This paper presents the study and design of a balanced voltage controlled oscillator VCO for 5G wireless communication systems. This circuit is designed in monolithic microwave integrated circuit (MMIC) technology using PH15 process from UMS foundry. The VCO ensures an adequate tuning range by a single-ended pHEMT varactors configuration. The simulation results show that this circuit delivers a sinusoidal signal of output power around 9 dBm with a second harmonic rejection between 25.87 and 33.83 dB, the oscillation frequency varies between 26.46 and 28.90 GHz, the phase noise is -113.155 and -133.167 dBc/Hz respectively at 1 MHz and 10 MHz offset and the Figure of Merit is -181.06 dBc/Hz. The power consumed by the VCO is 122 mW. The oscillator layout with bias and RF output pads occupies an area of 0.515 mm 2 .
A Status Data Transmitting System for Vessel MonitoringIJECEIAES
This paper presents a status data transmitting system suitable for vessel monitoring. The system consists of four main parts, which are a frequency synthesizer, a horn antenna, a status data module and a power amplifier. The proposed frequency synthesizer can flexibly change the frequency in a wide range (from 600 MHz to 4.2 GHz) and the output power (from -6 dBm to -3 dBm). By using the phase-locked loop, the synthesizer’s stability over temperature and tolerance are comparable to temperature compensated crystal oscillators (TCXO) that is about +/- 3 ppm. Moreover, phase noise performance of the synthesizer is less than -90 dBc/Hz at 1 KHz and -100 dBc/Hz at 100 KHz. The impedance bandwidth of the horn antenna can be controlled by using the beveling technique. The status data module packs information of the identification, longitude, latitude, and state of the vessel into data frames. FSK/MSK/GMSK schemes were used to modulate the data. The power amplifier provides 130 W output power at S-band. The fundamental characteristics of the implemented transmitter have been measured and verified.
Common core mechanics in Nokia UltraSite EDGE BTS Outdoor and Nokia UltraSite EDGE BTS Indoor
Common plug-in units
1940 x 770 x 750 mm (H x W x D)
Identical footprint to CityTalk BTS
Weight
Max weight (12 TRX) 340 kg
Heaviest single part 58 kg (core mechanics)
Heaviest plug-in unit 18 kg (RTC)
Acoustic noise (max): 68 dB(A)
Climatic conditions:
w/o heater -10°C ... +50°C
with optional heater -33°C ... +50°C
Ingress Protection Class: IP 55
Two level environmental protection:
BTS core and cabinet door provides EMC shielding
Outdoor kit provides additional weather proofing
Negative resistance amplifier circuit using GaAsFET modelled single MESFETTELKOMNIKA JOURNAL
Negative resistance devices have attracted much attention in the wireless communication industry because of their low cost, better performance, high speed, and reduced power requirements. Although negative resistance circuits are non-linear circuits, they are associated with distortion, which may either be amplitude-to-amplitude distortion or amplitude-to-phase distortion. In this paper, a unique way of realizing a negative resistance amplifier is proposed using a single metal-semiconductor field-effect transistor (MESFET). Intermodulation distortion test (IMD) is performed to evaluate the characteristic response of the negative resistance circuit amplifier to different bias voltages using the harmonic balance (HB) of the advanced designed software (ADS 2016). The results obtained are compared to those of a conventional distributed amplifier. The findings of this study showed that the negative resistance amplifier spreads over a wider frequency output with reduced power requirements while the conventional distributed amplifier has a direct current (DC) offset with output voltage of 32.34 dBm.
Anything we transmit without protection is being raid by the intruders. Hence it is necessary to impart
security to the signal transmitted. In this paper we present the concept of giving security to the transmitted
power signal which is to be received by a receiver in a wireless medium. The present techniques of wireless
power transmission consists of a pair of strongly magnetically coupled resonators that allow power
transmission of tens of watts over a few meters, but anything without security becomes unreliable. With the
goal in achieving security to the power signal, we introduce the concept of encryption decryption algorithm
using RF module.
In this research paper, substrate integrated waveguide (SIW) was proposed as a technique by
realizing bilateral edge walls to produce a compact 5G beam-steering antenna at 24 GHz. The beam
forming network is produced using SIW directional coupler perform as 2×2 Butler Matrix (BM) fed with SIW
slotted waveguide antenna array. The output signal is steered from -29 degrees and +29 degrees when
the signal is fed to the respective input ports. If one of the input ports is fed, the signal is evenly distributed
between the adjacent output ports with 90 degree constant phase shift. The compact size of directional
coupler was designed by longitude slots on the surface of SIW substrate with bandwith of 16.85% at the
operating frequency. The proposed antenna produce gain of 6.34 dB at operating frequency and the
promising outcome of the beam steering make proposed design suitable for 5G communications especially
with tracking capabilities.
A Status Data Transmitting System for Vessel MonitoringIJECEIAES
This paper presents a status data transmitting system suitable for vessel monitoring. The system consists of four main parts, which are a frequency synthesizer, a horn antenna, a status data module and a power amplifier. The proposed frequency synthesizer can flexibly change the frequency in a wide range (from 600 MHz to 4.2 GHz) and the output power (from -6 dBm to -3 dBm). By using the phase-locked loop, the synthesizer’s stability over temperature and tolerance are comparable to temperature compensated crystal oscillators (TCXO) that is about +/- 3 ppm. Moreover, phase noise performance of the synthesizer is less than -90 dBc/Hz at 1 KHz and -100 dBc/Hz at 100 KHz. The impedance bandwidth of the horn antenna can be controlled by using the beveling technique. The status data module packs information of the identification, longitude, latitude, and state of the vessel into data frames. FSK/MSK/GMSK schemes were used to modulate the data. The power amplifier provides 130 W output power at S-band. The fundamental characteristics of the implemented transmitter have been measured and verified.
Common core mechanics in Nokia UltraSite EDGE BTS Outdoor and Nokia UltraSite EDGE BTS Indoor
Common plug-in units
1940 x 770 x 750 mm (H x W x D)
Identical footprint to CityTalk BTS
Weight
Max weight (12 TRX) 340 kg
Heaviest single part 58 kg (core mechanics)
Heaviest plug-in unit 18 kg (RTC)
Acoustic noise (max): 68 dB(A)
Climatic conditions:
w/o heater -10°C ... +50°C
with optional heater -33°C ... +50°C
Ingress Protection Class: IP 55
Two level environmental protection:
BTS core and cabinet door provides EMC shielding
Outdoor kit provides additional weather proofing
Negative resistance amplifier circuit using GaAsFET modelled single MESFETTELKOMNIKA JOURNAL
Negative resistance devices have attracted much attention in the wireless communication industry because of their low cost, better performance, high speed, and reduced power requirements. Although negative resistance circuits are non-linear circuits, they are associated with distortion, which may either be amplitude-to-amplitude distortion or amplitude-to-phase distortion. In this paper, a unique way of realizing a negative resistance amplifier is proposed using a single metal-semiconductor field-effect transistor (MESFET). Intermodulation distortion test (IMD) is performed to evaluate the characteristic response of the negative resistance circuit amplifier to different bias voltages using the harmonic balance (HB) of the advanced designed software (ADS 2016). The results obtained are compared to those of a conventional distributed amplifier. The findings of this study showed that the negative resistance amplifier spreads over a wider frequency output with reduced power requirements while the conventional distributed amplifier has a direct current (DC) offset with output voltage of 32.34 dBm.
Anything we transmit without protection is being raid by the intruders. Hence it is necessary to impart
security to the signal transmitted. In this paper we present the concept of giving security to the transmitted
power signal which is to be received by a receiver in a wireless medium. The present techniques of wireless
power transmission consists of a pair of strongly magnetically coupled resonators that allow power
transmission of tens of watts over a few meters, but anything without security becomes unreliable. With the
goal in achieving security to the power signal, we introduce the concept of encryption decryption algorithm
using RF module.
In this research paper, substrate integrated waveguide (SIW) was proposed as a technique by
realizing bilateral edge walls to produce a compact 5G beam-steering antenna at 24 GHz. The beam
forming network is produced using SIW directional coupler perform as 2×2 Butler Matrix (BM) fed with SIW
slotted waveguide antenna array. The output signal is steered from -29 degrees and +29 degrees when
the signal is fed to the respective input ports. If one of the input ports is fed, the signal is evenly distributed
between the adjacent output ports with 90 degree constant phase shift. The compact size of directional
coupler was designed by longitude slots on the surface of SIW substrate with bandwith of 16.85% at the
operating frequency. The proposed antenna produce gain of 6.34 dB at operating frequency and the
promising outcome of the beam steering make proposed design suitable for 5G communications especially
with tracking capabilities.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Ground Bounce Noise Reduction in Vlsi CircuitsIJERA Editor
Scaling of devices in CMOS technology leads to increase in parameter like Ground bounce
noise, Leakage current, average power dissipation and short channel effect. FinFET are the promising substitute
to replace CMOS. Ground bounce noise is produced when power gating circuit goes from SLEEP to ACTIVE
mode transition. FinFET based designs are compared with MOSFET based designs on basis of different
parameter like Ground bounce noise, leakage current and average power dissipation. HSPICE is the software
tool used for simulation and circuit design.
Tech Vidhya is the premier IT and Telecom training institute of India that is running its quality training courses since last decade and we deliver what we promise. Tech Vidhya is the leading training institute in telecom and IT sector that offers various Telecom, telecommunication, Networking and IT/Software courses in an efficient and friendly manner. We are having the highly qualified and experienced trainers for all the courses. The trainers are updated with the latest technologies and they are working on various live projects on India’s top telecom/IT companies.
This paper presents a high voltage conversion at high sensitivity RF energy harvesting system for IoT applications. The harvesting system comprises bulk-to-source (BTMOS) differential-drive based rectifier to produce a high efficiency RF energy harvesting system. Low-pass upward impedance matching network is applied at the rectifier input to increase the sensitivity and output voltage. Dual-oxide-thickness transistors are used in the rectifier circuit to maintain the power efficiency at each stage of the rectifier. The system is designed using 0.18µm Silterra RF in deep n-well process technology and achieves 4.07V output at -16dBm sensitivity without the need of complex auxiliary control circuit and DC-DC charge-pump circuit. The system is targeted for urban environment.
Ultra low phase noise and high output power monolithic microwave integrated ...IJECEIAES
A novel structure of low phase noise and high output power monolithic microwave integrated circuit (MMIC) oscillator is presented in order to use it in 5G applications. The oscillator is based on the ED02AH process which allows us to design a microwave oscillator keeping a minimum size which is impossible to have it using other technologies since microwave oscillators are sensitive components above 20 GHz. The oscillator is studied, designed, and optimized on a GaAs substrate from the OMMIC foundry using the advanced design system (ADS) simulator in order to obtain a miniaturized oscillator (1.1×1.3 mm2 ) generating two signals of different frequencies fo1=26 GHz and fo2=30 GHz. The objective is to design an oscillator with high output power and low phase noise while respecting its specifications. The optimization of the proposed microwave oscillator shows satisfying results. Indeed, at 26 GHz and 30 GHz, the output powers are respectively 13.33 dBm and 14.89 dBm. The oscillator produces a sinusoidal signal of 1.5 V and 1.75 V amplitude respectively at 26 GHz and 30 GHz. The oscillator phase noise at fo1 and fo2 resonance frequencies using the liquid crystal (LC) resonator shows respectively -109 dBc/Hz and -110 dBc/Hz at 10 MHz offset.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Ground Bounce Noise Reduction in Vlsi CircuitsIJERA Editor
Scaling of devices in CMOS technology leads to increase in parameter like Ground bounce
noise, Leakage current, average power dissipation and short channel effect. FinFET are the promising substitute
to replace CMOS. Ground bounce noise is produced when power gating circuit goes from SLEEP to ACTIVE
mode transition. FinFET based designs are compared with MOSFET based designs on basis of different
parameter like Ground bounce noise, leakage current and average power dissipation. HSPICE is the software
tool used for simulation and circuit design.
Tech Vidhya is the premier IT and Telecom training institute of India that is running its quality training courses since last decade and we deliver what we promise. Tech Vidhya is the leading training institute in telecom and IT sector that offers various Telecom, telecommunication, Networking and IT/Software courses in an efficient and friendly manner. We are having the highly qualified and experienced trainers for all the courses. The trainers are updated with the latest technologies and they are working on various live projects on India’s top telecom/IT companies.
This paper presents a high voltage conversion at high sensitivity RF energy harvesting system for IoT applications. The harvesting system comprises bulk-to-source (BTMOS) differential-drive based rectifier to produce a high efficiency RF energy harvesting system. Low-pass upward impedance matching network is applied at the rectifier input to increase the sensitivity and output voltage. Dual-oxide-thickness transistors are used in the rectifier circuit to maintain the power efficiency at each stage of the rectifier. The system is designed using 0.18µm Silterra RF in deep n-well process technology and achieves 4.07V output at -16dBm sensitivity without the need of complex auxiliary control circuit and DC-DC charge-pump circuit. The system is targeted for urban environment.
Ultra low phase noise and high output power monolithic microwave integrated ...IJECEIAES
A novel structure of low phase noise and high output power monolithic microwave integrated circuit (MMIC) oscillator is presented in order to use it in 5G applications. The oscillator is based on the ED02AH process which allows us to design a microwave oscillator keeping a minimum size which is impossible to have it using other technologies since microwave oscillators are sensitive components above 20 GHz. The oscillator is studied, designed, and optimized on a GaAs substrate from the OMMIC foundry using the advanced design system (ADS) simulator in order to obtain a miniaturized oscillator (1.1×1.3 mm2 ) generating two signals of different frequencies fo1=26 GHz and fo2=30 GHz. The objective is to design an oscillator with high output power and low phase noise while respecting its specifications. The optimization of the proposed microwave oscillator shows satisfying results. Indeed, at 26 GHz and 30 GHz, the output powers are respectively 13.33 dBm and 14.89 dBm. The oscillator produces a sinusoidal signal of 1.5 V and 1.75 V amplitude respectively at 26 GHz and 30 GHz. The oscillator phase noise at fo1 and fo2 resonance frequencies using the liquid crystal (LC) resonator shows respectively -109 dBc/Hz and -110 dBc/Hz at 10 MHz offset.
A Low Power High Bandwidth Four Quadrant Analog Multiplier in 32 NM CNFET Tec...VLSICS Design
Carbon Nanotube Field Effect Transistor (CNFET) is a promising new technology that overcomes several limitations of traditional silicon integrated circuit technology. In recent years, the potential of CNFET for analog circuit applications has been explored. This paper proposes a novel four quadrant analog multiplier design using CNFETs. The simulation based on 32nm CNFET technology shows that the proposed multiplier has very low harmonic distortion (<0.45%), large input range (±400mV), large bandwidth (~50GHz) and low power consumption (~247µW), while operating at a supply voltage of ±0.9V.
Designing an Antenna System That Can Perform Conditional RF to DC Harnessing ...IOSRJECE
Electromagnetic energy or RF energy will play a pivotal role in wireless technology and wireless communication in the impending future. The paper proposes a concept for a patch antenna based system that can harness RF energy upon triggering and can convert the harnessed RF to DC from the radio frequency of 1 GHz to 3 GHz, the design frequency is 2.4GHz. The patch antenna system contains a high gain patch antenna along with a wireless communicating module and a conversion circuit. The return loss of the antenna is approximately 27.1dB. The power gain is 30.1 dBm .The converter circuit is designed in), Multi-Sim to get an output voltage of around 5V that can be used to power a mobile-device or maybe stored in a battery. The triggering part is done with the help of a T-mote which is simulated in a network simulator, Cooja. The patch antenna is simulated in High Frequency Structural Simulator
Modelling And Miniaturization of A 2-Bits Phase Shifter Using Koch Fractal Sh...IJERA Editor
Phase shifter is a key component in phase array antenna for the Radar application and the wireless communication system. This paper presents a novel design of miniaturised 2bits phase shifter using Koch fractal shapes of one iteration orders. The 3-section branch line coupler is used to extend the bandwidth of the phase shifter,this type of coupler is characterised by a low cost and simplicity of fabrication.Using the Koch fractal geometry the circuit size of the coupler is reduced to 6.36cm ×2.14cm at 2.4GHz. The simulation results show a good performance. So, over 2.1GHz-2.7GHzThe novel design of 2bits fractal reflection phase shifter based on the 3section show a return loss less than -20dB and the phase error varied between 0.1° and 0.4°for the four output phases . The circuit size of the phase shifter is reduced to9.5cm×2.1cm.
A New Compact CPW-Fed Dual-Band Uniplanar Antenna for RFID ApplicationsTELKOMNIKA JOURNAL
In this paper a new dual-band uniplanar monopole antenna fed by Coplanar
Waveguide (CPW) line is proposed for Radio Frequency Identification (RFID) applications. The
antenna structure includes a CPW fed line and the dual-band operation is achieved from the Gshaped
folded antenna. The antenna parameters have been investigated and optimized by
using CST Microwave Studio. To validate the CST Microwave Studio results before the antenna
achievement, we have conducted another study by using ADS. The final circuit was achieved,
measured and validated. Experimental results show that the proposed antenna with compact
size of 30*45 mm2 is simple in design and compact in size. It exhibits broadband impedance
matching, consistent omnidirectional radiation patterns and appropriate gain characteristics
suitable for the microwave RFID applicartions.
Two, four, eight, and sixteen-element patch array antennas for beam switching are presented in this study. For a 1×2 array, an aperture-coupled feeding mechanism is used to feed patches while a slot line on the ground plane provides the phase delay between antenna elements. The 1×2 array is used to create the 2×2, 4×2, and 8×2 arrays, and an equal power divider provides the signal for each. For applications in the 5G sub-6 GHz frequency spectrum, the antennas are modeled. With -37.14 dB, -17.85 dB, -21.51 dB, and -26.03 dB return loss for two, four, eight, and sixteen-element array antennas respectively the simulation demonstrates that the antennas are properly matched at the resonant frequency. The antennas can switch its radiated beam to ±24 ◦ , ±24 ◦ , ◦ ±28 , and ±26 ◦ with gains of 8.97 dBi, 11.19 dBi, 13.23 dBi, and 16.24 dBi, respectively at the resonance frequency. The directivity of the proposed antenna is found to be 9.17 dBi, 11.20 dBi, 13.40 dBi, and 16.45 dBi respectively. The antennas are constructed with two 0.8 mm-thick Teflon substrate layers. The ground plane between the two substrate layers contains the aperture and the slot line that generates the phase delay.
Review on 75 305 Ghz Power Amplifier MMIC with 10 14.9 dBm Pout in a 35 nm In...ijtsrd
The broadband power amplifier monolithic microwave ICs with an operating frequency of more than 200 GHz is demonstrated. It is fabricated in a 35 nm gate length metamorphic high electron mobility transistor. The power amplifier produces a minimum output power of 10 dBm with an average value of 12.8 dBm at 75 to 305 GHz. A peak output power of 14.9 dBm and power added efficiency of 6.6 is obtained at 200 GHz. Padmam Kaimal "Review on 75-305 Ghz Power Amplifier MMIC with 10-14.9 dBm Pout in a 35-nm InGaAs mHEMT Technology" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-2 , February 2022, URL: https://www.ijtsrd.com/papers/ijtsrd49251.pdf Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/49251/review-on-75305-ghz-power-amplifier-mmic-with-10149-dbm-pout-in-a-35nm-ingaas-mhemt-technology/padmam-kaimal
Six-port Interferometer for W-band Transceivers: Design and CharacterizationIJECEIAES
The study has presented an extensive analysis of an integrated millimeter wave six-port interferometer, operating over a 10 GHz band, from 80 to 90 GHz. It has covered both semi-unlicensed point-to-point links (81-86 GHz), and imaging sensor system frequencies (above 85 GHz). An in-house process is used to fabricate miniaturized hybrid millimeter wave integrated circuits on a very thin ceramic substrate. Two-port S-parameter measurements are performed on a minimum number of circuits integrated on the same die, exploiting the circuit’s physical symmetry and chosen to collect enough data for full-port characterization. Based on these measurements on an integrated prototype, a six-port circuit computer model implemented and advanced system simulations performed for circuit analysis. Interferometer performances evaluated using several methods: analysis of harmonic balance, qi points’, homodyne quadrature demodulation, and error vector modulation (EVM). The analysis showed that this circuit can directly perform, without any calibration, the demodulation of various PSK and QAM signals over the 10 GHz band, with very good results.
A Novel Configuration of a Microstrip Microwave Wideband Power Amplifier for ...TELKOMNIKA JOURNAL
RF/microwave power amplifier (PA) is one of the components that has a large effect on the
overall performance of communication system especially in transmitter system and their design is decided
by the parameters of transistor selected. This letter presents a new concept of a wide-band microwave
amplifier using scattering parameters that is often used in the radio frequency communication systemas an
application of the active integrated antenna[1- 2]. This power amplifier operates from 1.75 GHz to 2.15GHz
frequency and it is based on AT-41410 NPN transistor that has a high transition frequency of 10GHz. The
proposed Single Stage PA is designed by microstrip technology and simulated with Advanced Design
System (ADS) software. The simulation results indicate good performances; the small power gain (S21) is
changed between 11.8 and 10dB. For the input reflection coefficient (S11) is varied between -11 and -
22.5dB. Regarding the output reflection coefficient (S22) is varied between -13.1 and -18.7dB over the
wide frequency band of 1.75-2.15GHz and stability without oscillating over a wide range of frequencies.
A LOW POWER, LOW PHASE NOISE CMOS LC OSCILLATORIJEEE
In this paper a Double Cross Coupled Inductor capacitor based Voltage Control Oscillator (LC-VCO) is designed. In the proposed circuit the phase noise, tuning range with respect to control voltage, output power and the power dissipation of the circuit is analysed. Phase noise of approximate -96 dBc/Hz at frequency of 1MHz, frequency tuning range of 4.8 to 8.3 GHz (corresponding to 53.0% tuning range) obtained by varying the control voltage from 0 to 2.0 V, Output power of circuit -8.92 dBm at 50 Ohm resistance terminal and the power consumption of Circuit is 3.8 mW. This VCO are designed for 5.5 GHz. The circuit is designed on the UMC 180nm CMOS technology and all the simulation results are obtained using cadence SPECTRE Simulator.
A 60 GHz CMOS Power Amplifier for Wireless CommunicationsIJECEIAES
This paper presents a 60 GHz power amplifier (PA) suitable for wireless communications. The two-stage wideband PA is fabricated in 55 nm CMOS. Measurement results show that the PA obtains a peak gain of 16 dB over a -3 dB bandwidth from 57 GHz to 67 GHz. It archives an output 1 dB compression point (OP1dB) of 4 dBm and a peak power added efficiency (PAE) of 12.6%. The PA consumes a total DC power of 38.3 mW from a 1.2 V supply voltage while its core occupies a chip area of 0.45 mm 2 .
A Miniature RFID Antenna at UHF Band using Meander-Line Technique IJECEIAES
This paper displays a new design of a small antenna proposed for radiofrequency identification (RFID) applications in the UHF band (ultra-high frequency). Our antenna is constituted of two rectangular patches linked together with a meander line. Using this technique reduction in antenna size of equal to 62% with respect to the conventional antenna was achieved. The antenna has a simple structure and small antenna size of 60 x 74mm or 0.184 λ0 x 0.226 . It has been fabricated on a low-cost FR4 substrate and measured to validate the simulation performances. The measured bandwidth is around 54.4 MHz (889.3 - 943.7 MHz) with reflection coefficient less than 10 dB, which covers all of the American RFID band (902 - 928 MHz), Chinese RFID band (920.5 - 924.5 MHz), Korea Republic and Japan RFID band ( 917 - 923.5 MHz). The design and simulations have been effected by electromagnetic simulators HFSS and CST microwave studio. A good accord is getting between the simulated and measured results. This antenna is intended for the reader of RFID applications. λ0 2
DESIGN AND ANALYSIS OF PHASE-LOCKED LOOP AND PERFORMANCE PARAMETERSIJMEJournal1
In this paper, we are present design and analysis of PLL, which is simulated in CMOS 0.18μm technology.The digital phase locked loop achieves locking within about 100 reference clock cycles. The pure digital
phase locked loop is attractive because it is less sensitive to noise and operating conditions than its analog
counterpart.In this PLL circuit successfully achieved 1.55GHz frequency. Jitter is 1.09ns achieved is very
less. Also achieve low phase noise -98.5827 at 1MHz Frequency
A trade-off design of microstrip broadband power amplifier for UHF applications IJECEIAES
In this paper, the design of a Broadband Power Amplifier for UHF applications is presented. The proposed BPA is based on ATF13876 Agilent active device. The biasing and matching networks both are implemented by using microstrip transmission lines. The input and output matching circuits are designed by combining two broadband matching techniques: a binomial multi-section quarter wave impedance transformer and an approximate transformation of previously designed lumped elements. The proposed BPA shows excellent performances in terms of impedance matching, power gain and unconditionally stability over the operating bandwidth ranging from 1.2 GHz to 3.3 GHz. At 2.2 GHz, the large signal simulation shows a saturated output power of 18.875 dBm with an output 1-dB compression point of 6.5 dBm of input level and a maximum PAE of 36.26%.
Reconfigurable ultra wideband to narrowband antenna for cognitive radio appli...TELKOMNIKA JOURNAL
Frequency reconfigurable antennas are very attractive for many wireless applications.They offer many advantages such as simplicity and compactness. In this electronicpaper, we propose a reconfigurable antenna operating in the S and C bands. Theproposed antenna uses a BAP65-02 RF diode to switch between the ultra widebandfrom 2.92 to 6.19 GHz to the narrowband from 2.92 to 3.93 GHz. The ultra widebandis obtained by a partial rectangular ground plane with a symmetrical rectangular slotand the narrowband is obtained by adding a parasitic element electrically connectedto the ground plane by the PIN diode when it is positively biased. This patch antennaoperates in the Federal Communications Commission band (FCC) and can be used forbiomedical applications such as radiometry imaging. The numerical simulation resultsbased on the finite element method and the finite integral method show a very goodagreement between them.
Bibliometric analysis highlighting the role of women in addressing climate ch...IJECEIAES
Fossil fuel consumption increased quickly, contributing to climate change
that is evident in unusual flooding and draughts, and global warming. Over
the past ten years, women's involvement in society has grown dramatically,
and they succeeded in playing a noticeable role in reducing climate change.
A bibliometric analysis of data from the last ten years has been carried out to
examine the role of women in addressing the climate change. The analysis's
findings discussed the relevant to the sustainable development goals (SDGs),
particularly SDG 7 and SDG 13. The results considered contributions made
by women in the various sectors while taking geographic dispersion into
account. The bibliometric analysis delves into topics including women's
leadership in environmental groups, their involvement in policymaking, their
contributions to sustainable development projects, and the influence of
gender diversity on attempts to mitigate climate change. This study's results
highlight how women have influenced policies and actions related to climate
change, point out areas of research deficiency and recommendations on how
to increase role of the women in addressing the climate change and
achieving sustainability. To achieve more successful results, this initiative
aims to highlight the significance of gender equality and encourage
inclusivity in climate change decision-making processes.
Voltage and frequency control of microgrid in presence of micro-turbine inter...IJECEIAES
The active and reactive load changes have a significant impact on voltage
and frequency. In this paper, in order to stabilize the microgrid (MG) against
load variations in islanding mode, the active and reactive power of all
distributed generators (DGs), including energy storage (battery), diesel
generator, and micro-turbine, are controlled. The micro-turbine generator is
connected to MG through a three-phase to three-phase matrix converter, and
the droop control method is applied for controlling the voltage and
frequency of MG. In addition, a method is introduced for voltage and
frequency control of micro-turbines in the transition state from gridconnected mode to islanding mode. A novel switching strategy of the matrix
converter is used for converting the high-frequency output voltage of the
micro-turbine to the grid-side frequency of the utility system. Moreover,
using the switching strategy, the low-order harmonics in the output current
and voltage are not produced, and consequently, the size of the output filter
would be reduced. In fact, the suggested control strategy is load-independent
and has no frequency conversion restrictions. The proposed approach for
voltage and frequency regulation demonstrates exceptional performance and
favorable response across various load alteration scenarios. The suggested
strategy is examined in several scenarios in the MG test systems, and the
simulation results are addressed.
Enhancing battery system identification: nonlinear autoregressive modeling fo...IJECEIAES
Precisely characterizing Li-ion batteries is essential for optimizing their
performance, enhancing safety, and prolonging their lifespan across various
applications, such as electric vehicles and renewable energy systems. This
article introduces an innovative nonlinear methodology for system
identification of a Li-ion battery, employing a nonlinear autoregressive with
exogenous inputs (NARX) model. The proposed approach integrates the
benefits of nonlinear modeling with the adaptability of the NARX structure,
facilitating a more comprehensive representation of the intricate
electrochemical processes within the battery. Experimental data collected
from a Li-ion battery operating under diverse scenarios are employed to
validate the effectiveness of the proposed methodology. The identified
NARX model exhibits superior accuracy in predicting the battery's behavior
compared to traditional linear models. This study underscores the
importance of accounting for nonlinearities in battery modeling, providing
insights into the intricate relationships between state-of-charge, voltage, and
current under dynamic conditions.
Smart grid deployment: from a bibliometric analysis to a surveyIJECEIAES
Smart grids are one of the last decades' innovations in electrical energy.
They bring relevant advantages compared to the traditional grid and
significant interest from the research community. Assessing the field's
evolution is essential to propose guidelines for facing new and future smart
grid challenges. In addition, knowing the main technologies involved in the
deployment of smart grids (SGs) is important to highlight possible
shortcomings that can be mitigated by developing new tools. This paper
contributes to the research trends mentioned above by focusing on two
objectives. First, a bibliometric analysis is presented to give an overview of
the current research level about smart grid deployment. Second, a survey of
the main technological approaches used for smart grid implementation and
their contributions are highlighted. To that effect, we searched the Web of
Science (WoS), and the Scopus databases. We obtained 5,663 documents
from WoS and 7,215 from Scopus on smart grid implementation or
deployment. With the extraction limitation in the Scopus database, 5,872 of
the 7,215 documents were extracted using a multi-step process. These two
datasets have been analyzed using a bibliometric tool called bibliometrix.
The main outputs are presented with some recommendations for future
research.
Use of analytical hierarchy process for selecting and prioritizing islanding ...IJECEIAES
One of the problems that are associated to power systems is islanding
condition, which must be rapidly and properly detected to prevent any
negative consequences on the system's protection, stability, and security.
This paper offers a thorough overview of several islanding detection
strategies, which are divided into two categories: classic approaches,
including local and remote approaches, and modern techniques, including
techniques based on signal processing and computational intelligence.
Additionally, each approach is compared and assessed based on several
factors, including implementation costs, non-detected zones, declining
power quality, and response times using the analytical hierarchy process
(AHP). The multi-criteria decision-making analysis shows that the overall
weight of passive methods (24.7%), active methods (7.8%), hybrid methods
(5.6%), remote methods (14.5%), signal processing-based methods (26.6%),
and computational intelligent-based methods (20.8%) based on the
comparison of all criteria together. Thus, it can be seen from the total weight
that hybrid approaches are the least suitable to be chosen, while signal
processing-based methods are the most appropriate islanding detection
method to be selected and implemented in power system with respect to the
aforementioned factors. Using Expert Choice software, the proposed
hierarchy model is studied and examined.
Enhancing of single-stage grid-connected photovoltaic system using fuzzy logi...IJECEIAES
The power generated by photovoltaic (PV) systems is influenced by
environmental factors. This variability hampers the control and utilization of
solar cells' peak output. In this study, a single-stage grid-connected PV
system is designed to enhance power quality. Our approach employs fuzzy
logic in the direct power control (DPC) of a three-phase voltage source
inverter (VSI), enabling seamless integration of the PV connected to the
grid. Additionally, a fuzzy logic-based maximum power point tracking
(MPPT) controller is adopted, which outperforms traditional methods like
incremental conductance (INC) in enhancing solar cell efficiency and
minimizing the response time. Moreover, the inverter's real-time active and
reactive power is directly managed to achieve a unity power factor (UPF).
The system's performance is assessed through MATLAB/Simulink
implementation, showing marked improvement over conventional methods,
particularly in steady-state and varying weather conditions. For solar
irradiances of 500 and 1,000 W/m2
, the results show that the proposed
method reduces the total harmonic distortion (THD) of the injected current
to the grid by approximately 46% and 38% compared to conventional
methods, respectively. Furthermore, we compare the simulation results with
IEEE standards to evaluate the system's grid compatibility.
Enhancing photovoltaic system maximum power point tracking with fuzzy logic-b...IJECEIAES
Photovoltaic systems have emerged as a promising energy resource that
caters to the future needs of society, owing to their renewable, inexhaustible,
and cost-free nature. The power output of these systems relies on solar cell
radiation and temperature. In order to mitigate the dependence on
atmospheric conditions and enhance power tracking, a conventional
approach has been improved by integrating various methods. To optimize
the generation of electricity from solar systems, the maximum power point
tracking (MPPT) technique is employed. To overcome limitations such as
steady-state voltage oscillations and improve transient response, two
traditional MPPT methods, namely fuzzy logic controller (FLC) and perturb
and observe (P&O), have been modified. This research paper aims to
simulate and validate the step size of the proposed modified P&O and FLC
techniques within the MPPT algorithm using MATLAB/Simulink for
efficient power tracking in photovoltaic systems.
Adaptive synchronous sliding control for a robot manipulator based on neural ...IJECEIAES
Robot manipulators have become important equipment in production lines, medical fields, and transportation. Improving the quality of trajectory tracking for
robot hands is always an attractive topic in the research community. This is a
challenging problem because robot manipulators are complex nonlinear systems
and are often subject to fluctuations in loads and external disturbances. This
article proposes an adaptive synchronous sliding control scheme to improve trajectory tracking performance for a robot manipulator. The proposed controller
ensures that the positions of the joints track the desired trajectory, synchronize
the errors, and significantly reduces chattering. First, the synchronous tracking
errors and synchronous sliding surfaces are presented. Second, the synchronous
tracking error dynamics are determined. Third, a robust adaptive control law is
designed,the unknown components of the model are estimated online by the neural network, and the parameters of the switching elements are selected by fuzzy
logic. The built algorithm ensures that the tracking and approximation errors
are ultimately uniformly bounded (UUB). Finally, the effectiveness of the constructed algorithm is demonstrated through simulation and experimental results.
Simulation and experimental results show that the proposed controller is effective with small synchronous tracking errors, and the chattering phenomenon is
significantly reduced.
Remote field-programmable gate array laboratory for signal acquisition and de...IJECEIAES
A remote laboratory utilizing field-programmable gate array (FPGA) technologies enhances students’ learning experience anywhere and anytime in embedded system design. Existing remote laboratories prioritize hardware access and visual feedback for observing board behavior after programming, neglecting comprehensive debugging tools to resolve errors that require internal signal acquisition. This paper proposes a novel remote embeddedsystem design approach targeting FPGA technologies that are fully interactive via a web-based platform. Our solution provides FPGA board access and debugging capabilities beyond the visual feedback provided by existing remote laboratories. We implemented a lab module that allows users to seamlessly incorporate into their FPGA design. The module minimizes hardware resource utilization while enabling the acquisition of a large number of data samples from the signal during the experiments by adaptively compressing the signal prior to data transmission. The results demonstrate an average compression ratio of 2.90 across three benchmark signals, indicating efficient signal acquisition and effective debugging and analysis. This method allows users to acquire more data samples than conventional methods. The proposed lab allows students to remotely test and debug their designs, bridging the gap between theory and practice in embedded system design.
Detecting and resolving feature envy through automated machine learning and m...IJECEIAES
Efficiently identifying and resolving code smells enhances software project quality. This paper presents a novel solution, utilizing automated machine learning (AutoML) techniques, to detect code smells and apply move method refactoring. By evaluating code metrics before and after refactoring, we assessed its impact on coupling, complexity, and cohesion. Key contributions of this research include a unique dataset for code smell classification and the development of models using AutoGluon for optimal performance. Furthermore, the study identifies the top 20 influential features in classifying feature envy, a well-known code smell, stemming from excessive reliance on external classes. We also explored how move method refactoring addresses feature envy, revealing reduced coupling and complexity, and improved cohesion, ultimately enhancing code quality. In summary, this research offers an empirical, data-driven approach, integrating AutoML and move method refactoring to optimize software project quality. Insights gained shed light on the benefits of refactoring on code quality and the significance of specific features in detecting feature envy. Future research can expand to explore additional refactoring techniques and a broader range of code metrics, advancing software engineering practices and standards.
Smart monitoring technique for solar cell systems using internet of things ba...IJECEIAES
Rapidly and remotely monitoring and receiving the solar cell systems status parameters, solar irradiance, temperature, and humidity, are critical issues in enhancement their efficiency. Hence, in the present article an improved smart prototype of internet of things (IoT) technique based on embedded system through NodeMCU ESP8266 (ESP-12E) was carried out experimentally. Three different regions at Egypt; Luxor, Cairo, and El-Beheira cities were chosen to study their solar irradiance profile, temperature, and humidity by the proposed IoT system. The monitoring data of solar irradiance, temperature, and humidity were live visualized directly by Ubidots through hypertext transfer protocol (HTTP) protocol. The measured solar power radiation in Luxor, Cairo, and El-Beheira ranged between 216-1000, 245-958, and 187-692 W/m 2 respectively during the solar day. The accuracy and rapidity of obtaining monitoring results using the proposed IoT system made it a strong candidate for application in monitoring solar cell systems. On the other hand, the obtained solar power radiation results of the three considered regions strongly candidate Luxor and Cairo as suitable places to build up a solar cells system station rather than El-Beheira.
An efficient security framework for intrusion detection and prevention in int...IJECEIAES
Over the past few years, the internet of things (IoT) has advanced to connect billions of smart devices to improve quality of life. However, anomalies or malicious intrusions pose several security loopholes, leading to performance degradation and threat to data security in IoT operations. Thereby, IoT security systems must keep an eye on and restrict unwanted events from occurring in the IoT network. Recently, various technical solutions based on machine learning (ML) models have been derived towards identifying and restricting unwanted events in IoT. However, most ML-based approaches are prone to miss-classification due to inappropriate feature selection. Additionally, most ML approaches applied to intrusion detection and prevention consider supervised learning, which requires a large amount of labeled data to be trained. Consequently, such complex datasets are impossible to source in a large network like IoT. To address this problem, this proposed study introduces an efficient learning mechanism to strengthen the IoT security aspects. The proposed algorithm incorporates supervised and unsupervised approaches to improve the learning models for intrusion detection and mitigation. Compared with the related works, the experimental outcome shows that the model performs well in a benchmark dataset. It accomplishes an improved detection accuracy of approximately 99.21%.
Developing a smart system for infant incubators using the internet of things ...IJECEIAES
This research is developing an incubator system that integrates the internet of things and artificial intelligence to improve care for premature babies. The system workflow starts with sensors that collect data from the incubator. Then, the data is sent in real-time to the internet of things (IoT) broker eclipse mosquito using the message queue telemetry transport (MQTT) protocol version 5.0. After that, the data is stored in a database for analysis using the long short-term memory network (LSTM) method and displayed in a web application using an application programming interface (API) service. Furthermore, the experimental results produce as many as 2,880 rows of data stored in the database. The correlation coefficient between the target attribute and other attributes ranges from 0.23 to 0.48. Next, several experiments were conducted to evaluate the model-predicted value on the test data. The best results are obtained using a two-layer LSTM configuration model, each with 60 neurons and a lookback setting 6. This model produces an R 2 value of 0.934, with a root mean square error (RMSE) value of 0.015 and a mean absolute error (MAE) of 0.008. In addition, the R 2 value was also evaluated for each attribute used as input, with a result of values between 0.590 and 0.845.
A review on internet of things-based stingless bee's honey production with im...IJECEIAES
Honey is produced exclusively by honeybees and stingless bees which both are well adapted to tropical and subtropical regions such as Malaysia. Stingless bees are known for producing small amounts of honey and are known for having a unique flavor profile. Problem identified that many stingless bees collapsed due to weather, temperature and environment. It is critical to understand the relationship between the production of stingless bee honey and environmental conditions to improve honey production. Thus, this paper presents a review on stingless bee's honey production and prediction modeling. About 54 previous research has been analyzed and compared in identifying the research gaps. A framework on modeling the prediction of stingless bee honey is derived. The result presents the comparison and analysis on the internet of things (IoT) monitoring systems, honey production estimation, convolution neural networks (CNNs), and automatic identification methods on bee species. It is identified based on image detection method the top best three efficiency presents CNN is at 98.67%, densely connected convolutional networks with YOLO v3 is 97.7%, and DenseNet201 convolutional networks 99.81%. This study is significant to assist the researcher in developing a model for predicting stingless honey produced by bee's output, which is important for a stable economy and food security.
A trust based secure access control using authentication mechanism for intero...IJECEIAES
The internet of things (IoT) is a revolutionary innovation in many aspects of our society including interactions, financial activity, and global security such as the military and battlefield internet. Due to the limited energy and processing capacity of network devices, security, energy consumption, compatibility, and device heterogeneity are the long-term IoT problems. As a result, energy and security are critical for data transmission across edge and IoT networks. Existing IoT interoperability techniques need more computation time, have unreliable authentication mechanisms that break easily, lose data easily, and have low confidentiality. In this paper, a key agreement protocol-based authentication mechanism for IoT devices is offered as a solution to this issue. This system makes use of information exchange, which must be secured to prevent access by unauthorized users. Using a compact contiki/cooja simulator, the performance and design of the suggested framework are validated. The simulation findings are evaluated based on detection of malicious nodes after 60 minutes of simulation. The suggested trust method, which is based on privacy access control, reduced packet loss ratio to 0.32%, consumed 0.39% power, and had the greatest average residual energy of 0.99 mJoules at 10 nodes.
Fuzzy linear programming with the intuitionistic polygonal fuzzy numbersIJECEIAES
In real world applications, data are subject to ambiguity due to several factors; fuzzy sets and fuzzy numbers propose a great tool to model such ambiguity. In case of hesitation, the complement of a membership value in fuzzy numbers can be different from the non-membership value, in which case we can model using intuitionistic fuzzy numbers as they provide flexibility by defining both a membership and a non-membership functions. In this article, we consider the intuitionistic fuzzy linear programming problem with intuitionistic polygonal fuzzy numbers, which is a generalization of the previous polygonal fuzzy numbers found in the literature. We present a modification of the simplex method that can be used to solve any general intuitionistic fuzzy linear programming problem after approximating the problem by an intuitionistic polygonal fuzzy number with n edges. This method is given in a simple tableau formulation, and then applied on numerical examples for clarity.
The performance of artificial intelligence in prostate magnetic resonance im...IJECEIAES
Prostate cancer is the predominant form of cancer observed in men worldwide. The application of magnetic resonance imaging (MRI) as a guidance tool for conducting biopsies has been established as a reliable and well-established approach in the diagnosis of prostate cancer. The diagnostic performance of MRI-guided prostate cancer diagnosis exhibits significant heterogeneity due to the intricate and multi-step nature of the diagnostic pathway. The development of artificial intelligence (AI) models, specifically through the utilization of machine learning techniques such as deep learning, is assuming an increasingly significant role in the field of radiology. In the realm of prostate MRI, a considerable body of literature has been dedicated to the development of various AI algorithms. These algorithms have been specifically designed for tasks such as prostate segmentation, lesion identification, and classification. The overarching objective of these endeavors is to enhance diagnostic performance and foster greater agreement among different observers within MRI scans for the prostate. This review article aims to provide a concise overview of the application of AI in the field of radiology, with a specific focus on its utilization in prostate MRI.
Seizure stage detection of epileptic seizure using convolutional neural networksIJECEIAES
According to the World Health Organization (WHO), seventy million individuals worldwide suffer from epilepsy, a neurological disorder. While electroencephalography (EEG) is crucial for diagnosing epilepsy and monitoring the brain activity of epilepsy patients, it requires a specialist to examine all EEG recordings to find epileptic behavior. This procedure needs an experienced doctor, and a precise epilepsy diagnosis is crucial for appropriate treatment. To identify epileptic seizures, this study employed a convolutional neural network (CNN) based on raw scalp EEG signals to discriminate between preictal, ictal, postictal, and interictal segments. The possibility of these characteristics is explored by examining how well timedomain signals work in the detection of epileptic signals using intracranial Freiburg Hospital (FH), scalp Children's Hospital Boston-Massachusetts Institute of Technology (CHB-MIT) databases, and Temple University Hospital (TUH) EEG. To test the viability of this approach, two types of experiments were carried out. Firstly, binary class classification (preictal, ictal, postictal each versus interictal) and four-class classification (interictal versus preictal versus ictal versus postictal). The average accuracy for stage detection using CHB-MIT database was 84.4%, while the Freiburg database's time-domain signals had an accuracy of 79.7% and the highest accuracy of 94.02% for classification in the TUH EEG database when comparing interictal stage to preictal stage.
Analysis of driving style using self-organizing maps to analyze driver behaviorIJECEIAES
Modern life is strongly associated with the use of cars, but the increase in acceleration speeds and their maneuverability leads to a dangerous driving style for some drivers. In these conditions, the development of a method that allows you to track the behavior of the driver is relevant. The article provides an overview of existing methods and models for assessing the functioning of motor vehicles and driver behavior. Based on this, a combined algorithm for recognizing driving style is proposed. To do this, a set of input data was formed, including 20 descriptive features: About the environment, the driver's behavior and the characteristics of the functioning of the car, collected using OBD II. The generated data set is sent to the Kohonen network, where clustering is performed according to driving style and degree of danger. Getting the driving characteristics into a particular cluster allows you to switch to the private indicators of an individual driver and considering individual driving characteristics. The application of the method allows you to identify potentially dangerous driving styles that can prevent accidents.
Hyperspectral object classification using hybrid spectral-spatial fusion and ...IJECEIAES
Because of its spectral-spatial and temporal resolution of greater areas, hyperspectral imaging (HSI) has found widespread application in the field of object classification. The HSI is typically used to accurately determine an object's physical characteristics as well as to locate related objects with appropriate spectral fingerprints. As a result, the HSI has been extensively applied to object identification in several fields, including surveillance, agricultural monitoring, environmental research, and precision agriculture. However, because of their enormous size, objects require a lot of time to classify; for this reason, both spectral and spatial feature fusion have been completed. The existing classification strategy leads to increased misclassification, and the feature fusion method is unable to preserve semantic object inherent features; This study addresses the research difficulties by introducing a hybrid spectral-spatial fusion (HSSF) technique to minimize feature size while maintaining object intrinsic qualities; Lastly, a soft-margins kernel is proposed for multi-layer deep support vector machine (MLDSVM) to reduce misclassification. The standard Indian pines dataset is used for the experiment, and the outcome demonstrates that the HSSF-MLDSVM model performs substantially better in terms of accuracy and Kappa coefficient.
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About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
2. ISSN: 2088-8708
Int J Elec & Comp Eng, Vol. 10, No. 5, October 2020 : 4623 - 4630
4624
requirements [11-13]. In addition to all these considerations, there is also the problem of the large space
occupied by these circuits, of which it is in the order of 1.5 mm2
[9] or much more [12-14].
In this paper, a large tuning range MMIC VCO with good phase noise level is proved. The circuit is
designed based on a balanced Colpitts architecture. It has a tuning range that exceeds 8.8 % of central
frequency and a phase noise around -113 dBc/Hz at 1 MHz offset. This circuit is designed based on
the pseudo-morphic High Electron Mobility Transistor pHEMT of PH15 process from UMS foundry,
dedicated to RF applications, with a cut off frequency of fT = 110GHz and a 0.15 µm gate length [15].
The remainder of this paper is structured as follows: Section 2 presents the 5G mm-Wave VCO circuit
design, Section 3 reports VCO layout and discusses the simulation results. A conclusion is given in section 4.
Figure 1. Simplified diagram of transmission/reception system
2. 5G MM-WAVE VCO DESIGN
After choosing the semiconductor technology and transistor type, it is time to choose the most
suitable VCO topology for the 5G mm-wave band application. The simplified schematic (i.e., without
transmission lines) of the studied VCO is shown in Figure 2, it is a modified version of the Colpitts structure,
which combines a good phase-noise level with improved starting conditions. The active part of the VCO is
composed of the two GaAs pHEMT transistors, T1 and T2, of gate length of 4*0.15 µm and width of 20 µm,
and their bias elements, we have chosen transistors with a high number of fingers to increase the output
power [9]. The performance of the active device, at the millimeter frequency, depends strongly on biasing
conditions [16], the biasing of these transistors is provided by the two voltage sources Vds and Vgs of 2 V
and 0.2 V respectively. While the inductance Lr as well as the two varactors T3 and T4 constitute
the resonator. These varactors are based on the pHEMT transistor whose source is connected to the drain,
the capacitance value of these varactors is controlled by the voltage applied to the gate Vtune. Finally,
a capacitor C has been added at the output of the oscillator whose role is to filter the DC component which
comes from the bias sources. We announce that this circuit is based on the PH15 process elements of
the UMS foundry, whose behavior is very close to reality, thus they present parasites and imperfections.
Figure 2. pHEMT balanced VCO circuit
3. Int J Elec & Comp Eng ISSN: 2088-8708
28 GHz balanced pHEMT VCO with low phase noise and… (Abdelhafid Es-saqy)
4625
3. SIMULATIONS AND DISCUSSIONS
At millimeter frequencies, parasitic capacitances, transmission line inductances and other
connections can catastrophically change reactances and can have a significant impact on the performance of
the final circuit, which is why several optimization and retro-simulation steps are performed before the final
layout as shown in Figure 3. Particular attention is paid to the Layout symmetry, to avoid the introduction of
asymmetry in the oscillation waveforms and thus introduce additional phase noise [17]. According to
the circuit layout as shown in Figure 3, we observe three bias pads, one pad for the tuning voltage Vtune and
one RF pad for the output signal. The circuit is implanted on the GaAs substrate, it is a multilayer
technology. The total number of layers used in the PH15 process is 16 layers [18]. The length of this Layout
is 0.761 mm while the width is 0.677 mm, thus a total surface area of 0.515 mm2
, since this surface includes
the VCO with RF pad, the tuning voltage pad and the three bias pads as well as the capacity that acts as a low
pass filter. We can note that it is a very compact Layout and takes up a small area compared with
the architecture published in the literature.
Figure 3. Layout of 5G mm-wave voltage controlled oscillator
After checking the start-up conditions of our oscillator using the "OscTest" tool provided by
Agilent's ADS software. A transient simulation is executed to verify the stability of the output signal.
Figure 4 shows that the start-up conditions of the oscillations are very good, the oscillations start effectively,
and they are perfectly stable.
Figure 4. Temporal variation of the output signal Vout for Vtune= 2 V
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The harmonic simulation shows that the minimum value of the output power is 5.02 dBm, while
the maximum value is 9.75 dBm. The second harmonic rejection varies between 25.87 and 33.83 dB for
the oscillation frequencies 28.12 and 26.48 GHz respectively, while the third harmonic rejection varies
between 44.75 and 55.93 dB for the oscillation frequencies 28.41 and 26.48 GHz respectively shown in
Figure 5. Therefore, we notice that our circuit has a good level of rejection of unwanted harmonics.
In Figure 6 we have plotted the variation of the oscillation frequency as a function of the tuning
voltage Vtune. For a variation of the tuning voltage Vtune from -2 to 2.5 V, the oscillation frequency varies
from 28.90 to 26.46 GHz. Therefore, a tuning range of 2.44 GHz and a gain of KVCO=542 MHz/V are
achieved. Figure 7 shows the temporel variation of the output signal Vout for Vtune=2.5 V, therefore it is
a perfectly sinusoidal signal.
Figure 5. Output power of the first harmonic (-□-),
second harmonic (-Δ-) and third harmonic (-x-)
versus tuning voltage Vtune
Figure 6. Variation of the oscillation frequency versus
tuning voltage Vtune
Figure 7. Temporal variation of the output signal for Vtune=2.5 V
The VCO performance determines the characteristics of the entire transmission system, therefore, to
have a signal of high spectral purity, the VCO phase noise must be as minimal as possible [19, 20]. Figure 8
shows the single sideband phase poise and the absolute noise voltage spectrum for Vtune=1.5 V,
thus the phase noise is -93.04 and -113.155 dBc/Hz at the offset frequency of 100 KHz and 1 MHz
respectively. On the other hand, the simulation shows that the power consumed by this VCO topology is122 mW.
5. Int J Elec & Comp Eng ISSN: 2088-8708
28 GHz balanced pHEMT VCO with low phase noise and… (Abdelhafid Es-saqy)
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(a) (b)
Figure 8. Single sideband phase noise, (a) absolute noise voltage spectrum, (b) for tuning voltage Vtune= 1.5 V
Depending on the desired application, a voltage-controlled oscillator could even have completely
different specifications, making it difficult to compare VCOs with each other. A FoM merit factor is then
defined to represent the overall performance of an oscillator [14, 21-23]:
FoM = 𝐿(𝑓0, 𝛥𝑓) + 10 log(𝑃𝐷𝐶) − 20 log(
𝑓0
𝛥𝑓
) (1)
where 𝐿(𝑓0, 𝛥𝑓) is the phase noise at 𝛥𝑓 frequency offset, 𝑓0 is the oscillation frequency and 𝑃𝐷𝐶 is the power
consumption of VCO in mW.
To compare the performance of our voltage controlled oscillator circuit with other structures
published in the literature; Table 1 summarizes the performance of different oscillators, designed with
different technologies, operating in the same frequency band and dedicated for the same applications.
From Table 1 we can see that the architecture proposed in this paper has very good performance; the best level of
phase noise, an excellent output power, a low power consumption and therefore a good figure of merit.
Table 1. Performance comparison of different VCOs
Ref.
Central
frequency
(GHz)
Tuning
range
(GHz)
Output
power
(dBm)
Phase noise
(dBc/Hz) at
1MHz
FoM
(dBc/Hz)
Chip
area
(mm2
)
Structure Technologie
[8] 25.6 1.77 3 -101.9 -176.7 0.034
On-chip
inductor
0.13 µm CMOS
[8] 40.7 2.22 -6.6 -94.8 -172.1 0.018
On-chip
inductor
0.13 µm CMOS
[12] 29.4 14.8 4.5 -100.7 -169.11 3.75
4 Colpitts
VCO
0.13 Um
SiGeBiCMOS
[13] 28.3 3.8 11.8 -102 - 0.5
Negativeres
istance
0.15 µm pHEMT
This
work
27.7 2.44 9.75 -113.155 -181.06 0.515 Colpitts
0.15 µm GaAs
pHEMT
Finally, in order to characterize the performance of a millimeter frequency circuit, the effect of
technological dispersion must be evaluated. The Monte Carlo analysis proposed by the ADS software,
allows to cause small random variations in the values of the different circuit parameters, and to predict
the impact of these variations on the performance of our circuit [24, 25]. We performed a Monte Carlo
analysis at 50 iterations. Figure 9 shows the results of technological dispersion. We can deduce that for all
iterations, the fundamental harmonic power and the second harmonic power are subject to limited and
acceptable variations over the entire tuning range.
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Int J Elec & Comp Eng, Vol. 10, No. 5, October 2020 : 4623 - 4630
4628
Figure 9. Monte Carlo analysis for the output power of the first harmonic (solid line)
and the second harmonic (dash-dotted line)
4. CONCLUSION
In this paper we have presented and designed a pHEMT balanced VCO in MMIC technology for 5G
mm-wave band systems. The simulations results showed a tuning range of 2.44 GHz (which represents
8.82% of the central frequency), an output power of 9 dBm, a phase noise of -113.155 dBc/Hz at 1 MHz
offset frequency and a figure of merit of -181.06 dBc/Hz. The Layout area is 0.515 mm2
.
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BIOGRAPHIES OF AUTHORS
Abdelhafid Es-saqy, was born in TISSA, Morocco, in January 1992. Received his Master
degree in Microelectronics from faculty of sciences Dhar EL Mahraz Fez Morocco, in 2018.
He is now Ph.D. student in Artificial Intelligence, Data Sciences and Emerging Systems
Laboratory at the University of Sidi Mohamed Ben Abdellah Fez. His main research interest
includes Mixers and Local Oscillators.
Maryam Abata, born in 1989 in Nador, Morocco, obtained Master’s degree in 2012 at
the National School of Applied Sciences. She received the Ph.D. in Telecommunications and
Micro-waves devices from Sidi Mohamed Ben Abdellah University of Fez
Mahmoud Mehdi was born in Beirut, Lebanon, in 1974. He received his Ph.D. in high
frequency communication systems from the university of Paris Marne la Vallée, France 2005. He
is an associate professor in the Physics Department of the Faculty of sciences at the Lebanese
University, Beirut, Lebanon. His research interests include Monolithic Microwave Integrated
Circuits (MMIC), Micro-Electro-Mechanical Systems (MEMS), Radiofrequency, Double
Balanced and Distributed Mixers, Local Oscillator, TW Amplifiers, Optoelectronic Mixer for
LIDAR system, Optical systems and design, and Photo-detectors. He is course leader in
microwave devices for the Masters program in Electronics
Said Mazer, born in 1978. PhD in electronics and signal processing at the University of Marne-
La-Vallée. Currently professor at the National School of Applied Sciences of Fez, Morocco and
he is a member of Artificial Intelligence, Data Sciences and Emerging Systems Laboratory at
the University of Sidi Mohamed Ben Abdellah Fez.
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4630
Mohammed Fattah, received his Ph.D. in Telecommunications and CEM at the University of
Sidi Mohamed Ben Abdellah (USMBA) Fez, Morocco, 2011. He is a professor in the Electrical
Engineering Department of the High school of technology at the Moulay Ismail University
(UMI), Meknes, Morocco and he is member of the team research ‘Information Processing and
Transmission’, LIA laboratory, UMI.
Moulhime El Bekkali, received the PhD. degree in 1991 from the USTL University Lille 1,
France, he worked on X-band printed antennas and their applications to microwave radar. He is
a professor in the Electrical Engineering Department of Superior School of Technology, Fez
(ESTF). He is member of Artificial Intelligence, Data Sciences and Emerging Systems
Laboratory. Since 2009, Pr. El Bekkali served as vice President at University of Sidi Mohamed
Ben Abdellah (USMBA) Fez, Morocco.
Catherine Algani, born in 1963. PhD in electronics at the University Pierre and Marie Curie
(Paris VI). University professor at the National Conservatory of Arts and Crafts, CNAM-Paris.
She is the responsible of the research team “communication systems” at ESYCOM laboratory.