Transactions Microwave Theory Techniques |
59. |
A Broadband Class E Parallel-Circuit VHF Power Amplifier with high Harmonic Suppression
2008
Author(s) : Narendra Kumar A/l Aridas Source : Microwave Journal |
60. |
Constant Efficiency Achievement With Switched Gain Stage And Drain Supply Adjustment Method For A UHF RF Power Amplifier
2008
Author(s) : Narendra Kumar A/l Aridas Source : Microwave Journal |
61. |
1-W Linear Broadband RF Power Amplifier with Cartesian Feedback for TETRA Modulation
2008
Author(s) : Narendra Kumar A/l Aridas |
BOOK
NO | DETAILS OF BOOK |
---|---|
1. |
Distributed Power Amplifiers for RF and Microwave Communications
2015
Author(s) : Narendra Kumar A/l Aridas |
2. |
Broadband RF and Microwave Amplifiers
2015
Author(s) : Narendra Kumar A/l Aridas |
RESEARCH PROJECT
GRANT | PROGRESS | STATUS |
---|---|---|
Real-time Indoor Geolocation Asset Tracking In Smart Logistics And Digital Manufacturing
(Private Funding) |
|
on going |
Real-time Indoor Geolocation Asset Tracking In Smart Logistics And Digital Manufacturing
(KW PNC(JIM)) |
|
end |
Design And Modelling A Bipolar Transistor Up To 20ghz For 8 - 20ghz Yig-tuned Oscillator Design
(Private Funding) |
|
end |
Design of Broadband Long-term Evolution Advanced Power Amplifier for Radio Communication Applications
Researcher(s) : -
(Postgraduate Research Grant (PPP) - Research) |
|
end |
Identification and Optimization of Transient Power Time-Domain Signal For 10GHz High Power Amplifier in Base Station Applications Employing Vector Fitting Technique
Researcher(s) : -
(Postgraduate Research Grant (PPP) - Research) |
|
end |
Bodyworn phase array RF transceiver & antenna for public safety
Researcher(s) : -
(Postgraduate Research Grant (PPP) - Research) |
|
end |
Bodyworn Phase Array Rf Transceiver & Antenna For Public Safety And Healthcare
(Partnership Grant) |
|
end |
Nonlinear High Power Device Modeling
(Private Funding) |
|
end |
Microwave Amplifier Development With X-parameters Extention To Teraheartz Application In The Context Of Medical Imaging
(Partnership Grant) |
|
end |
Nonlinear High Power Device Modeling based with X-Parameters (collaboration with Motorola Solutions)
Researcher(s) : Dr. Tarik Bin Abdul Latef
(Bantuan Kecil Penyelidikan (BKP)) |
|
end |
RESEARCH COLLABORATOR
GRANT | PROGRESS | STATUS |
---|---|---|
Compact Nantenna Design For Energy Harvesting System To Energize Low Power Devices
Researcher(s) : Professor Ir. Dr. Harikrishnan A/l Ramiah,Associate Prof. Dr. Narendra Kumar A/l Aridas,Associate Prof. Ir. Dr. Jeevan A/l Kanesan
(Geran Penyelidikan Universiti Malaya (UMRG) - AFR (Frontier Science)) |
|
end |