@buc.edu.in
Assistant Professor,Department of Electronics and Instrumentation
Bharathiar University
Doctor of Philosophy -Electronics and Instrumentation -Bharathiar University 2014
Master of Science- Applied Electronics - PSG College of Arts and Science- Bharathiar University- 2005
Bachelor of Science- Applied Electronics- PSG College of Arts and Science -Bharathiar University- 2003
Multidisciplinary, Engineering, Electrical and Electronic Engineering, Multidisciplinary
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Neeraj Krishna and K.G. Padmasine
Elsevier BV
Neeraj Krishna V and K.G. Padmasine
Elsevier BV
R.K. Athira Mohan and K.G. Padmasine
Elsevier BV
V. Neeraj Krishna and K.G. Padmasine
Elsevier BV
Rayirathil Kadavath Athira Mohan and Kanagasabapathi Girirajan Padmasine
The Electromagnetics Academy
Rayirathil Kadavath Athira Mohan and Kanagasabapathi Girirajan Padmasine
The Electromagnetics Academy
|A novel high performance four-port multiple input multiple output antenna is suggested for 5G application functioning at 3.4 GHz band. The antenna design measures an inclusive volume of 32 mm (cid:2) 32 mm (cid:2) 0 : 8 mm 3 . The broad frequency bandwidth, excellent gain, decreased interelement gap, and effective isolation within the MIMO components of the proposed system are clearly novel. Each antenna in the four-element MIMO system has been situated orthogonally to the others while maintaining a small size and good result. The antenna has exceptional average total efficiency in the 5G sub-6 GHz spectrum and is in good agreement with the measured results. It also offers a high realized gain compared to prior MIMO antennas. The antenna has a high impedance matching whose isolation is about (cid:0) 28 dB, computed envelope correlation coefficient smaller than 0.10, channel capacity loss average value less than 0.2 bits per second per hertz, and the diversity gain about 10 dB. The typical peak realized antenna gain of the offered MIMO antenna is also delivered with a high radiation efficiency at the frequency of 3.4 GHz. The re(cid:13)ection coefficient, mutual coupling, radiation pattern, current distribution, and gain of antennas are all measured and explained. The design has a compact high volume and adequate bandwidth with good accomplished gain making the antenna very strong for 5G application.
S Urekabharathi and K G Padmasine
IOP Publishing
Abstract Micro-Electro-Mechanical Systems (MEMS) is the mixing of factors like mechanical, sensors, actuators, and electronics on a common substrate through the consumption of micro-fabrication era or micro-technology. A type of beam is called “cantilever” which provides assistance at only one end. This work affords to have a look on MEMS based entirely micro cantilever beama which are employed in medical software systems and are a component to slicing region reasonably evolved sensors. The beams of the Cantilever are the most omnipresent systems within the area of micro-electromechanical structures (MEMS). MEMS cantilevers are normally made from silicon (Si), silicon nitride (Si3N4), or poly-silicon. A procedure on growth in deflection of micro cantilever beam is essential for enhancing the sensitivity of biosensor. The sensitivity level of a microcantilever biosensor relies upon on its deflection that occurs because of the antigen-antibody interplay. The deflection can be elevated by way of growing the length or lowering the thickness of micro cantilever beam but it’ll minimize the reverberating frequency of the beam. This minimizes the resonant frequency and that makes the cantilever vulnerable to thermal noise and low frequency vibrations which immediately affect the size of deflection. In this method, the rectangular and triangular shapes are taken into consideration and the comparative evaluation is established. The outcomes display that the deflection of triangular beam is two times extra than rectangle fashioned beam.
K. G. Padmasine, S. Muruganand, and Azha Periasamy
IEEE
This paper describes read-out electronics for Quartz Tuning Fork (QTF) sensor for monitoring UV rays using Programmable System on Chip and Virtual Instrument programming in Lab VIEW, a graphical language. The QTF sensor has wider range of applications like low temperature measurement, electromagnetic radiation measurement like visible, UV, IR and particle radiation etc. While interacting with measurement variables, QTF undergoes shift in frequency that has to be measured precisely. The embedded PSoC design excites the QTF and measures it frequency through the counter and timer internal block programmed within it. The shift in resonance frequency has been measured and transmitted using internal block UART. A menu driven graphical user interface program written in Lab VIEW does on-line acquisition of QTF data, on-line plotting, saving the data in user specified file path has been carried out. UV Rays is passed through the QFT, thus shift in frequency is measure with high precision successfully.
An Embedded System for Ultraviolet Ray Monitoring”, Xplore IEEE Conference Proceedings 2013. Xplore IEEE Conference Proceedings 2013.
Integrated Temperature Sensor AD 590 for monitoring the Furnace Temperature using Virtual Instrument Programming Vimantra2013, National Instruments
Designing of UV sensor based on Quartz Tuning Fork coated with sol-gel derived Nano crystalline zinc oxide thin film - readout using PSoC Embedded Design International Journal of Embedded Systems and Applications (IJES)
PSoC Embedded Design Control for High Current Magnet Power Supply Journal Instrument Society of India,
Quartz crystal for thin film thickness measurement using embedded software (PSoC) Journal of embedded system and application
System on chip (PSoC) control for high current magnetic power supply Journal of Embedded Systems
A Real Time Surveillance Application Using Microcontroller Based Quadcopter
QUARTZ CRYSTAL FOR THICKNESS MEASUREMENT
AN EFFECTIVE NEURAL NETWORK ALGORITHM FOR DETECTION AND CLASSIFICATION OF BREAST CANCER International Journal of Current Science
Impulse Noise Removal Using Enhanced Efficient Leading diagonal Sort International Journal of Advanced Information Science and Technology (IJAIST)
Observation on Health Quality of Teeth Before and AfterRoot Canal Treatment Using DIP Algorithms International Journal of Engineering Trends and Applications(IJETA)
Observation on Health Quality of Teeth Before and AfterRoot Canal Treatment Using DIP Algorithms International Jo