The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence software, for health care applications. The ultimate goal for such application is to minimize the trade-offs between performance and cost, and between performance and low power consumption design. This paper introduces the design of a 2.4GHz class D power amplifier which consists of two stage amplifiers. This power amplifier can transmit 15dBm output power to a 50Ω load. The power added efficiency was 50% and the total power consumption was 90.4 mW. The performance of the power amplifier meets the specification requirements of the desired.
2.4GHZ CLASS AB POWER AMPLIFIER FOR HEALTHCARE APPLICATIONijbesjournal
The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence software, for health care applications. The ultimate goal for such application is to minimize the trade-offs between performance and cost, and between performance and low power consumption design. This paper introduces the design of a 2.4GHz class AB power amplifier which consists of two stage amplifiers. This power amplifier can transmit 10dBm output power to a 50Ω load. The power added efficiency is 7.5% at 1dB compression point and the power gain is 10dB, the total power consumption is 0.135W. The performance of the power amplifier meets the specification requirements of the desired.
The wi-fi energy transfer (WPT) is an emerging era with increasingly more ability packages to transfer energy from a transmitter to a cellular receiver over a noticeably huge air gap. but, its extensive utility is hampered due to the relatively low performance of modern wireless power switch (WPT) structures. This study gives an idea to maximize the performance in addition to to increase the quantity of extractable electricity of a WPT system operating in resonant operation. The proposed method is primarily based on actively modifying the equal secondary-side load impedance by controlling the section-shift of the active rectifier and its output voltage degree. The offered hardware prototype represents an entire wireless charging machine, consisting of a dc–dc converter that is used to price a battery at the output of the system. Experimental results are shown for the proposed concept in comparison to a traditional synchronous rectification approach. The supplied optimization technique sincerely outperforms trendy solutions in phrases of efficiency and extractable power.
Neural computing is now one of the most promising technologies in all fields of engineering,
resulting in the development of a number of Artificial Neural Networks (ANN). Double circuit transmission lines
are being employed in the distribution of power to consumers and have become more widespread than single
transmission line, as they increase the electric power transmission capacity and the reliability of an electrical
system. Losses along transmission lines occur due to faults. Possible faults on the transmission line were
predicted using Artificial Neutral Network. In this work, the simulation of fault on a 132kV double circuit
transmission lines using MATLAB was undertaken. Parameters considered during the simulation were the input
of the network which is the fault current value at each fault location while the output of the network is the fault
location. The efficiency of the neural network was tested and verified. This approach provided satisfactory
results with accuracy of 95% or higher.
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.
2.4GHZ CLASS AB POWER AMPLIFIER FOR HEALTHCARE APPLICATIONijbesjournal
The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence software, for health care applications. The ultimate goal for such application is to minimize the trade-offs between performance and cost, and between performance and low power consumption design. This paper introduces the design of a 2.4GHz class AB power amplifier which consists of two stage amplifiers. This power amplifier can transmit 10dBm output power to a 50Ω load. The power added efficiency is 7.5% at 1dB compression point and the power gain is 10dB, the total power consumption is 0.135W. The performance of the power amplifier meets the specification requirements of the desired.
The wi-fi energy transfer (WPT) is an emerging era with increasingly more ability packages to transfer energy from a transmitter to a cellular receiver over a noticeably huge air gap. but, its extensive utility is hampered due to the relatively low performance of modern wireless power switch (WPT) structures. This study gives an idea to maximize the performance in addition to to increase the quantity of extractable electricity of a WPT system operating in resonant operation. The proposed method is primarily based on actively modifying the equal secondary-side load impedance by controlling the section-shift of the active rectifier and its output voltage degree. The offered hardware prototype represents an entire wireless charging machine, consisting of a dc–dc converter that is used to price a battery at the output of the system. Experimental results are shown for the proposed concept in comparison to a traditional synchronous rectification approach. The supplied optimization technique sincerely outperforms trendy solutions in phrases of efficiency and extractable power.
Neural computing is now one of the most promising technologies in all fields of engineering,
resulting in the development of a number of Artificial Neural Networks (ANN). Double circuit transmission lines
are being employed in the distribution of power to consumers and have become more widespread than single
transmission line, as they increase the electric power transmission capacity and the reliability of an electrical
system. Losses along transmission lines occur due to faults. Possible faults on the transmission line were
predicted using Artificial Neutral Network. In this work, the simulation of fault on a 132kV double circuit
transmission lines using MATLAB was undertaken. Parameters considered during the simulation were the input
of the network which is the fault current value at each fault location while the output of the network is the fault
location. The efficiency of the neural network was tested and verified. This approach provided satisfactory
results with accuracy of 95% or higher.
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.
A transient current based micro grid connected power system protection scheme...IJECEIAES
Micro-grids comprise Distributed Energy Resources (DER’s) with low voltage distribution networks having controllable loads those can operate with different voltage levels are connected to the micro-grid and operated in grid mode or islanding mode in a coordinated way of control. DER’s provides clear environment-economical benefits for society and consumer utilities. But their development poses great technical challenges mainly protection of main and micro grid. Protection scheme must have to respond to both the main grid and micro-grid faults. If the fault is occurs on main grid, the response must isolate the DER’s from the main grid rapidly to protect the system loads. If the fault ocuurs within the micro-grid, the protection scheme must coordinate and isolates the least priority possible part of the grid to eliminate the fault. In order to deal with the bidirectional energy flow due to large numbers of micro sources new protection schemes are required. The system is simulated using MATLAB Wavelet Tool box and Wavelet based Multi-resolution Analysis is considered. Wavelet based Multi-resolution Analysis is used for detection, discrimination and location of faults on transmission network. This paper is discussed a transient current based micro-grid connected power system protection scheme using Wavelet Approach described on wavelet detailed-coefficients of Mother Biorthogonal 1.5 wavelet. The proposed algorithm is tested in micro-grid connected power systems environment and proved for the detection, discrimination and location of faults which is almost independent of fault impedance, fault inception angle (FIA) and fault distance of feeder line.
ENERGY EFFICIENT ROUTING IN WIRELESS SENSOR NETWORKS BASED ON QOSIAEME Publication
Energy is a serious resource parameter in Wireless Sensor Networks. Utilizing energy in an effectual manner is a challenging task in Wireless Sensor Networks. This paper presents an overview on various energy efficient routing protocols which fulfills the criteria of QoS parameters. Various energy effective and QoS based routing protocols have been compared. To improve the QoS in a network, data fusion and data accumulation is considered to be one of major energy saving technique. The routing protocols based on data aggregation, reduced cost routing and secure routing are also discussed in detail. Simulation tools like NS2, NS3, OMNET etc can be used to evaluate the network performance.
Development of Wireless Power Transfer using Capacitive Method for Mouse Char...IJPEDS-IAES
Wireless power transfer (WPT) is a non-contact power transfer within a
distance. With the advantage of not-contact concept, WPT enhances the
flexibility movement of the devices. Basically, there are three types of the
WPT which are inductive power transfer (IPT), capacitive power transfer
(CPT) and acoustic power transfer (APT). Among these, capacitive power
transfer (CPT) has the advantages of confining electric field between coupled
plates, metal penetration ability and also the simplicity in circuit topologies.
Therefore, we focus on the capacitive method in this paper. To be specific,
this paper aims to develop a wireless mouse charging system using capacitive
based method. This method enables wireless power transmission from mouse
pad to a wireless mouse. Hence, no battery requires to power up the mouse.
In this paper, a high efficiency Class-E converter is described in details to
convert the DC source to AC and the compensation circuit of resonant tank is
also proposed at the transmitter side in order to improve the efficiency. In the
end, a prototype is developed to prove the developed method. The
performances analysis of the developed prototype is discussed and the future
recommendation of this technique is also presented.
NETWORK ENERGY SAVING TECHNOLOGIES FOR GREEN WIRELESS ACCESS NETWORKSMadhav Thekkedath
Now a day smart phone users are increased and the energy consumption problem in mobile industry has become crucial. For the growth of mobile industry energy efficiency of the system must be improved. In order to improve the methods of network energy usage usually reduction of the Base Stations are to be employed.
The mobile industry faces a critical energy consumption challenge. By 2014 smart phones will exceed 1.82 billion units and surpass PCs as the most common web access devices. That’s why it is one of the important things. As all know that a smart is mainly for easy access to the network at anytime and anywhere. So it employs powering up all the Radio Base Stations (RBS’s) at maximum power. Since there are more number of service providers competition exist at the field of telecommunication. So it yields in more energy consumption to get monopoly among them. In the field of engineering, a system is usually designed to transform energy to useful work. Energy Efficiency can therefore be defined as the ratio of useful work to the total supplied energy. The useful work in a communication system refers to the effort to deliver modulated signals for information exchange. The definition of Energy Efficiency varies according to measured objects. There are two basic methods to measure Energy Efficiency. One way is to define Energy Efficiency as the ratio of efficient output power/energy to total input power/energy. This definition is widely used by systems and components such as power supply, Power Amplifiers, and antennas. The other way defines Energy Efficiency as the performance per unit of energy consumption.
The seminar gives a brief description about the methods to manage the network energy even when the on time access to network by mobile phones. Also gives a summary about existing and latest methodologies about the management in RBS’s.
A Review on Energy Efficient Modulation and Coding Techniques for Clustered W...Editor IJARCET
A standard wireless sensor network comprises of a huge number of sensor nodes with data processing and communication capabilities. The sensor nodes pass the gathered data using radio transmitter, to a sink either straightforwardly or through other nodes in a multi-hop approach. Wireless sensor network is a power consuming system since nodes perform on restricted power supply which decreases its lifetime. Optimally selected modulation and coding is extremely vital technique in wireless sensor networks. This paper surveys the performance of different modulation schemes and error control codes used in Sensor Networks. The survey also analyzes the role of modulation and coding techniques apply to different channel conditions to improve the lifetime of the clustered sensor network.
Electric power quality is a critical issue for electric utilities and their customers and identification of the power quality disturbances is an important task in power system monitoring and protection. Offline processing of power quality disturbances provides an economic alternative for electric distribution companies, not capable of buying enough number of power quality analyzers for monitoring the disturbances online. Due to the wide frequency range of the disturbances which may happen in a power system, a high sampling rate is necessary for digital processing of the disturbances. Therefore, a large volume of data must be processed for this purpose for each node of an electric distribution network and such a processing has not yet been practical. However, thanks to the rapid developments of digital processors and computer networks, processing big databases is not so hard today. Apache Hadoop is an open-source software framework that allows for the distributed processing of large datasets using simple programming models. In this paper, application of Hadoop distributed computing software for offline processing of power quality disturbances is proposed and it is shown that this application makes such a processing possible and leads to a very cheaper system with widespread usage, compared to the power quality analyzers.
Performance evaluation of zigbee transceiver for wireless body sensor systemIJCNCJournal
A cost effective impedance measurement system and a low cost
transceiver device has been presented for
wireless body sensor systems.The proposed device has an analog f
ront end to measure bioimpedance and
ZigBee device which provides reliable wireless communicatio
n.Bioelectric Impedance measurement
enables to characterize the state of tissues.Tetrapolar me
thod is an advance method for measuring
impedance since it is a very easy and simple method for practi
cal implementation.The principle of modified
tetrapolar method and its wireless transimission through zi
gbee has been investigated here.Different
modulation technique has been applied and it has been found that M
SK based transceiver is an efficient
one since it has low bit error rate and it produce constant enve
lope carrier signals which have no
amplitude and phase varations,hence it will be a more power s
aving technique.
This paper presents a discrete wavelet transform and neural network approach to fault
detection and classification and location in transmission lines. The fault detection is carried out by
using energy of the detail coefficients of the phase signals and artificial neutral network algorithm
used for fault type classification and fault distance location for all the types of faults for 220 KV
transmission line. The energies of the all three phases A, B, C and ground phase are given in put to
the neural network for the fault classification. For each type of fault separate neural network is
prepared for finding out the fault location. An improved performance is obtained once the neutral
network is trained suitably, thus performance correctly when faced with different system parameters
and conditions.
LOW POWER SI CLASS E POWER AMPLIFIER AND RF SWITCH FOR HEALTH CAREieijjournal1
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um
Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software.
And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate
goal for such application is to reach high performance and low cost, and between high performance and
low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and
RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can
transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the
specification requirements of the desired.
LOW POWER SI CLASS E POWER AMPLIFIER AND RF SWITCH FOR HEALTH CAREieijjournal
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um
Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software.
And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate goal for such application is to reach high performance and low cost, and between high performance and low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and
RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can
transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the specification requirements of the desired.
LOW POWER SI CLASS E POWER AMPLIFIER AND RF SWITCH FOR HEALTH CAREieijjournal
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um
Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software.
And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate
goal for such application is to reach high performance and low cost, and between high performance and
low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and
RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can
transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the
specification requirements of the desired
A transient current based micro grid connected power system protection scheme...IJECEIAES
Micro-grids comprise Distributed Energy Resources (DER’s) with low voltage distribution networks having controllable loads those can operate with different voltage levels are connected to the micro-grid and operated in grid mode or islanding mode in a coordinated way of control. DER’s provides clear environment-economical benefits for society and consumer utilities. But their development poses great technical challenges mainly protection of main and micro grid. Protection scheme must have to respond to both the main grid and micro-grid faults. If the fault is occurs on main grid, the response must isolate the DER’s from the main grid rapidly to protect the system loads. If the fault ocuurs within the micro-grid, the protection scheme must coordinate and isolates the least priority possible part of the grid to eliminate the fault. In order to deal with the bidirectional energy flow due to large numbers of micro sources new protection schemes are required. The system is simulated using MATLAB Wavelet Tool box and Wavelet based Multi-resolution Analysis is considered. Wavelet based Multi-resolution Analysis is used for detection, discrimination and location of faults on transmission network. This paper is discussed a transient current based micro-grid connected power system protection scheme using Wavelet Approach described on wavelet detailed-coefficients of Mother Biorthogonal 1.5 wavelet. The proposed algorithm is tested in micro-grid connected power systems environment and proved for the detection, discrimination and location of faults which is almost independent of fault impedance, fault inception angle (FIA) and fault distance of feeder line.
ENERGY EFFICIENT ROUTING IN WIRELESS SENSOR NETWORKS BASED ON QOSIAEME Publication
Energy is a serious resource parameter in Wireless Sensor Networks. Utilizing energy in an effectual manner is a challenging task in Wireless Sensor Networks. This paper presents an overview on various energy efficient routing protocols which fulfills the criteria of QoS parameters. Various energy effective and QoS based routing protocols have been compared. To improve the QoS in a network, data fusion and data accumulation is considered to be one of major energy saving technique. The routing protocols based on data aggregation, reduced cost routing and secure routing are also discussed in detail. Simulation tools like NS2, NS3, OMNET etc can be used to evaluate the network performance.
Development of Wireless Power Transfer using Capacitive Method for Mouse Char...IJPEDS-IAES
Wireless power transfer (WPT) is a non-contact power transfer within a
distance. With the advantage of not-contact concept, WPT enhances the
flexibility movement of the devices. Basically, there are three types of the
WPT which are inductive power transfer (IPT), capacitive power transfer
(CPT) and acoustic power transfer (APT). Among these, capacitive power
transfer (CPT) has the advantages of confining electric field between coupled
plates, metal penetration ability and also the simplicity in circuit topologies.
Therefore, we focus on the capacitive method in this paper. To be specific,
this paper aims to develop a wireless mouse charging system using capacitive
based method. This method enables wireless power transmission from mouse
pad to a wireless mouse. Hence, no battery requires to power up the mouse.
In this paper, a high efficiency Class-E converter is described in details to
convert the DC source to AC and the compensation circuit of resonant tank is
also proposed at the transmitter side in order to improve the efficiency. In the
end, a prototype is developed to prove the developed method. The
performances analysis of the developed prototype is discussed and the future
recommendation of this technique is also presented.
NETWORK ENERGY SAVING TECHNOLOGIES FOR GREEN WIRELESS ACCESS NETWORKSMadhav Thekkedath
Now a day smart phone users are increased and the energy consumption problem in mobile industry has become crucial. For the growth of mobile industry energy efficiency of the system must be improved. In order to improve the methods of network energy usage usually reduction of the Base Stations are to be employed.
The mobile industry faces a critical energy consumption challenge. By 2014 smart phones will exceed 1.82 billion units and surpass PCs as the most common web access devices. That’s why it is one of the important things. As all know that a smart is mainly for easy access to the network at anytime and anywhere. So it employs powering up all the Radio Base Stations (RBS’s) at maximum power. Since there are more number of service providers competition exist at the field of telecommunication. So it yields in more energy consumption to get monopoly among them. In the field of engineering, a system is usually designed to transform energy to useful work. Energy Efficiency can therefore be defined as the ratio of useful work to the total supplied energy. The useful work in a communication system refers to the effort to deliver modulated signals for information exchange. The definition of Energy Efficiency varies according to measured objects. There are two basic methods to measure Energy Efficiency. One way is to define Energy Efficiency as the ratio of efficient output power/energy to total input power/energy. This definition is widely used by systems and components such as power supply, Power Amplifiers, and antennas. The other way defines Energy Efficiency as the performance per unit of energy consumption.
The seminar gives a brief description about the methods to manage the network energy even when the on time access to network by mobile phones. Also gives a summary about existing and latest methodologies about the management in RBS’s.
A Review on Energy Efficient Modulation and Coding Techniques for Clustered W...Editor IJARCET
A standard wireless sensor network comprises of a huge number of sensor nodes with data processing and communication capabilities. The sensor nodes pass the gathered data using radio transmitter, to a sink either straightforwardly or through other nodes in a multi-hop approach. Wireless sensor network is a power consuming system since nodes perform on restricted power supply which decreases its lifetime. Optimally selected modulation and coding is extremely vital technique in wireless sensor networks. This paper surveys the performance of different modulation schemes and error control codes used in Sensor Networks. The survey also analyzes the role of modulation and coding techniques apply to different channel conditions to improve the lifetime of the clustered sensor network.
Electric power quality is a critical issue for electric utilities and their customers and identification of the power quality disturbances is an important task in power system monitoring and protection. Offline processing of power quality disturbances provides an economic alternative for electric distribution companies, not capable of buying enough number of power quality analyzers for monitoring the disturbances online. Due to the wide frequency range of the disturbances which may happen in a power system, a high sampling rate is necessary for digital processing of the disturbances. Therefore, a large volume of data must be processed for this purpose for each node of an electric distribution network and such a processing has not yet been practical. However, thanks to the rapid developments of digital processors and computer networks, processing big databases is not so hard today. Apache Hadoop is an open-source software framework that allows for the distributed processing of large datasets using simple programming models. In this paper, application of Hadoop distributed computing software for offline processing of power quality disturbances is proposed and it is shown that this application makes such a processing possible and leads to a very cheaper system with widespread usage, compared to the power quality analyzers.
Performance evaluation of zigbee transceiver for wireless body sensor systemIJCNCJournal
A cost effective impedance measurement system and a low cost
transceiver device has been presented for
wireless body sensor systems.The proposed device has an analog f
ront end to measure bioimpedance and
ZigBee device which provides reliable wireless communicatio
n.Bioelectric Impedance measurement
enables to characterize the state of tissues.Tetrapolar me
thod is an advance method for measuring
impedance since it is a very easy and simple method for practi
cal implementation.The principle of modified
tetrapolar method and its wireless transimission through zi
gbee has been investigated here.Different
modulation technique has been applied and it has been found that M
SK based transceiver is an efficient
one since it has low bit error rate and it produce constant enve
lope carrier signals which have no
amplitude and phase varations,hence it will be a more power s
aving technique.
This paper presents a discrete wavelet transform and neural network approach to fault
detection and classification and location in transmission lines. The fault detection is carried out by
using energy of the detail coefficients of the phase signals and artificial neutral network algorithm
used for fault type classification and fault distance location for all the types of faults for 220 KV
transmission line. The energies of the all three phases A, B, C and ground phase are given in put to
the neural network for the fault classification. For each type of fault separate neural network is
prepared for finding out the fault location. An improved performance is obtained once the neutral
network is trained suitably, thus performance correctly when faced with different system parameters
and conditions.
LOW POWER SI CLASS E POWER AMPLIFIER AND RF SWITCH FOR HEALTH CAREieijjournal1
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um
Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software.
And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate
goal for such application is to reach high performance and low cost, and between high performance and
low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and
RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can
transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the
specification requirements of the desired.
LOW POWER SI CLASS E POWER AMPLIFIER AND RF SWITCH FOR HEALTH CAREieijjournal
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um
Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software.
And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate goal for such application is to reach high performance and low cost, and between high performance and low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and
RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can
transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the specification requirements of the desired.
LOW POWER SI CLASS E POWER AMPLIFIER AND RF SWITCH FOR HEALTH CAREieijjournal
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um
Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software.
And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate
goal for such application is to reach high performance and low cost, and between high performance and
low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and
RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can
transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the
specification requirements of the desired
LOW POWER SI CLASS E POWER AMPLIFIER AND RF SWITCH FOR HEALTH CAREieijjournal
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um
Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software.
And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate
goal for such application is to reach high performance and low cost, and between high performance and
low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the specification requirements of the desired.
Low Power SI Class E Power Amplifier and Rf Switch for Health Careieijjournal1
This research was to design a 2.4 GHz class E Power Amplifier (PA) for health care, with 0.18um Semiconductor Manufacturing International Corporation CMOS technology by using Cadence software. And also RF switch was designed at cadence software with power Jazz 180nm SOI process. The ultimate goal for such application is to reach high performance and low cost, and between high performance and low power consumption design. This paper introduces the design of a 2.4GHz class E power amplifier and RF switch design. PA consists of cascade stage with negative capacitance. This power amplifier can transmit 16dBm output power to a 50Ω load. The performance of the power amplifier and switch meet the specification requirements of the desired.
LOW POWER CLASS AB SI POWER AMPLIFIER FOR WIRELESS MEDICAL SENSOR NETWORK bioejjournal
The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um
Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence
software, for health care applications. The ultimate goal for such application is to minimize the trade-offs
between performance and cost, and between performance and low power consumption design. This paper
introduces the design of a 2.4GHz class AB power amplifier which consists of two stage amplifiers. This
power amplifier can transmit 10dBm output power to a 50Ω load. The power added efficiency is 7.5% at
1dB compression point and the power gain is 10dB, the total power consumption is 0.135W. The
performance of the power amplifier meets the specification requirements of the desired.
LOW POWER CLASS AB SI POWER AMPLIFIER FOR WIRELESS MEDICAL SENSOR NETWORK bioejjournal
The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um
Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence
software, for health care applications. The ultimate goal for such application is to minimize the trade-offs
between performance and cost, and between performance and low power consumption design. This paper
introduces the design of a 2.4GHz class AB power amplifier which consists of two stage amplifiers. This
power amplifier can transmit 10dBm output power to a 50Ω load. The power added efficiency is 7.5% at
1dB compression point and the power gain is 10dB, the total power consumption is 0.135W. The
performance of the power amplifier meets the specification requirements of the desired.
LOW POWER CLASS AB SI POWER AMPLIFIER FOR WIRELESS MEDICAL SENSOR NETWORKbioejjournal
The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um
Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence
software, for health care applications. The ultimate goal for such application is to minimize the trade-offs
between performance and cost, and between performance and low power consumption design. This paper
introduces the design of a 2.4GHz class AB power amplifier which consists of two stage amplifiers. This
power amplifier can transmit 10dBm output power to a 50Ω load. The power added efficiency is 7.5% at
1dB compression point and the power gain is 10dB, the total power consumption is 0.135W. The
performance of the power amplifier meets the specification requirements of the desired.
LOW POWER CLASS AB SI POWER AMPLIFIER FOR WIRELESS MEDICAL SENSOR NETWORKbioejjournal123
The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um
Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence
software, for health care applications. The ultimate goal for such application is to minimize the trade-offs
between performance and cost, and between performance and low power consumption design. This paper
introduces the design of a 2.4GHz class AB power amplifier which consists of two stage amplifiers. This
power amplifier can transmit 10dBm output power to a 50Ω load. The power added efficiency is 7.5% at
1dB compression point and the power gain is 10dB, the total power consumption is 0.135W. The
performance of the power amplifier meets the specification requirements of the desired.
Design and Implementation of Wireless Sensor Node for WSN for Automatic Meter...paperpublications3
Abstract:Deploying an embedded technology, a wireless sensor node is designed and implemented for establishment of Wireless Sensor Network (WSN) for automatic meter reading. The amount of power consumed by the load is extracted by passing the respective current through 1Ohm resistor. The analog voltage observed across it is digitized by employing on chip ADC of AVR Atmega 8L microcontroller. The ADC of 10 bit resolution helps to enhance preciseness in the data. Using principle of energy meter, the power consumed is determined and depicted in the terms of watts and units as well. An embedded firmware is developed by employing CodeVisionAVR, the IDE, which is dedicated for AVR family of microcontrollers. Employing an ubiquitous technology, the Zigbee technology, RF communication is established at 2.4GHz of ISM band. The Zigbee RF module is interfaced to the system and programmed by using X-CTU. Each node (End Devices) is assigned with its own ID and disseminates the data to the co-ordinator node, which is interfaced to the base station. The present wireless sensor network is operating in star technology and following IEEE 802.15.4 standards, it is operating with great reliability. The WSN is suitable for electric power distribution and control boards. Keyword:Automatic Meter Reading, AVR Microcontroller, Embedded technology, IEEE802.15.4, WSN, Zigbee technology.
Title:Design and Implementation of Wireless Sensor Node for WSN for Automatic Meter Reading
Author:A. M. Pawar, S. N. Patil, B. P. Ladgaonkar
International Journal of Recent Research in Mathematics Computer Science and Information Technology, (IJRRMCSIT)
Paper Publications
Design and Implementation of Wireless Sensor Node for WSN for Automatic Meter...paperpublications3
Abstract:Deploying an embedded technology, a wireless sensor node is designed and implemented for establishment of Wireless Sensor Network (WSN) for automatic meter reading. The amount of power consumed by the load is extracted by passing the respective current through 1Ohm resistor. The analog voltage observed across it is digitized by employing on chip ADC of AVR Atmega 8L microcontroller. The ADC of 10 bit resolution helps to enhance preciseness in the data. Using principle of energy meter, the power consumed is determined and depicted in the terms of watts and units as well. An embedded firmware is developed by employing CodeVisionAVR, the IDE, which is dedicated for AVR family of microcontrollers. Employing an ubiquitous technology, the Zigbee technology, RF communication is established at 2.4GHz of ISM band. The Zigbee RF module is interfaced to the system and programmed by using X-CTU. Each node (End Devices) is assigned with its own ID and disseminates the data to the co-ordinator node, which is interfaced to the base station. The present wireless sensor network is operating in star technology and following IEEE 802.15.4 standards, it is operating with great reliability. The WSN is suitable for electric power distribution and control boards.
Keyword:Automatic Meter Reading, AVR Microcontroller, Embedded technology, IEEE802.15.4, WSN, Zigbee technology.
This paper describes the design of an MMIC phase shifter which can be used in a 4-channel 26-28 GHZ transmitter IC. The MMIC phase shifter is used for 5G RF front Ended applications. MMICs usually include power amplifiers with 4-bit digital phase shifters to make the phase adjustable. The whole design was used for the transmit chain of a mobile device and in a base-station.Future topology will continue to be improved.
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radiation survey meter to measure low level gamma radiation using NAI(T1) scintillation detector. A
scintillation detector was used as radiation detector and a microcontroller PIC16F876 was used to control
the function of the developed system. The microcontroller generated square wave frequency at specified
pulse width to produce high voltage (+1200V) and regulates it. The high voltage was required to activate
the scintillation detector. Preamplifier and amplifier were designed to make the detector signal for the
further amplification. Microcontroller senses the pulses from the amplifier output and processes data by
software and displays the results. The microcontroller was programmed using a high level programming
language ‘C’ with PCWH compiler.
SOI RF Switch for Wireless Sensor NetworkADEIJ Journal
The objective of this research was to design a 0-5 GHz RF SOI switch, with 0.18um power Jazz SOI technology by using Cadence software, for health care applications. This paper introduces the design of a RF switch implemented in shunt-series topology. An insertion loss of 0.906 dB and an isolation of 30.95 dB were obtained at 5 GHz. The switch also achieved a third order distortion of 53.05 dBm and 1 dB compression point reached 50.06dBm. The RF switch performance meets the desired specification requirements.
Wireless power transmission (WPT) has attracted a wide variety of subjects in various disciplines and has also become a highly active research field due to its capacity to facilitate charging systems. Wireless power transmission will be compulsory to use soon as this technology enables electrical energy to be transmitted from a power source to an electrical load over an air gap without connecting wires. Wireless power transmission has been developed in the low power (1W to 10W) and high power (100W-500W) region. While the low power region development focuses on powering medical transplants and mobile charging, the higher end of the power spectrum is being developed for the electric vehicle (EV) applications. However medium power range (10W to 100W) is relatively unexplored due to lack of proper applications. The commercial WPT scheme is mainly used for the charging of lithium-ion batteries. Sensitive medium power loads like Lithium Polymer (LiPo) batteries do not have a wireless modular charging system. This paper discusses a proposed scheme for wireless charging of medium-range loads. LiPo batteries are used as the targeted charging load. A minimalistic approach has been considered while designing the electronics for efficiency improvement and a compact, modular scheme. The proposed scheme has been developed for drone and robotics applications and the results are validated.
Efficient power allocation method for non orthogonal multiple access 5G systemsIJECEIAES
One of the hot research topics for the upcoming 5G (fifth-generation) wireless communication networks is the non orthogonal multiple access (NOMA) systems, where it have attracted both industrial and academic fields to improve the existing spectral efficiency. In fact, the multiuser detection process for NOMA systems is largely affected by the power distribution of the received signals. In this paper, a new method has been proposed to control the transmit power among active users in one of the promising NOMA systems; the interleave division multiple access (IDMA) which has been adopted here for consideration. Unlike conventional methods, where tedious mathematical computations are required; a simple and direct method has been derived. The proposed method has been applied to IDMA system with different FEC codes. The obtained results show that the proposed method outperforms the conventional one as compared to optimal results.
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%.
Similar to Class D Power Amplifier for Medical Application (20)
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Class D Power Amplifier for Medical Application
1. Informatics Engineering, an International Journal (IEIJ), Vol.4, No.2, June 2016
DOI : 10.5121/ieij.2016.4202 9
CLASS D POWER AMPLIFIER FOR MEDICAL
APPLICATION
Wei Cai1
, Liang Huang2
and ShunQiang Wang3
1
Department of Electrical Engineering and Computer Science, University of California,
Irvine, CA, USA
2
Department of Information & Electronic Engineering, ZheJiang Gongshang University,
Hang Zhou, Zhejiang, China
3
Department of Mechanical Engineering, Lehigh University, Bethlehem, PA,
USA
ABSTRACT
The objective of this research was to design a 2.4 GHz class AB Power Amplifier (PA), with 0.18um
Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence
software, for health care applications. The ultimate goal for such application is to minimize the trade-offs
between performance and cost, and between performance and low power consumption design. This paper
introduces the design of a 2.4GHz class D power amplifier which consists of two stage amplifiers. This
power amplifier can transmit 15dBm output power to a 50Ω load. The power added efficiency was 50%
and the total power consumption was 90.4 mW. The performance of the power amplifier meets the
specification requirements of the desired.
KEYWORDS
Two stage, Class D, Power amplifier, Healthcare
1. INTRODUCTION
Wireless medical sensor networks have offered significant improvements to the
healthcare industry in the 21st century, technology changes our life at
everywhere[1][2][3][4]. Devices are arranged on a patient’s body and can be used to
closely monitor the physiological condition of patients [5][6][7][8][9][10][11][12][13].
These medical sensors monitor the patient’s vital body parameters, such as temperature,
heart rate, blood pressure, oxygen saturation, and transmit the data to a doctor in real
time [2]. When a doctor reviews the transmitted sensor readings, they can get a better
understanding of a patient's health conditions. The benefit for the patients is that they do
not need to frequently visit the hospital, thus patients could reap time and money
savings. Such wireless medical sensors will continue to play a central role in the future
of modern healthcare. People living in rural areas would especially benefit, since 9% of
physicians work in rural areas while almost 20% of the US population lives there [2]. A
shortage of physicians and specialist is a big issue in such areas, even today. But
Wireless Medical Sensor Network technology has the potential to alleviate the problem.
In a wireless sensor network, as seen in the figure 1 below, each device is capable of
monitoring, sensing, and/or displaying information. A sensor node is capable of
gathering sensory information, processing it in some manner, and communicating with
other nodes in the network[2].
2. Informatics Engineering, an International Journal (IEIJ), Vol.4, No.2, June 2016
10
Figure 1. Block diagram of a typical sensor node
Figure 1 shows that the basic sensing node can collect the physiological signals (e.g.:
such as EEG, ECG, body temperature, blood pressure, heart beat etc.), when attached to
a human body [14]. The processing unit processes all the sensed signals, then sends out
the data based on communication protocols. All the processed data will be transmitted
through a wireless link to a portable, personal base-station. Doctors can then obtain all
the patients’ data through the network.
The main challenge for such sensor node is the high power consumption of portable
devices. A solution to this challenge is the integration of the portable devices’ digital and
RF circuitry into one chip.
Figure 2. Block diagram of a transmitter
The receiver will receive the signal and will also perform DSP processing after the data
is sent out by the transmitter [2]. Figure 2 is the transmitter diagram. It is desirable that
the transmitter and receiver are low power devices. The director-conversion transmitter
is very popular for such applications, because it offers versatility, flexibility, spectral
efficiency, and low complexity. These features make the transmitter simpler than the
super-heterodyne transmitter. Small chip and circuit size, and low power consumption
can be achieved with a direct-conversion transmitter architecture. For the front-end
transmitter, the major objectives are 1) transmit RF signals and 2) recover the biosignal
classification. This paper proposes a low power receiver design. This paper is mainly for
the power amplifier design, since other portions of the circuit design are already
discussed in the paper [14]. In order to meet the standards, the PA is designed as shown
in table 1.
3. Informatics Engineering, an International Journal (IEIJ), Vol.4, No.2, June 2016
11
Table 1: PA design requirement.
Parameter Target(Unit)
Output Power 10dBm
PAE 40%
Stability >1
S11 -10 dB
2. METHODS
Over the past 30 years, research on CMOS radio-frequency (RF) front-end circuits has
progressed extremely quickly. The ultimate goal for the wireless industry is to minimize
the trade-offs between performance and cost, and between performance and low power
consumption design [15].
The proposed Class D amplifier has low output power and good linearity based on the
IEEE 802.11b communication protocol. The Class-D amplifier, whose basic form is seen
in figure 3, consists primarily of two switches. During device operation, the switches
will alternately turn on and off due to the driver stage, and the output voltage of the
switch varies between ground and the supply voltage. Also within the device is a
bandpass filter composed of a series LC resonator tuned to the desired frequency,
providing nonzero conductance essentially only in the band of interest. Such filters
allows the maximization of the current in the frequency band of interest, while
minimizing the current flowing at the unwanted band. Hence, no power dissipation
happens outside of the desired operational band[16].
Figure 3. Block diagram of a class D power amplifier
4. Informatics Engineering, an International Journal (IEIJ), Vol.4, No.2, June 2016
12
Figure 4. Schematic of PA design
To get the optimum bias, small-signal simulation and 1dB compression point simulation
are completed by their power output capability. Resulting design values can be shown in
Table 2.
Table 2: 2.4GHz PA driver stage component.
Parameter Size (Unit)
Q1 W/L=1um/0.5um (f=8,m=18)
Q2 W/L=1um/0.6um (f=2,m=12)
L1 2nH (Q=20)
C1 600fH
3. RESULTS
As seen in figure 5(a), the output power was 16. As seen in figure 5(b), the frequency is
at 2.4 GHz the S11 is less than -10 dB, also, the total power of the PA is 90.4 mW.
As seen in figure 6(a), Kf is larger than 1 for all frequencies from 1 to 3 GHz, so this
circuit was totally stable. And the PAE could reach 50%.
5. Informatics Engineering, an International Journal (IEIJ), Vol.4, No.2, June 2016
13
Figure 5. (a) Output power (b) S11
Figure 6. (a) Kf (b) PAE
4. CONCLUSION
This paper describes the method of designing and simulating power amplifier using
cadence software based on SIMC CMOS process 180nm technology. This PA is used for
sensor networks. This research is still in the early stages of development of a low cost
and low power device. In order to reach the performance that is needed, the PA process
uses group III and IV elements. This circuit meets the scheduled requirements for the
CMOS process, but it still has room to improve performance metrics. When the sensor is
coupled with communications technologies such as mobile phones and the Internet, the
sensor network constant information flow between individuals and their doctors. Such
low cost and low power device can save a lot of hospitalization resources. To realize
this, future improvement is needed.
6. Informatics Engineering, an International Journal (IEIJ), Vol.4, No.2, June 2016
14
REFERENCES
[1] Stults BM., (1984) “Preventive Health Care for the Elderly”, Western Journal of Medicine, pp
832- 845.
[2] Afsaneh Minaie, Ali Sanati-Mehrizy, Paymon Sanati-Mehrizy & Reza Sanati-Mehrizy (2013).
“Application of Wireless Sensor Networks in Health Care System”, ASEE, vol 3, pp 21-24.
[3] Narayanunni, Vinay, Heng Gu, and Choongho Yu(2011) "Monte Carlo simulation for
investigating influence of junction and nanofiber properties on electrical conductivity of
segregated-network nanocomposites." Acta Materialia 59.11 pp 4548-4555.
[4] Gu, H., X-L. Gao, and X. C. Li(2009)"Molecular Dynamics Study on Mechanical Properties and
Interfacial Morphology of an Aluminum Matrix Nanocomposite Reinforced by -Silicon Carbide
Nanoparticles." Journal of Computational and Theoretical Nanoscience 6.1 pp61-72.
[5] Q Zhang, X Xiao, YT Cheng, MW Verbrugge (2014)”A non-destructive method for measuring
the mechanical properties of ultrathin films prepared by atomic layer deposition”, Applied
Physics Letters 105 (6), 061901
[6] X Yu, X Wang, Q Zhang, J Li, J Liu (2014) ” Oxidation-resistant, solution-processed plasmonic
Ni nanochain-SiOx (x< 2) selective solar thermal absorbers,” Journal of Applied Physics 116 (7),
073508.
[7] H Liu, J Liu, Y Liu, K Bertoldi, CD Vecitis (2014) “Quantitative 2D electrooxidative carbon
nanotube filter model: Insight into reactive sites”, Carbon 80, pp 651-664.
[8] Qinghua Wang, Huimin Xie, Jia Liu, Xue Feng, Fulong Dai(2009) “ Instability and failure
analysis of film-substrate structure under electrical loading“ ,International Conference on
Electronic Packaging Technology & High Density Packaging, pp 1027-1029.
[9] Liang Wanga, Sajjad H. Marufa, Devid Manigliob, c, Yifu Ding (2012)“ Fabrication and
characterizations of crosslinked porous polymer films with varying chemical compositions”,
Polymer ,Volume 53, Issue 17, pp 3749–3755.
[10] Liang Wanga, Yifu Ding (2015)”Creating micro-structured hydrogel-forming polymer films by
photopolymerization in an evaporating solvent: Compositional and morphological evolutions”,
European Polymer Journal, Volume 66, pp 99–107.
[11] Wei Cai , Leslie Lauren Gouveia, “Modeling and simulation of Maximum power point tracker in
Ptolemy” , Journal of Clean Energy Technologies, Vol. 1, No. 1, 2013 , PP 6-9.
[12] Wei Cai, Jeremy. Chan, David Garmire, “3-Axes MEMS Hall-Effect Sensor,” presented by the
2011 IEEE Sensors Applications Symposium, pp141-144.
[13] Wei Cai, Xuelin Cui, Xiangrong Zhou, “Optimization of a GPU Implementation of Multi-
dimensional RF Pulse Design Algorithm,” International Conference on Bioinformatics and
Biomedical Engineering 2011
[14] Wei Cai & Frank Shi, (2016) “2.4 GHz Heterodyne Receiver for Healthcare Application”, IJPPS,
vol 6,pp 1-7.
[15] Bo Shi, Michael Yan Wah Chia (2011) “On The Performance of Class-D Power Amplifiers With
RF Pulse-Width Modulation”, Proceedings of the Asia-Pacific Microwave Conference, pp1550-
1553.
[16] Jianhui Cui, Ke Zhang, Tong Tian (2013)“A Dual-Level and Dual-Band Class-D CMOS Power
Amplifier for IoT Applications”, IEEE 11th International New Circuits and Systems Conference.
7. Informatics Engineering, an International Journal (IEIJ), Vol.4, No.2, June 2016
15
Authors
Wei Cai is a graduate student at the University of California, Irvine, CA. She received
her Masters degree from Dept. of Electrical Engineering, University of Hawaii at
Manoa and Bachelor degree from Zhejiang University, China. Her research interests
include device physics simulation, analog/ RF circuit design.
Liang huang is an associate Professor, Electronics College of Zhejiang Gongshang
University. He got phd from Zhejiang University china, and finished his postdoc at
Polytechnic of Turin, Italy, and Hanyang University, Seoul, Korea. His research is
mainly focus on Research on: Intelligent Control; Electrical Robotics.
Shunqiang Wang received his Ph.D. in Mechanical Engineering from Lehigh
University in 2016. His research interests are in the development of microfluidic
devices and point-of-care devices for biomedical and chemical applications.