Showing total 16 results

1. A novel carbon nanotubefet based bulk built-in current sensor for single event upset detection.

Author

RAJALAKSHMI, T. R. and SUDHAKAR, R.

Subjects

CARBON nanotubes, COMPLEMENTARY metal oxide semiconductors, ELECTRIC currents, ELECTRIC circuits, ELECTRIC inverters, TRANSISTORS

Abstract

The continuous scaling down of circuits has resulted in the development of carbon nanotubes (CNT) which provides a better alternative of silicon. High device packing densities is one of the advantageous factors of CNTFET compared to CMOS technology. This paper describes the new bulk current based built-in current sensor (BBICS) for the detection of single event upset (SEU) in CNTFET SRAM with less number of transistors compared to previous designs. The advantage of it is that its ability to detect low ranges of microcurrent. The complete circuit, both SRAM and Sensor are built with CNTFET. This also possesses the advantage of being used in the detection of negative current pulses with the addition of an inverter circuit. This circuit operates best for two different technology nodes. This built-in current sensor is connected to the bulk terminal of the CNTFET SRAM. PVT analysis and power dissipation analysis were done for the proposed circuit. [ABSTRACT FROM AUTHOR]

Published

2016

2. Modelling and analysis of an open-loop induction motor drive incorporating the effect of inverter dead-time.

Author

GUHA, ANIRUDH and NARAYANAN, G.

Subjects

INDUCTION motors, ELECTRIC inverters, IDEAL sources (Electric circuits), ELECTRONIC modulation, FREQUENCY changers, ENGINEERING models

Abstract

The objective of this paper is to study the influence of inverter dead-time on steady as well as dynamic operation of an open-loop induction motor drive fed from a voltage source inverter (VSI). Towards this goal, this paper presents a systematic derivation of a dynamic model for an inverter-fed induction motor, incorporating the effect of inverter dead-time, in the synchronously revolving dq reference frame. Simulation results based on this dynamic model bring out the impact of inverter dead-time on both the transient response and steady-state operation of the motor drive. For the purpose of steady-state analysis, the dynamic model of the motor drive is used to derive a steady-state model, which is found to be non-linear. The steady-state model shows that the impact of dead-time can be seen as an additional resistance in the stator circuit, whose value depends on the stator current. Towards precise evaluation of this dead-time equivalent resistance, an analytical expression is proposed for the same in terms of inverter dead-time, switching frequency, modulation index and load impedance. The notion of dead-time equivalent resistance is shown to simplify the solution of the non-linear steady-state model. The analytically evaluated steady-state solutions are validated through numerical simulations and experiments. [ABSTRACT FROM AUTHOR]

Published

2016

3. High performance AC-DC control power supply for low voltage ride through inverters.

Author

SAICHAND, K., KUMRAWAT, AKSHAY, and JOHN, VINOD

Subjects

AC DC transformers, LOW voltage systems, ELECTRIC circuit design & construction, VOLTAGE control, ELECTRIC inverters

Abstract

This paper presents a control power supply (CPS) design which is used to feed power to the subsystems of a power converter. The CPS design presented here maintains a constant 24Vdc output even over a wide (90Vrms to 270Vrms ) ac voltage variation at its input for a High Power Converter (HPC). The circuit design and closed loop control design of such a CPS are presented. During starting, the power supply to the control circuitry of the CPS in turn is obtained using a separate start-up power supply. The various design issues and details of the on-board power supply and start-up power circuit to ensure the reliable start-up and shut down of the CPS are analyzed. The CPS was tested for wide input voltage range (vin) and the performance validates the design. The CPS has also been tested for an input side voltage sag and its performance allows the HPC to meet the low voltage ride-through requirements. [ABSTRACT FROM AUTHOR]

Published

2016

4. Two-motor single-inverter field-oriented induction machine drive dynamic performance.

Author

JOSHI, BHAKTI and CHANDORKAR, MUKUL

Subjects

ELECTRIC inverters, INDUCTION machinery, TORQUE control, SIMULATION methods & models, PERFORMANCE evaluation

Abstract

Multi-machine, single-inverter induction motor drives are attractive in situations in which all machines are of similar ratings, and operate at approximately the same load torques. The advantages include small size compared to multi-inverter system, lower weight and overall cost. However, field oriented control of such drives is a challenge since no two motors will have exactly the same operating conditions at any time. In general, at least some motors in the system will operate away from perfect field orientation. It is therefore important to analyse their torque dynamics carefully. This paper discusses existing multi-machine field-oriented control methods, and analyses and compares them from the viewpoint of dynamic performance. For this, an analytical framework based on small-signal analysis is developed to compare multi-machine control methods. This analysis is verified by simulations and experiments. [ABSTRACT FROM AUTHOR]

Published

2014

5. Minimization and identification of conducted emission bearing current in variable speed induction motor drives using PWM inverter.

Author

RAMACHANDRAN, A., CHANNA REDDY, M., and MOODITHAYA, RANJAN

Subjects

INDUCTION motors, EMISSIONS (Air pollution), ELECTRONIC modulation, ELECTRIC inverters, ELECTRIC currents, POWER electronics, ELECTRIC equipment, MICROPROCESSORS

Abstract

The recent increase in the use of speed control of ac induction motor for variable speed drive using pulse width modulation (PWM) inverter is due to the advent of modern power electronic devices and introduction of microprocessors. There are many advantages of using ac induction motor for speed control applications in process and aerospace industries, but due to fast switching of the modern power electronic devices, the parasitic coupling produces undesirable effects. The undesirable effects include radiated and conducted electromagnetic interference (EMI) which adversely affect nearby computers, electronic/electrical instruments and give rise to the flow of bearing current in the induction motor. Due to the flow of bearing current in the induction motor, electrical discharge machining takes place in the inner race of the bearing which reduces the life of the bearing. In high power converters and inverters, the conducted and radiated emissions become a major concern. In this paper, identification of bearing current due to conducted emission, the measurement of bearing current in a modified induction motor and to minimize the bearing current are discussed. The standard current probe, the standard line impedance stabilization network (LISN)), the electronics interface circuits are used to measure high frequency common mode current, bearing current and to minimize the conducted noise from the system. The LISN will prevent the EMI noise entering the system from the supply source by conductive methods, at the same time prevents the EMI generated if any due to PWM, fast switching in the system, will not be allowed to enter the supply line. For comparing the results with Federal Communications Commission (FCC) and Special Committee on Radio Interference (CISPR) standards, the graphs are plotted with frequency Vs, line voltage in dBμV, common mode voltage in dBμ V and the bearing current in dBμ A with out and with minimizing circuits. [ABSTRACT FROM AUTHOR]

Published

2008

6. A novel converter topology for TEM applications.

Author

KEDARNATH, S. and VASUDEVAN, KRISHNA

Subjects

ELECTRIC inverters, ELECTROMAGNETISM, REMOTE sensing, POWER resources, ELECTRIC currents, ELECTRIC potential

Abstract

Time-domain Electro Magnetic (TEM) systems, are used for remote sensing of conductive mineral deposits buried under the surface of the earth. A low frequency trapezoidal current excitation set-up in an exciter coil loop causes a flux that penetrates deep into the earth. When the excitation is cut off sharply, conductive deposits in the earth carrying flux react by causing eddy current flows within them. The flux produced by such eddy currents is picked up by a sensor coil. By comparing the emf induced in the sensor coil with a priori known emf patterns for mineral deposits, the presence of mineral deposits can be ascertained. The voltage, current and energy levels of the TEM system, require special type of excitation technique. Power converters for such non-standard requirements are not reported in the literature, particularly for TEM applications. This paper introduces TEM systems to the reader and presents the requirements for excitation. A converter topology to meet the requirements, it's analysis, control and performance are presented. Among other alternatives that the authors have attempted, the topology presented features reduced number of passive elements, high voltage gain and low losses. These features enable the sensor head to be operated from the normal low level battery. [ABSTRACT FROM AUTHOR]

Published

2008

7. Design and implementation of FPGA-based phase modulation control for series resonant inverters.

Author

GAYATHRI, N. and CHANDORKAR, M. C.

Subjects

FIELD programmable gate arrays, ELECTRONIC modulation, ELECTRIC inverters, ELECTRICITY, ELECTRIC currents, PHASE modulation, DIGITAL control systems, LIMIT cycles

Abstract

Owing to the tremendous advances in the digital technology, and improved reliability and performance of the digital control mechanisms, this paper focuses on design and implementation of digital controller using FPGA-based circuit design approach. The digital controller proposed is designed for series resonant inverter used in DC-DC converter applications. Phase modulation technique is proposed for the realization of digital controller on FPGA. The Series Resonant Converter (SRC) is considered in this paper as a preferred converter topology for high power, high voltage power supplies. This paper studies the implementation of phase shift modulation technique using FPGA. The inverter designed, is IGBT based, and Zero Voltage Switching (ZVS) technique is implemented due to reduced stresses on devices and increased efficiency. The phase modulated series resonant inverters (PM-SRC) promotes ZVS operation when its switching frequency is greater than resonant frequency. The designed PM controller is realized using FPGA on which control algorithm and other features of a controller are developed. The series resonant inverter is built and tested for full load under open loop and closed loop conditions at a switching frequency of 20 kHz. The results are presented under varying load conditions. The simulation and the experimental results were found to match closely. [ABSTRACT FROM AUTHOR]

Published

2008

8. Impedance estimation of photovoltaic modules for inverter start-up analysis.

Author

Bharadwaj, Pallavi, Kulkarni, Abhijit, and John, Vinod

Subjects

PHOTOVOLTAIC power systems, ELECTRIC impedance, ELECTRIC inverters, ELECTRIC capacity, DYNAMIC models, ELECTRIC transients

Abstract

Starting-up of photovoltaic (PV) inverters involves pre-charging of the input dc bus capacitance. Ideally, direct pre-charging of this capacitance from the PV modules is possible as the PV modules are current limited. Practically, the parasitic elements of the system such as the PV module capacitance, effective wire inductance and resistance determine the start-up transient. The start-up transient is also affected by the contactor connecting the PV modules to the inverter input dc bus. In this work, the start-up current and voltages are measured experimentally for different parallel and series connections of the PV modules. These measurements are used to estimate the stray elements, namely the PV module capacitance, effective inductance and resistance. The estimation is based on a linear small-signal model of the start-up conditions. The effect of different connections of the PV modules and the effect of varying irradiation on the scaling of the values of the stray elements are quantified. The System model is further refined by inclusion of connecting cable capacitance and contactor resistance. Dynamics of the resulting fifth-order model are seen to be consistent with those of the simplified third-order model. The analysis of this paper can be used to estimate the expected peak inrush current in PV inverters. It can also be used to arrive at a detailed modelling of PV modules to evaluate the transient behaviour. [ABSTRACT FROM AUTHOR]

Published

2017

9. A novel design methodology for low pass filter stage of a voltage source inverter.

Author

D. E., ANIRBAN

Subjects

FILTERS & filtration design & construction, IDEAL sources (Electric circuits), ELECTRIC inverters, PULSE width modulation transformers, LYMPHOBLASTOID cell lines

Abstract

A low pass filter, an invariable constituent of a PWM based voltage source inverter, poses several challenges in its design. With a higher rating of the inverter, the volume as well as the cost of the components increases. With time, the filter design has evolved from the simpler first order filter to higher orders, the most popular being the third order LCL filters. Though the attenuation of high frequency components, offered by the higher order filters, has resulted in improved efficiency, the inherent instability of the higher order filter systems requires complex controls for proper functioning. Keeping this in mind, the paper describes the design methodology of a second order LC filter system based on certain performance indices that reflect the ratings of the components. [ABSTRACT FROM AUTHOR]

Published

2016

10. A single phase photovoltaic inverter control for grid connected system.

Author

PANDA, AUROBINDA, PATHAK, M. K., and SRIVASTAVA, S. P.

Subjects

ELECTRIC inverters, PHOTOVOLTAIC power systems, ELECTRIC power distribution grids, ELECTRIC potential, PHASE-locked loops

Abstract

This paper presents a control scheme for single phase grid connected photovoltaic (PV) system operating under both grid connected and isolated grid mode. The control techniques include voltage and current control of grid-tie PV inverter. During grid connected mode, grid controls the amplitude and frequency of the PV inverter output voltage, and the inverter operates in a current controlled mode. The current controller for grid connected mode fulfills two requirements - namely, (i) during light load condition the excess energy generated from the PV inverter is fed to the grid and (ii) during an overload condition or in case of unfavorable atmospheric conditions the load demand is met by both PV inverter and the grid. In order to synchronize the PV inverter with the grid a dual transport delay based phase locked loop (PLL) is used. On the other hand, during isolated grid operation the PV inverter operates in voltage-controlled mode to maintain a constant amplitude and frequency of the voltage across the load. For the optimum use of the PV module, a modified P&O based maximum power point tracking (MPPT) controller is used which enables the maximum power extraction under varying irradiation and temperature conditions. The validity of the proposed system is verified through simulation as well as hardware implementation. [ABSTRACT FROM AUTHOR]

Published

2016

11. High performance predictive current control of a three phase VSI: An experimental assessment.

Author

KUMAR, VIKAS, GAUR, PRERNA, and MITTAL, A

Subjects

PREDICTIVE control systems, ELECTRIC potential measurement, LEVEL of difficulty, ELECTRIC inverters, ALGORITHMS, HARMONIC distortion (Physics), ELECTRIC distortion

Abstract

Delay has a significant role to play in the implementation of the predictive current control scheme as large amount of calculations are involved. Compensating delay in the predictive current controller design can lead to an improved load current total harmonic distortion (THD) and also an increased switching frequency. Minimization of switching frequency while maintaining the lower value of load current THD requires multiple objective optimization which is achieved by optimizing a single objective function, constructed using weighting factors as a linear combination of individual objective function. The effect of weighting factor on the switching frequency minimization and the current tracking error with delay compensation for the two level voltage source inverter (VSI) are investigated in this paper. The outcomes of the predictive current control using an optimized weighting factor which is calculated using branch and bound algorithm with the delay compensation are compared with the PWM based current control scheme. The experimental tests are conducted on a 2.2 kW VSI to verify the simulation observations. [ABSTRACT FROM AUTHOR]

Published

2014

12. Space vector-based analysis of overmodulation in triangle-comparison based PWM for voltage source inverter.

Author

MODI, MANOJ, VENUGOPAL, S, and NARAYANAN, G

Subjects

VECTOR analysis, PULSE width modulation, IDEAL sources (Electric circuits), ELECTRIC inverters, ALGORITHMS, HARMONIC distortion (Physics)

Abstract

The equivalence of triangle-comparison-based pulse width modulation (TCPWM) and space vector based PWM (SVPWM) during linear modulation is well-known. This paper analyses triangle-comparison based PWM techniques (TCPWM) such as sine-triangle PWM (SPWM) and common-mode voltage injection PWM during overmodulation from a space vector point of view. The average voltage vector produced by TCPWM during overmodulation is studied in the stationary (a-b) reference frame. This is compared and contrasted with the average voltage vector corresponding to the well-known standard two-zone algorithm for space vector modulated inverters. It is shown that the two-zone overmodulation algorithm itself can be derived from the variation of average voltage vector with TCPWM. The average voltage vector is further studied in a synchronously revolving (d-q) reference frame. The RMS value of low-order voltage ripple can be estimated, and can be used to compare harmonic distortion due to different PWM methods during overmodulation. The measured values of the total harmonic distortion (THD) in the line currents are presented at various fundamental frequencies. The relative values of measured current THD pertaining to different PWM methods tally with those of analytically evaluated RMS voltage ripple. [ABSTRACT FROM AUTHOR]

Published

2013

13. Improved direct torque control of induction motor with dither injection.

Author

BEHERA, R. K. and DAS, S. P.

Subjects

TORQUE, INDUCTION motors, MECHANICS (Physics), HYDRAULIC torque converters, ELECTRICITY, ELECTRIC inverters

Abstract

In this paper, a three-level inverter-fed induction motor drive operating under Direct Torque Control (DTC) is presented. A triangular wave is used as dither signal of minute amplitude (for torque hysteresis band and flux hysteresis band respectively) in the error block. This method minimizes flux and torque ripple in a three-level inverter fed induction motor drive while the dynamic performance is not affected. The optimal value of dither frequency and magnitude is found out under free running condition. The proposed technique reduces torque ripple by 60% (peak to peak) compared to the case without dither injection, results in low acoustic noise and increases the switching frequency of the inverter. A laboratory prototype of the drive system has been developed and the simulation and experimental results are reported. [ABSTRACT FROM AUTHOR]

Published

2008

14. Simplified loss analysis and comparison of full-bridge, full-range-ZVS DC-DC converters.

Author

BHARDWAJ, SHUBHENDU, BORAGE, MANGESH, and TIWARI, SUNIL

Subjects

ELECTRIC potential, ELECTRIC inverters, ELECTRIC currents, DIRECT currents, ELECTRICITY, POWER electronics

Abstract

The loss of zero-voltage-switching (ZVS) of active switches has been a serious limitation of full-bridge (FBZVS) converters. Many techniques have been proposed in the past to extend the range of ZVS operation over the wider and also the full range of operation. However, in these techniques ZVS is achieved at the expense of additional conduction loss in active switches and losses in the auxiliary components. In this paper, the analysis for the additional losses in various full-range FBZVS DC-DC converters and their comparative evaluation is reported. Closed form expressions are derived for average value of device currents and losses. The loss curves for various topologies are plotted and compared. The analytical results are found to be consistent with the experimental efficiency tests performed on 500W, 100 kHz prototype. It is concluded that a recently proposed new topology has the least penalty of additional losses. [ABSTRACT FROM AUTHOR]

Published

2008

15. Modified impedance source inverter for power conditioning system.

Author

Suganthi, J and Rajaram, M

Subjects

*ELECTRIC impedance, *ELECTRIC inverters, *PULSE width modulation, *HARMONIC distortion (Physics), *FIELD programmable gate arrays

Abstract

Based on classical impedance source inverter concept, this paper presents a modified impedance source inverter controlled by different pulse width modulation control strategies for solar PV/battery-powered applications. A brief topology analysis, generalized discussion and design of impedance network elements are presented. Comparison with the classical impedance source inverter is presented. Using simulation, analytical results are presented that ensure stability. The proposed voltage type inverter has reduced inrush current at startup, less capacitor voltage stress and minimum inductor current ripples. DC link voltage boost, reduced total harmonic distortion of output current and voltage, better voltage gain and wide range of output voltage control can be achieved easily with improved power quality. Experimental set-up of the modified impedance source inverter with Field Programmable Gate Array (FPGA) controller has been constructed to ascertain the results. [ABSTRACT FROM AUTHOR]

Published

2017

16. Influence of crossover methods used by genetic algorithm-based heuristic to solve the selective harmonic equations (SHE) in multi-level voltage source inverter.

Author

S, SANGEETHA and JEEVANANTHAN, S

Subjects

*ELECTRICAL harmonics, *ELECTRIC inverters, *ELECTRIC potential, *GENETIC algorithms, *HEURISTIC, *MATHEMATICAL optimization

Abstract

Genetic Algorithms (GA) has always done justice to the art of optimization. One such endeavor has been made in employing the roots of GA in a most proficient way to determine the switching moments of a cascaded H-bridge seven level inverter with equal DC sources. Evolutionary techniques have proved themselves efficient to solve such an obscurity. GA is one of the methods to achieve the objective through biological mimicking. The extraordinary property of crossover is extracted using Random 3-Point Neighbourhood Crossover (RPNC) and Multi Midpoint Selective Bit Neighbourhood crossover (MMSBNC). This paper deals with solving of the selective harmonic equations (SHE) using binary coded GA specific to knowledge based neighbourhood multipoint crossover technique. This is directly related to the switching moments of the multilevel inverter under consideration. Although the previous root-finding techniques such as N-R or resultant like methods endeavor the same, the latter offers faster convergence, better program reliability and wide range of solutions. With an acute algorithm developed in Turbo C, the switching moments are calculated offline. The simulation results closely agree with the hardware results. [ABSTRACT FROM AUTHOR]

Published

2015