Your search keyword '"Driver circuit"' showing total 113 results

1. Microcontroller-Based Thermoelectrically Stabilized Laser Diode System.

Author

Naeem, Muddasir, Sahi, Saqlain Tariq, Imran, Tayyab, and Abuzer, Muhammad

Subjects

SEMICONDUCTOR lasers, LINE drivers (Integrated circuits), VOLTAGE control, TEMPERATURE sensors, MICROCONTROLLERS

Abstract

This work aims to describe the development of a prototype laser diode system along with its driver circuit and a stable microcontroller-based thermoelectric cooling system. The laser diode driver circuit was designed and simulated by using NI Multisim. The driver circuit was built using two LM317 ICs to control the voltage across the laser diode and current through the laser diode. The laser diode output power varies by varying the current across the laser diode through the driver circuit. The temperature of the laser diode rises with time, affecting the output power of the laser diode during a long period of operation. A microcontroller-based cooling system was designed and fabricated using thermoelectric coolers. The microcontroller controls the cooling system ON/OFF period to maintain the laser diode at a particular temperature by removing the excess heat produced during the lasing action. The laser diode with a microcontroller-based cooling system shows that the laser diode output power remains stable during a long period of operation. [ABSTRACT FROM AUTHOR]

Published

2024

2. A 4.56 Gbps/Lane MIPI C-PHY Transmitter With Boosting Pre-Driver

Author

Minhyun Jin, Kwangjin Park, and Soo Youn Kim

Subjects

C-PHY transmitter, mobile industry processor interface, boosting pre-driver, driver circuit, impedance matching, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper describes the development of a Mobile Industry Processor Interface (MIPI) C-PHY transmitter (TX) fabricated using a 28-nm CMOS process with a 1 V supply. In its operational mode, the TX effectively converted parallel signals into low-voltage and high-speed tri-level signals, facilitating seamless serial data transmission. A key aspect of the proposed TX design was the integration of an equalizer (TxEQ) capable of implementing de-emphasis to mitigate channel-induced inter-symbol interference, thereby ensuring robust high-speed data transmission. Furthermore, the output driver was meticulously designed with an optimized structure to ensure impedance matching in different operating modes. Remarkably, the introduction of a boosting pre-driver further enhanced the driving capability, operating independently from the TxEQ of the output driver. Each lane occupied an area of 0.284 mm2, accommodating necessary components such as a pseudo-random bit sequence for random data generation. By employing a boosting technique, the TX achieved a commendable power efficiency of 1.21 mW/Gbps/lane while simultaneously delivering a remarkable 0.52 UI eye-opening at a data transfer rate of 4.56 Gbps/lane.

Published

2024

3. Lifetime Optimization of Optical Sensing System With Highly Reliable a-Si:H TFT-Based Optical Sensor and Driver Circuit in Large AMLCDs

Author

Chih-Lung Lin, Chia-Lun Lee, Cheng-Han Ke, Po-Cheng Lai, Chung-Tien Chiu, Yu-Chang Chiu, and Chia-Wei Kuo

Subjects

Driver circuit, hydrogenated amorphous silicon thin-film transistors (a-Si:H TFTs), optical sensor, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper presents a lifetime optimization of optical sensing system that integrates highly reliable optical sensors and driver circuits that use hydrogenated amorphous silicon thin-film transistors (a-Si:H TFTs) to realize binary detection of optical signal with a multi-position sensing function for use in large active-matrix liquid crystal display (AMLCD). The optical sensor suppresses the effect of variations in ambient white light using a white-light photocurrent gating (WPCG) structure and increases the reliability of two photo TFTs by halving the drain-to-source voltage (VDS) stress. The driver circuit switches two driving TFTs between their two modes to recover the threshold voltage (VTH) shifts during a long sensing period or generate an output waveform with a large pulse width for driving the optical sensor. Experimental results indicate that the degradation of the photocurrent of the photo TFT is suppressed from 3.71 nA to 1.03 nA, representing an improvement of 72.2% relative to the original WPCG structure. The minimum difference between the output voltages of the optical sensing systems with and without an optical signal under illumination by ambient white light from 500 to 10000 lux is 18.58 V. According to an accelerated lifetime test, the feasibility of using the optical sensing system in large AMLCDs is verified.

Published

2024

4. Push–Pull Inverter Using Amplitude Control and Frequency Tracking for Piezoelectric Transducers.

Author

Hu, Yinghua, Yang, Ming, Zhu, Yuanfei, and Wang, Shangting

Subjects

PIEZOELECTRIC transducers, ULTRASONIC motors, AUTOMATIC tracking, VOLTAGE control, LINE drivers (Integrated circuits)

Abstract

Frequency tracking and amplitude control are essential for piezoelectric transducers. Frequency tracking ensures the piezoelectric transducer operates at the resonant frequency for maximum power output, and amplitude control regulates the mechanical motion of the output. This paper presents a novel driver based on a push–pull inverter for piezoelectric transducers. The proposed driver realizes the frequency tracking and amplitude control scheme by a voltage sensing bridge in the case of transformer secondary matching, guaranteeing automatic frequency tracking and precise mechanical functions regardless of environmental and load variations. The proposed scheme is verified by the ultrasonic scalpel and the ultrasonic motor (USM). The experimental results show that this scheme reduces the build-up time from 10 ms to 3 ms and loaded frequency variations from 250 Hz to 200 Hz. In addition, the amplitude control performance was further observed on USM for various loads. The overshoot is less than 5.4% under different load torques. Therefore, the proposed scheme improves the load adaptability and stability of piezoelectric transducers and promotes the application of piezoelectric transducers under various conditions. [ABSTRACT FROM AUTHOR]

Published

2023

5. A Novel Light-Emitting Diode Streetlight Driver Circuit Applied to a Direct Current-Input Voltage Source.

Author

Cheng, Chun-An, Chang, Chien-Hsuan, Cheng, Hung-Liang, Chang, En-Chih, Lin, You-Ruei, and Lan, Long-Fu

Abstract

With the global advocacy of green lighting and the urgent need for energy saving and carbon reduction, more and more street lighting applications have entered the era of being replaced by light-emitting diode (LED) lighting sources. This paper presents a new LED streetlight driving circuit applied to a direct current (DC)-input voltage source, which consists of a buck converter combined with a flyback converter to reduce the number of circuit components required and to recover the leakage energy of the transformer to improve energy conversion efficiency. In addition, this study also completed the analysis of the operational principle of the new LED streetlight driving circuit, and developed a prototype LED streetlight driver with DC-input voltage of 48V and output power of 72 W (36 V/2 A). Finally, the measurement results of the prototype circuit show that the output voltage ripple rate was less than 15%, the output current ripple rate was less than 6%, and the circuit efficiency was as high as 91%. [ABSTRACT FROM AUTHOR]

Published

2023

6. Stability analysis and speed control of brushless DC motor based on self-ameliorate soft switching control methods.

Author

Rao, Nagaraja and Chelladka, Shantharama Rai

Subjects

BRUSHLESS electric motors, PULSE width modulation, SPEED, POWER resources, ELECTRONIC control

Abstract

In recent years, electric vehicles are the large-scale spread of the transportation field has led to the emergence of brushless direct current (DC) motors (BLDCM), which are mostly utilized in electrical vehicle systems. The speed control of a BLDCM is a subsystem, consisting of torque, flux hysteresis comparators, and appropriate switching logic of an inverter. Due to the sudden load torque variation and improper switching pulse, the speed of the BLDCM is not maintained properly. In recent research, the BLDC current control method gives a better way to control the speed of the motor. Also, the rotor position information should be the need for feedback control of the power electronic converters to varying the appropriate pulse width modulation (PWM) of the inverter. The proposed optimization work controls the switching device to manage the power supply BLDCM. In this proposed self-ameliorate soft switching (SASS) system is a simple and effective way for BLDC motor current control technology, a proposed control strategy is intended to stabilize the speed of the BLDCM at different load torque conditions. The proposed SASS system method is analyzing hall-based sensor values continuously. The suggested model is simulated using the MATLAB Simulink tool, and the results reveal that the maximum steady-state error value achieved is 4.2, as well as a speedy recovery of the BLDCM's speed. [ABSTRACT FROM AUTHOR]

Published

2023

7. Gate Driver Circuits With Discrete Components for GaN-Based Multilevel Multi-Inductor Hybrid Converter.

Author

Das, Ratul and Le, Hanh-Phuc

Subjects

*LINE drivers (Integrated circuits), *GALLIUM nitride, *INDIUM gallium zinc oxide, *BRIDGE circuits, *ELECTRIC current rectifiers, *METAL oxide semiconductor field-effect transistors, *THYRISTORS, *INTEGRATED circuits

Abstract

Gate driver circuits to ensure proper turn-on and turn-off for power switches are essential parts of a power converter design. They become significantly challenging for multilevel converters, where multiple switches are operated at active voltage domains. The recent favorable use of gallium nitride devices for power switches makes gate driving even more difficult as the switch performance and reliability are very sensitive to the variations of the gate driving signals and power rails compared with traditional power MOSFETs. This article discusses gate driving methods using a multilevel multi-inductor hybrid (MIH) converter as the demonstration prototype to address two key challenges in designing gate drivers: 1) providing level-shifted pulsewidth modulation signals to active voltage domains and 2) powering schemes for gate driver circuits. To solve the first challenge, an optimal use of available half-bridge drivers is proposed to eliminate the need for separate signal isolator chips. This method was implemented and verified in an MIH converter prototype for 48-V point-of-load applications using three different powering schemes for gate drivers, including isolated power modules, regulated supplies from switch blocking voltages, and cascaded bootstrap power rails with regulations. The gate driver techniques and powering schemes are compared experimentally in terms of performance to illustrate their benefits and tradeoffs. [ABSTRACT FROM AUTHOR]

Published

2023

8. Push–Pull Inverter Using Amplitude Control and Frequency Tracking for Piezoelectric Transducers

Author

Yinghua Hu, Ming Yang, Yuanfei Zhu, and Shangting Wang

Subjects

piezoelectric transducer, amplitude control, frequency tracking, push–pull inverter, driver circuit, Mechanical engineering and machinery, TJ1-1570

Abstract

Frequency tracking and amplitude control are essential for piezoelectric transducers. Frequency tracking ensures the piezoelectric transducer operates at the resonant frequency for maximum power output, and amplitude control regulates the mechanical motion of the output. This paper presents a novel driver based on a push–pull inverter for piezoelectric transducers. The proposed driver realizes the frequency tracking and amplitude control scheme by a voltage sensing bridge in the case of transformer secondary matching, guaranteeing automatic frequency tracking and precise mechanical functions regardless of environmental and load variations. The proposed scheme is verified by the ultrasonic scalpel and the ultrasonic motor (USM). The experimental results show that this scheme reduces the build-up time from 10 ms to 3 ms and loaded frequency variations from 250 Hz to 200 Hz. In addition, the amplitude control performance was further observed on USM for various loads. The overshoot is less than 5.4% under different load torques. Therefore, the proposed scheme improves the load adaptability and stability of piezoelectric transducers and promotes the application of piezoelectric transducers under various conditions.

Published

2023

9. Driver Circuit Design for a New Eddy Current Sensor in Displacement Measurement of Active Magnetic Bearing Systems.

Author

Cao, Zhi, Huang, Yunkai, Peng, Fei, and Dong, Jianning

Abstract

Position sensing is one of the crucial parts of the active magnetic bearing (AMB) system. The printed circuit board (PCB) eddy current position sensor is a new type of position sensor for the AMB system, which makes a compact structure, high sensing quality, and is low cost. In this article, an improved driver circuit is proposed for this new sensor. The driver circuit includes an excitation circuit and signal conditioning circuits. A crystal oscillator circuit with a power stage is used to provide the excitation coil with a stable excitation source of high stability and good precision of frequency. The analog demodulation circuit is designed for signal conditioning circuits to extract the rotor displacement information from the sensing coil outputs. Compared with the state-of-art driver schemes, the proposed method reduces the circuit complexity and cost. Accordingly, the experimental results show that the designed sensor has good linearity and sensitivity, and it can ensure AMB stable operation at the rated speed. [ABSTRACT FROM AUTHOR]

Published

2022

10. Torque control-based induction motor speed control using Anticipating Power Impulse Technique

Author

Karupusamy, Sathishkumar, Mustafa, Mohammed Ahmed, Jos, Bos Mathew, Dahiya, Priyanka, Bhardwaj, Ramakant, Kanani, Pratik, and Kumar, Anil

Published

2023

11. Some Remarks on Design of LED Lamps and their AC Direct Drivers

Author

Zdzislaw Filus and Jacek Checinski

Subjects

driver circuit, energy efficiency, led lamp, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Many examples of capacitorless and inductorless drivers used to power LED lamps directly from the AC mains use complicated circuitry in the form of a dedicated integrated circuit which is designed for a particular multistring lamp in order to obtain the value of the power factor very close to 1 and high efficiency of the whole unit. However, the authors of such descriptions do not provide any details concerning the optimum choice of the number of strings in a LED lamp and the number of LEDs in each string. The aim of this work is to show that acceptable values of both electrical parameters mentioned above can be obtained using a LED lamp with just one or two strings. Some formulae and results of their numerical analysis for the 230 V 50 Hz mains are presented, thanks to which designers of LED lamps and their AC direct drivers may easily estimate the optimum conduction voltage of a LED string or the number of single LEDs in a string.

Published

2019

12. Driver Circuit Improvement of Eddy Current Sensor in Displacement Measurement of High-Speed Rotor.

Author

Sun, Maolin, Zhou, Jinxiang, Dong, Baotian, and Zheng, Shiqiang

Abstract

Displacement sensor is the key component of the magnetic levitation system. Reducing complexity and improving reliability of the sensor circuits are very important to mass production of magnetic levitation devices. In this article, an improved driver circuit of eddy current sensor is proposed. In order to generate a stable oscillating source with high stability and good precision of frequency, a crystal oscillator circuit with power boost is used to replace the traditional Colpitts oscillator circuit. The improved modulation circuit is composed of passive components with a simple structure for improving reliability. The parameters design method of the modulation circuit is analyzed in detail, which greatly affects the sensitivity and linearity of the sensor. The experimental results show that the designed eddy current sensor has good linearity (1.12%) and sensitivity (2.14 V/mm), and it can ensure the stable operation of the magnetic levitated turbomolecular pump at the rated speed. [ABSTRACT FROM AUTHOR]

Published

2021

13. AC‐coupled gate driver with gate current switch under single power supply for normally‐off SiC JFET.

Author

Sakamoto, Kozo, Yokoyama, Natsuki, and Hozoji, Hiroshi

Subjects

*QUANTUM gates, *JUNCTION transistors, *FIELD-effect transistors, *POWER resources, *GATES, *SILICON carbide

Abstract

Theoretically, normally‐off silicon carbide (SiC) junction field‐effect transistors (JFETs) do not require a negative gate voltage supply because they are in an off‐state when the gate–source voltage is 0 V. However, most gate drivers for normally‐off SiC JFETs require not only a positive power supply for turning on the JFET but also a negative power supply for turning it off and maintaining a negative gate–source voltage to suppress a false turn‐on power loss caused by crosstalk during fast switching. Therefore, modifications of gate drivers increase complications and costs. In this study, a normally‐off SiC JFET gate driver, which can be realized using a simple circuit configuration with a single power supply, is proposed. To minimize undesirable crosstalk, the gate‐source voltage of the JFET is driven to a negative value and retained in the state for a long period of time. © 2020 Institute of Electrical Engineers of Japan. Published by Wiley Periodicals LLC. [ABSTRACT FROM AUTHOR]

Published

2020

14. Design of a high frame rate driver circuit for a 22 M-pixel high-resolution large-area array CCD camera and its nonuniformity correction.

Author

Hang Ren, Tao Tao Hu, Yu Long Song, and Ming He Gao

Subjects

*LINE drivers (Integrated circuits), *INTERFACE circuits, *STANDARD deviations, *IMAGE sensors

Abstract

When using a high-resolution full-frame area array charge-coupled device (CCD) FTF4052M as the aerial image sensor of a camera, the frame rate is generally below 1 frame/second (fps), which cannot meet the requirements of applications with high frame rates. First, the FTF4052M drive circuit is introduced. Next, an improved driver circuit of the CCD 4052M is proposed. Using the CCD to output four amplifiers simultaneously yielded a maximum frame rate of 3.4 fps. Then, the timing of the CCD driver, the front-end processing circuit, the DC bias circuit, and the interface circuit of the four outputs are designed. The improved driver circuit could meet the application requirements of various aerial cameras. In addition, the FTF4052M nonuniformity is analyzed, and a nonuniformity response detection system is established. Using this system, the FTF4052M array's nonuniformity among the four quadrants and among the pixels is tested. Based on the CCD's linear responsivity, two correction algorithms are proposed to correct the nonuniformity. Finally, using the correction, the four quadrants' standard deviations of the response sensitivity are reduced by a factor of 1/13, and the responsive nonuniformity among all pixels is reduced by a factor of 1/10. Through the reshooting of the identified rate board, it is found that the nonuniformity of the CCD array is markedly improved. [ABSTRACT FROM AUTHOR]

Published

2019

15. Large current nanosecond pulse generating circuit for driving semiconductor laser diode.

Author

Wen, Shaocong, Wang, Mao, Xie, Jie, and Wu, Dongmin

Subjects

*PULSE generators, *ELECTRIC circuits, *SEMICONDUCTOR lasers, *TRANSISTORS, *METAL oxide semiconductor field-effect transistors

Abstract

The semiconductor laser diode SPL LL90_3, which integrates the RC charge‐discharge circuit and a MOSFET switching device, is usually used for pulsing laser in the light detection and ranging system with a rated peak power of 70 W at 30 ns pulse‐width. To further increase the peak power and reduce the pulse width and rising edge, a driving circuit with an avalanche transistor used as a pre‐switching device is proposed. A trigger pulse with about 10 ns'‐pulse‐width is obtained to drive the laser diode. At the same time, the pulsing laser's peak power can reach 141 W at the testing repetition rate of 55 kHz. [ABSTRACT FROM AUTHOR]

Published

2019

16. Some Remarks on Design of LED Lamps and their AC Direct Drivers.

Author

Filus, Zdzislaw and Checinski, Jacek

Subjects

LED lamps, LED lighting, INTEGRATED circuits, NUMERICAL analysis, LINE drivers (Integrated circuits)

Abstract

Many examples of capacitorless and inductorless drivers used to power LED lamps directly from the AC mains use complicated circuitry in the form of a dedicated integrated circuit which is designed for a particular multistring lamp in order to obtain the value of the power factor very close to 1 and high efficiency of the whole unit. However, the authors of such descriptions do not provide any details concerning the optimum choice of the number of strings in a LED lamp and the number of LEDs in each string. The aim of this work is to show that acceptable values of both electrical parameters mentioned above can be obtained using a LED lamp with just one or two strings. Some formulae and results of their numerical analysis for the 230 V 50 Hz mains are presented, thanks to which designers of LED lamps and their AC direct drivers may easily estimate the optimum conduction voltage of a LED string or the number of single LEDs in a string. [ABSTRACT FROM AUTHOR]

Published

2019

17. Emission of dispersed‐type inorganic EL devices with frequency‐variable high‐voltage oscillation circuit.

Author

Sato, Shuichi, Shimizu, Tomohisa, and Ohuchi, Mikio

Subjects

*ZINC sulfide, *OSCILLATIONS, *HIGH voltages, *ELECTRIC potential, *ELECTROLUMINESCENT devices

Abstract

Dispersed‐type inorganic electroluminescent (EL) devices composed of a transparent electrode, a phosphor, a dielectric, and a back electrode were prepared under various conditions using a zinc sulfide (ZnS)‐based phosphor. Additionally, a voltage/frequency variable circuit was designed. A compact high‐voltage/frequency variable circuit including three modules for boosting, frequency conversion, and voltage conversion was designed. A 140 Vpp voltage and a frequency in the range of 270 Hz to 2.4 kHz can be controlled by this circuit. The emission has begun to be observed at a voltage about 60 Vpp and a frequency of 400 Hz, at a voltage about 40 Vpp and a frequency of 1.4 kHz, 2.4 kHz, respectively. The emission intensity increased with an increase in frequency; emission with a wavelength of 450 nm was strongly influenced by the frequency. The luminescence and the electrical properties were affected by the preparation conditions including device structures, dispersion of ZnS:Cu, and Cl particles because of the current path generated by defects in the EL cell. Dispersed‐type inorganic electroluminescent devices were prepared under various conditions using a zinc sulfide‐based phosphor including organic dye. Additionally, a compact voltage/frequency variable circuit was designed. The driving characteristics were systematically investigated including their luminescence and electrical properties. [ABSTRACT FROM AUTHOR]

Published

2019

18. Testing and verification of a novel single-channel IGBT driver circuit

Author

Lukić Milan and Ninković Predrag

Subjects

driver circuit, power switch, IGBT transistor, integrated circuit, undervoltage lockout, desaturation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper presents a novel single-channel IGBT driver circuit together with a procedure for testing and verification. It is based on a specialized integrated circuit with complete range of protective functions. Experiments are performed to test and verify its behaviour. Experimental results are presented in the form of oscilloscope recordings. It is concluded that the new driver circuit is compatible with modern IGBT transistors and power converter demands and that it can be applied in new designs. It is a part of new 20kW industrial-grade boost converter.

Published

2016

19. Power-Efficient Driver Circuit for Piezo Electric Actuator with Passive Charge Recovery

Author

Takashi Ozaki and Norikazu Ohta

Subjects

driver circuit, charge recovery, piezoelectric actuator, power consumption, Technology

Abstract

Piezoelectric actuation is a promising principle for insect-scaled robots. A major concern while utilizing a piezoelectric actuator is energy loss due to its parasitic capacitance. In this paper, we propose a new concept to recover the charge stored in the parasitic capacitance; it requires only three additional lightweight passive components: two diodes and a resistor. The advantages of our concept are its small additional mass and simple operating procedure compared with existing charge recovery circuits. We provided a guideline for selecting a resistor using a simplified theoretical model and found that half of the charge can be recovered by employing a resistor that has a resistance sufficiently larger than the forward resistance of the additional diode. In addition, we experimentally demonstrated the concept. With a capacitive load (as a replacement for the piezoelectric actuator), it was successfully observed that the proposed concept decreased the power consumption to 58% of that in a circuit without charge recovery. Considering micro aerial vehicle (MAV) applications, we measured the lift-to-power efficiency of a flapping wing piezoelectric actuator by applying the proposed concept. The lift force was not affected by charge recovery; however, the power consumption was reduced. As a result, the efficiency was improved to 30.0%. We expect that the proposed circuit will contribute to the advancement of energy-saving microrobotics.

Published

2020

20. Dead-Zone Compensation of an Ultrasonic Motor Using an Adaptive Dither.

Author

Shi, Weijia, Zhao, Hui, Ma, Jie, and Yao, Yu

Subjects

*LINE drivers (Integrated circuits), *PIEZOELECTRIC actuators, *ULTRASONIC motors, *ELECTRONIC amplifiers, *INDUSTRIAL electronics

Abstract

This paper presents a high-efficiency compensation method of the dead zone with the aid of the adaptive dither for the ultrasonic motor. Prior to proposing the method, the influence of the dither on the principal elements of the dead zone, i.e., the deviations of the control variable and the minimum velocity, is analyzed. Then, the improved generation method of the adaptive dither is proposed, which introduces the adaptive dither by orthogonally adjusting the amplitudes of the applied voltages instead of changing the phase difference, as mentioned in the existing studies. Experimental measurements have demonstrated that the proposed method not only can effectively compensate the dead zone and conveniently control the velocity, but also is superior to the existing phase-difference-based method in terms of improving the efficiency of the ultrasonic motor. [ABSTRACT FROM PUBLISHER]

Published

2018

21. Unified control of Z‐source grid‐connected photovoltaic system with reactive power compensation and harmonics restraint: design and application.

Author

Zhang, Jingwei

Abstract

Based on the Z‐source inverter (ZSI), a unified control strategy of grid‐connected photovoltaic (PV) system is investigated. It can both compensate the reactive power and restrain the current harmonics. At first, the principle of the proposed unified control is analysed. Then, the space vector pulse width modulation (SVPWM) is improved for inserting the shoot‐through time into the modulation period. Simulation results show that the proposed unified control strategy is feasible and effective. Besides, a hardware controller is designed based on the digital signal processor (DSP). The corresponding approach for applying the improved SVPWM with the DSP and the driver circuit is illustrated in detail. Eventually, an experiment apparatus is implemented. Experiment results reveal that the proposed unified control strategy can effectively regulate active and reactive power generated by the grid‐connected PV system. Besides, the fifth current harmonic of grid can be restrained effectively, the total harmonic distortion of the grid current decreases from 20.9 to 8.1%, which indicates that the restraint of the current harmonics is feasible for the proposed unified control strategy. [ABSTRACT FROM AUTHOR]

Published

2018

22. Design of Active PWM Control Driver Circuit for Torquer System Using CCII

Author

Rajeev Kumar Ranjan and Vijay Kumar Verma

Subjects

0209 industrial biotechnology, General Computer Science, Computer science, 020208 electrical & electronic engineering, General Engineering, 02 engineering and technology, Driver circuit, Magnetorquer, Controller, Power (physics), TK1-9971, Attitude control, Magnetic circuit, triangular wave generator, 020901 industrial engineering & automation, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Torque, CCII, General Materials Science, torquer system, Electrical engineering. Electronics. Nuclear engineering, Pulse-width modulation

Abstract

This research examines a torquer system for satellite attitude control which requires low energy, or average power, to control its moment. The magnetic torquer consists of an LR component, source and switching pulse. A mathematical model and design equations are presented for the magnetic torquer. A technique of using torquer system to do 3-axis spacecraft attitude control has been presented. The main goal of this system is to attain specific current control in the torquer system by means of CCII action. CCII is used since the full operation is performed in high frequency system. The closed loop control action of the controller, the triangular wave generator, CCII and torquer system are specific parameters used in this research. This scheme’s performance has been considered via analysis and simulation model. The resulting closed-loop systems are robust with respect to parametric modeling ambiguity. The result attained by OrCAD PSPICE, belonging to Cadence design systems with respect to desired amount of current value proves the efficiency of the proposed research method.

Published

2021

23. A High-Efficiency High Power Driver Circuit for Joint Illumination and Communication System With Phase Shift Pre-Emphasis Technology

Author

Wang Xiuyu, Sheng Xie, Hongda Chen, Xu Zhang, Xurui Mao, and Jiling Tang

Subjects

General Computer Science, Computer science, Gallium nitride, 02 engineering and technology, Communications system, Driver circuit, law.invention, chemistry.chemical_compound, phase shift, 020210 optoelectronics & photonics, Baud, law, 0202 electrical engineering, electronic engineering, information engineering, Figure of merit, General Materials Science, push-pull driver, Joint illumination and communication (JIC), business.industry, Bandwidth (signal processing), General Engineering, Electrical engineering, pre-emphasis, 020206 networking & telecommunications, high power, high efficiency, chemistry, Field-effect transistor, lcsh:Electrical engineering. Electronics. Nuclear engineering, Transceiver, business, lcsh:TK1-9971, Voltage, Data transmission, Light-emitting diode

Abstract

This paper presents an improved white light-emitting-diode (LED) wireless transmitter for the Joint Illumination and Communication (JIC) System, which consists of two parts: the driver circuit and the pre-emphasis circuit. The main purpose of the driver circuit part is to solve the problem of dissipated power when sweeping the remaining carriers during the signal modulation of the high-efficiency, high-power and high-speed white LED driver. A push-pull structure driver with a current conduction angle less than 180 degrees is proposed, which is analogous to a Class C power amplification driver, thus avoiding the simultaneous existence of voltage and current on the driver circuit when the remaining carriers are swept out, and improves the efficiency of the LED driver. On this basis, the pre-emphasis circuit part adopts the phase shift technology to improve the data transmission rate, and the system efficiency has also been improved. Then, an improved class C push-pull structure white LED driver with phase shift pre-emphasis technology is formed. This novel driver and pre-emphasis technology achieve a system efficiency of 95.73% with a 10 W LED. The test results show that the system communication -3 dB bandwidth expanded from the original 8.3 MHz to 13.67 MHz, and the best-obtained transceiver baud rate is 25 Mbps at a distance of 1.3 m with BER of 1.63 × 10-4. The test result verifies that the LED driver proposed in this paper is currently the highest figure of merit (FoM) for high power JIC systems.

Published

2021

24. Analysis of an LED lighting circuit using a hybrid buck–boost converter with high gain

Author

Kyoka Kuwahara, Takaaki Ishibashi, and Kei Eguchi

Subjects

Computer science, 020209 energy, 02 engineering and technology, Integrated circuit, Inductor, Driver circuit, law.invention, 020401 chemical engineering, law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Hardware_INTEGRATEDCIRCUITS, ddc:330, 0204 chemical engineering, Buck-boost converters, Electronic circuit, Step-up converters, Buck–boost converter, LED lighting applications, Breadboard, Capacitor, Switched-capacitor techniques, General Energy, Equivalent circuit, Hybrid DC-DC converters, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971

Abstract

In this paper, a hybrid buck–boost dc–dc converter and its analysis method are presented for LED lighting applications. Unlike existing LED driver circuits, the proposed driver circuit has a hybrid structure which consists of a buck–boost converter and a switched-capacitor (SC) step-up converter with flying capacitors. The features of the proposed driver are as follows: 1. High voltage gain provided by cascading two dc–dc converters, 2. Flexible LED current control using step-up/step-down conversion, and 3. Small volume offered by a single inductor structure. Concerning the proposed driver circuit, a simple equivalent circuit is derived by theoretical analysis. Furthermore, the characteristics of the proposed converter are revealed by simulation program with integrated circuit emphasis (SPICE) simulations and breadboard experiments. The results of simulation and experiment demonstrate the feasibility of the proposed driver circuit. The proposed driver circuit can achieve about 89% efficiency and −10 V output when the output load is 400 mW. Keywords: Hybrid DC–DC converters, Buck–boost converters, LED lighting applications, Step-up converters, Switched-capacitor techniques

Published

2020

25. Design and Implementation of Multilevel Inverters for Fuel Cell Energy Conversion System

Author

C. Dhanamjayulu, G. Arunkumar, Shaik Reddi Khasim, Frede Blaabjerg, Sanjeevikumar Padmanaban, and Jens Bo Holm-Nielsen

Subjects

General Computer Science, Computer science, 020209 energy, Proton exchange membrane fuel cell, Topology (electrical circuits), 02 engineering and technology, Inductor, Driver circuit, Total harmonic distortion, law.invention, law, Multilevel inverter (MLI), 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Energy transformation, General Materials Science, Diode, business.industry, 020208 electrical & electronic engineering, General Engineering, total harmonics distortion (THD), converter, DC-BUS, Power (physics), TK1-9971, Capacitor, Electricity generation, proton exchange membrane fuel cell (PEMFC), Distributed generation, Inverter, Fuel cells, Electrical engineering. Electronics. Nuclear engineering, business, Voltage

Abstract

Power converter plays a significant role in Proton Exchange Membrane Fuel Cell (PEMFC) energy generation systems, which is an alternative of distributed energy generation systems. So there creates a demand for high-quality power conditioning used in PEMFC systems. This article proposes a converter topology as a power interface and also introduced a multilevel inverter topology for various levels of operation. The converter steps up the input voltage to the rated voltage and transforms to the DC bus, the multilevel inverter converts the voltage to AC and feeds to AC loads. In this article, we develop an entire unit stack, which can produce an output with positive and zero sequences. The addition of H-bridge to the fundamental unit known to be an advance cascaded H-bridge multilevel inverter resulting in the formation of all sequences like positive, zero and negative levels. The conventional multilevel inverters are compared with the proposed inverters in terms of switch count, DC sources, diodes, through which the lesser requirement of components in a multilevel inverter is possible to observe, which results in the reduction in cost, dv/dt stress, component space of the driver circuit. With this implementation, the better possibility of control, increase the quality of output, reliability of the inverter with a reduced THD, and stress. The converter output is tested and verified in MATLAB, and the respective results of the different levels like five, seven and fifteen of a single-phase cascaded inverter are tested experimentally and in MATLAB Simulink.

Published

2020

26. Driver Circuit Design for a New Eddy Current Sensor in Displacement Measurement of Active Magnetic Bearing Systems

Author

Zhi Cao, Yunkai Huang, Fei Peng, and Jianning Dong

Subjects

driver circuit, Eddy current sensor, position measurement, Electrical and Electronic Engineering, Instrumentation, active magnetic bearing

Abstract

Position sensing is one of the crucial parts of the active magnetic bearing (AMB) system. The printed circuit board (PCB) eddy current position sensor is a new type of position sensor for the AMB system, which makes a compact structure, high sensing quality, and is low cost. In this article, an improved driver circuit is proposed for this new sensor. The driver circuit includes an excitation circuit and signal conditioning circuits. A crystal oscillator circuit with a power stage is used to provide the excitation coil with a stable excitation source of high stability and good precision of frequency. The analog demodulation circuit is designed for signal conditioning circuits to extract the rotor displacement information from the sensing coil outputs. Compared with the state-of-art driver schemes, the proposed method reduces the circuit complexity and cost. Accordingly, the experimental results show that the designed sensor has good linearity and sensitivity, and it can ensure AMB stable operation at the rated speed.

Published

2022

27. PoF-Simulation-Assisted Reliability Prediction for Electrolytic Capacitor in LED Drivers.

Author

Sun, Bo, Fan, Xuejun, Qian, Cheng, and Zhang, Guoqi

Subjects

*ELECTROLYTIC capacitors, *LIGHT emitting diodes, *RELIABILITY in engineering, *MONTE Carlo method, *ELECTRIC power distribution

Abstract

The temperature of electrolytic capacitor in light-emitting diode (LED) drivers continuously increases under operation conditions, thus the capacitors degrade faster than that with constant temperature assumption. In this paper, a physics-of-failure (PoF)-based reliability prediction methodology is developed for LED drivers to consider the temperature change of electrolytic capacitor. SPICE simulation, compact thermal modeling, and Monte Carlo simulation are integrated to predict the failure rate distribution of an electrolytic capacitor of given LED driver systems. The simulation results agree well with the accelerated test results for an RC linear AC–DC converter. Furthermore, a single inductor buck–boost DC–DC converter is simulated to understand the degradation behavior of electrolytic capacitor. It has been found that the temperature of an output stage capacitor increases significantly during operation time. The capacitor's performance without taking temperature change into account results in an overestimated driver lifetime by more than 38% for the selected case study. [ABSTRACT FROM AUTHOR]

Published

2016

28. Read-Out Modulation Scheme for the Display Driving Circuits Composed of Nonvolatile Ferroelectric Memory and Oxide–Semiconductor Thin-Film Transistors for Low-Power Consumption.

Author

Kim, Kyeong-Ah, Byun, Chun-Won, Yang, Jong-Heon, Cho, Kyoung-Ik, Hwang, Chi-Sun, and Yoon, Sung-Min

Subjects

*SOLID state electronics, *MAGNETRON sputtering, *ATOMIC layer deposition, *COMPLEMENTARY metal oxide semiconductors, *THIN films, *METAL semiconductor field-effect transistors, *FIELD-effect transistors, *NANOTECHNOLOGY

Abstract

New circuit architecture composed of nonvolatile memory thin-film transistors (M-TFTs) and oxide–semiconductor TFTs (Ox-TFTs) has been proposed to realize low-power consumption and compact size for dynamic driving circuit applications. In order to compensate the slow operation speed of the nonvolatile M-TFTs in the dynamic driving circuits, we proposed the read-out modulation (ROM) scheme. The device operation characteristics of the M-TFTs were confirmed under various specified conditions to effectively apply the ROM, in which a top-gate structure was fabricated to be ferroelectric poly(vinylidene fluoride-trifluoroethylene) gate insulator/Al2O3/In–Ga–ZnO active layers. Full fabrication processes for the M-TFTs were optimized, so that they can be integrated with Ox-TFTs on the same glass substrate. The memory device characteristics, including the current ratios between ON- and OFF-programmed drain current ( ID ) values ( Ip-\mathrm {\mathrm{\scriptscriptstyle ON}}/Ip-\mathrm {\mathrm{\scriptscriptstyle OFF}}) before and after the ROM, drain-bias dependence of the Ip-\mathrm {\mathrm{\scriptscriptstyle ON}}/Ip-\mathrm {\mathrm{\scriptscriptstyle OFF}} , and the program ID scalability, were confirmed for the fabricated M-TFT. These results suggest the feasibility of a low-power display driver circuit embedded with the nonvolatile M-TFTs. [ABSTRACT FROM AUTHOR]

Published

2016

29. Active filter driver for piezo-actuators for flapping-wing micro air vehicles.

Author

Chattaraj, Nilanjan and Ganguli, Ranjan

Subjects

*ORNITHOPTERS, *PIEZOELECTRICITY, *SQUARE waves, *SIGNAL processing, *CHEBYSHEV polynomials

Abstract

Piezoelectrically actuated flapping-wing micro air vehicle (MAV) is an emerging technology. This paper discusses limitations of presently used voltage drivers for the piezoelectric actuators used in such applications and suggests an active filter-based unipolar high-voltage driver. A Chebyshev polynomial has been used to extract a unipolar sinusoidal high voltage signal from a unipolar square wave signal for driving the piezoelectric actuators at low frequency in flapping-wing MAV applications. The filter is based on Sallen-Key topology and is suitable for connecting a piezo-bimorph in series or parallel electrical connection. We have considered an application-specific piezoelectric bimorph actuator of 40 Hz flapping frequency and 32 nF capacitance in each piezoelectric layer to design a driver. The driver circuit in verified by simulation results of OrCAD® software. The driver circuit can control the frequency of the sinusoidal driving voltage, which causes wing-flapping, by radio control communication. [ABSTRACT FROM AUTHOR]

Published

2016

30. Design Fully Integrated Driver Circuit for Phosphorescent White Light-Emitting-Diode High Speed Real-Time Wireless Communication

Author

Sheng Xie, Xurui Mao, Hongda Chen, Jia Cong, and Dong Yan

Subjects

lcsh:Applied optics. Photonics, Visible light communication, 02 engineering and technology, Integrated circuit, Driver circuit, law.invention, 020210 optoelectronics & photonics, law, 0202 electrical engineering, electronic engineering, information engineering, Hardware_INTEGRATEDCIRCUITS, lcsh:QC350-467, free-space optical communication, Electrical and Electronic Engineering, Wireless optical communication, white light-emitting-diode (LED), Diode, Physics, business.industry, lcsh:TA1501-1820, 020206 networking & telecommunications, Chip, Atomic and Molecular Physics, and Optics, CMOS, integrated optoelectronic circuits, Optoelectronics, Transceiver, business, lcsh:Optics. Light, Light-emitting diode

Abstract

The data rate for visible light communication (VLC) with commercial phosphorescent white light-emitting diodes (LEDs) is very limited because the $-$ 3 dB modulation-bandwidth of these LEDs is only a few megahertz. To increase the modulation bandwidth, a new, fully integrated driver circuit is proposed in this paper. The integrated circuit chip consists of a pre-emphasis circuit unit, an adjustable remaining carrier-sweep-out circuit, and a power-MOSFET driver. Using this chip, the $-$ 3 dB bandwidth of phosphorescent white LED transmitters can be extended from 3 to 80 MHz. The best obtained transceiver baud rate is 112 Mbit/s for a distance of 1.5 m, and the bit-error-ratio is ${\text{1.04}}\,\times \,10^{-3}$ , which meets the data-rate requirement for IEEE 802.3 100BASE-TX. The LED-driver circuit is manufactured in an UMC ${\text{0.18}}\,{\mu }\text{m}$ CMOS process, and the chip area is ${\text{1052}}\ \times\ {\text{762}}\ {\mu }\text{m}^2$ . This driver chip can be used in VLC systems with the following advantages: low cost, low power-consumption, compatible with standard CMOS technology, and high integration-density.

Published

2019

31. Introduction to LED Backlight Driving Techniques for Liquid Crystal Display Panels

Author

Huang-Jen Chiu, Yu-Kang Lo, Kai-Jun Pai, Shann-Chyi Mou, Shih-Jen Cheng, and Shih-Tao Lai

Subjects

Liquid-crystal display, Materials science, business.industry, Backlight, Driver circuit, Luminance, law.invention, law, Color gel, Optoelectronics, Cold cathode, RGB color model, business, Light-emitting diode

Abstract

Liquid crystal display (LCD) is widely used in various display applications such as cellular phones, PC monitors, televisions (TVs), multimedia products, among others. An LCD backlight module usually includes backlight sources, a light-diffusion plate, a reflector, a brightness-enhancement film (BEF) and a light-guide plate (LGP). Conventionally, cold cathode fluorescent lamps (CCFLs) are required to provide sufficient backlighting for LCD panels [1-5]. Growing concerns about environmental issues will inhibit the use of CCFLs that contain poisonous mercury. Owing to improvement in long operative life, wider operation temperature range, and the simplicity of driver circuit work with low and safe voltages, light emitting diode (LED) has gradually substituted the CCFL as backlight [6-9]. This chapter will introduce some LED backlight driving techniques for LCD panels. Some dimming control methods will also be introduced and compared for regulating the LED current and brightness of the LED backlight system. The principal goal of this chapter is to ensure that readers become familiar with LED backlight driving techniques for LCD panels. We begin this chapter with a look at three LCD backlight structures: edge-light type, bottom-light type and hollow type. Figure 1(a) shows the bottom-light structure. Because of its high-luminance feature, the bottom-light structure is commonly used for PC monitors and TVs. With regard to the luminance uniformity on an LCD panel, a light-mixed zone is necessary between the diffusion plate and the light sources. This zone causes undesirable thickness for large-sized TV applications. Figure 1(b) shows the hollow type structure in which an LGP is used to reduce the thickness of the light-mixed zone. The good qualities of this type pertain to its compact shape, high luminance and good thermal dissipation. Figure 1(c) shows the edge-light structure commonly used in a small-scale LCD panel. This type is of compact shape and low power consumption, so it is suitable for notebook PCs and personal digital assistant (PDA) products. There are two types of LEDs for backlight sources, the white-light LEDs and RGB LEDs. The white-light LED is composed of a blue LED coated with yellow phosphor. Simple driving feature make it as a popular choice for new generation of LCD backlight sources in portable display products. Its color filter divides the emitted white light into RGB sub-pixels to present color pictures. Thicknesses of O pe n A cc es s D at ab as e w w w .in te ch w eb .o rg

Published

2021

32. A New Active Control Driver Circuit for Satellite’s Torquer System Using Second Generation Current Conveyor

Author

Nicu Bizon, Bhargav Appasani, Rajeev Kumar Ranjan, Pallav Prince, Phatiphat Thounthong, and Vijay Kumar Verma

Subjects

Computer Networks and Communications, Computer science, satellite, lcsh:TK7800-8360, 02 engineering and technology, Integrated circuit, Driver circuit, 01 natural sciences, law.invention, Attitude control, Root mean square, 0203 mechanical engineering, Control theory, law, 0103 physical sciences, Current conveyor, genetic algorithm, Torque, torquer system, Electrical and Electronic Engineering, 010303 astronomy & astrophysics, 020301 aerospace & aeronautics, second generation current conveyor, lcsh:Electronics, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Voltage

Abstract

In this article a new active control driver circuit is designed using the second-generation current conveyor for the satellite’s torquer system. The torquer plays an important role in the attitude control of the satellite. Based on the magneto-meter data, the satellite’s microprocessor calculates the required current for the torque and sends a reference command. A close loop control system is designed, which generates the desired output current. The parameters of the controller are optimized using a variant of the well-known evolutionary algorithm, the genetic algorithm (GA). This variant is known as the segmented GA. The controller is experimentally implemented using the commercially available integrated circuit, the AD844. The error between the experimental and simulation results has RMS values in range of 0.01–0.16 A for the output current and 0.41–0.6 V for the output voltage. It has mean value of 0.01 A for the output current and has mean values in the range of 0.33–0.48 V for the output voltage. It has standard deviation of 0.01 A for the output current and standard deviations in the range of 0.24–0.35 V for the output voltage. Thus, there is a close match between the simulation and experimental results, validating the design approach. These designs have many practical applications, particularly for nanosatellites powered by photovoltaic panels.

Published

2021

33. A Graphical Design Methodology Based on Ideal Gyrator and Transformer for Compensation Topology with Load-Independent Output in Inductive Power Transfer System

Author

Xiaosong Wang, Yu Liu, Qian Su, Xin Liu, Zhiqiang Wang, and Yan Li

Subjects

Computer Networks and Communications, Computer science, lcsh:TK7800-8360, Topology (electrical circuits), 02 engineering and technology, Driver circuit, Topology, Compensation (engineering), law.invention, gyrator, Gyrator, 0203 mechanical engineering, law, 0202 electrical engineering, electronic engineering, information engineering, Maximum power transfer theorem, inductive power transfer, Electrical and Electronic Engineering, Transformer, constant-voltage or constant-current output, Electronic circuit, Transformer (machine learning model), compensation topology, 020208 electrical & electronic engineering, lcsh:Electronics, 020302 automobile design & engineering, AC power, loosely coupled transformer, Hardware and Architecture, Control and Systems Engineering, Signal Processing, transformer, Constant current, zero-phase angle, Voltage

Abstract

Compensation is crucial in the inductive power transfer system to achieve load-independent constant voltage or constant current output, near-zero reactive power, higher design freedom, and zero-voltage switching of the driver circuit. This article proposes a simple, comprehensive, and innovative graphic design methodology for compensation topology to realize load-independent output at zero-phase-angle frequencies. Four types of graphical models of the loosely coupled transformer that utilize the ideal transformer and gyrator are presented. The combination of four types of models with the source-side/load-side conversion model can realize the load-independent output from the source to load. Instead of previous design methods of solving the equations derived from the circuits, the load-independent frequency, zero-phase angle (ZPA) conditions, and source-to-load voltage/current gain of the compensation topology can be intuitively obtained using the circuit model given in this paper. In addition, not limited to only research of the existing compensation topology, based on the design methodology in this paper, 12 novel compensation topologies that are free from the constraints of transformer parameters and independent of load variations are stated and verified by simulations. In addition, a novel prototype of primary-series inductor–capacitance–capacitance (S/LCC) topology is constructed to demonstrate the proposed design approach. The simulation and experimental results are consistent with the theory, indicating the correctness of the design method.

Published

2021

34. A High Power Factor, Electrolytic Capacitor-Less AC-Input LED Driver Topology With High Frequency Pulsating Output Current.

Author

Lam, John C. W. and Jain, Praveen K.

Subjects

*ELECTRIC power factor, *ELECTROLYTIC capacitors, *ALTERNATING currents, *LIGHT emitting diodes, *LED lamps, *LINE drivers (Integrated circuits)

Abstract

Light emitting diode (LED) lamps with ac-input (50 or 60 Hz) usually require an electrolytic capacitor as the dc-link capacitor in the driver circuit to: 1) balance the energy between the input and output power, and 2) to minimize the low-frequency component of the output ripple across the LEDs. The lifetime of this capacitor, however, is much shorter than that of a LED. To maximize the potential lifetime of the LED lighting system, a new pulsating current driving LED driver that does not require any electrolytic capacitors or complicated control circuits to minimize the low-frequency (i.e., 100 or 120 Hz) output ripple is proposed in this paper. The proposed circuit is simple and a single-switch topology is designed to simplify the controller design. The proposed circuit is able to reduce the energy storage capacitance to a few microfarads range, so that film capacitor can be used to replace the unreliable electrolytic capacitor. The circuit operating principles and its theoretical analysis are provided in this paper. Simulation and experimental results are given on a 9-W LED lamp to highlight the merits of the proposed circuit. [ABSTRACT FROM AUTHOR]

Published

2015

35. FPGA implementation for speed monitoring and speed control of a DC motor using fuzzy logic.

Author

Hepzibah, E. Julie and Korah, Reeba

Abstract

This paper presents the speed monitoring of a DC motor drive using field programmable gate array which provides a faster operation than any other conventional analog methods or digital methods like DSP. The paper consists of two parts. The first part deals with the MATLAB simulation for speed control of a DC motor using fuzzy logic. The most effective method of control is the control of PWM, generated for triggering the converter circuit. The PWM is given through the driver circuit to the half bridge converter, which controls the speed of the motor. The hardware part deals with the speed monitoring of the DC motor using FPGA. In this implementation, the PWM is generated using XBLINX software, which is given to the converter through the FPGA The use of FPGA reduces the processing speed and hence increases the efficiency of the motor. The result of the open loop control is compared with the fuzzy logic control. [ABSTRACT FROM PUBLISHER]

Published

2012

36. Design of CMOS class-E power amplifier for WLAN and bluetooth applications.

Author

Manikandan, P. and Mathew, Ribu

Abstract

A class-E power amplifier with modified driver for WLAN and Bluetooth applications is presented in this paper. It is shown that a parallel class-E power amplifier gives better output power at minimum input power levels compared to a conventional class-E power amplifier. A new modified driver stage is proposed which drives the power amplifier efficiently. Negative capacitance concept is implemented to reduce parasitic capacitances at the driver output node to shape the driver output voltage. The negative capacitance is implemented without external circuit and the driver circuit is fed with less than 5dBm input power at 2.4GHz operating frequency. The power amplifier gain is more than 20dBm with 40% PAE at 2.4GHz. The power amplifier and the modified driver circuitry were implemented in 0.18-µm UMC CMOS technology using Cadence tool. [ABSTRACT FROM PUBLISHER]

Published

2012

37. P-5: Pseudo-CMOS Circuits using Amorphous In-Sn-Zn-O Thin-Film Transistors.

Author

Kimura, Mutsumi, Sawamoto, Daisuke, Matsuda, Tokiyoshi, Wang, Dapeng, Furuta, Mamoru, Kasami, Masashi, Tomai, Shigekazu, and Yano, Koki

Subjects

THIN film transistors, STATIC electricity, FABRICATION (Manufacturing), MANUFACTURING processes, AMORPHOUS semiconductors

Abstract

We have developed pseudo-CMOS circuits using α-ITZO TFTs. The pseudo-CMOS circuits have more excellent circuit characteristics than the conventional circuits. Either of the two pseudo-CMOS circuits should be selected on demand by considering whether the static or dynamic characteristic is important. These results are useful to integrate driver circuits into FPDs. [ABSTRACT FROM AUTHOR]

Published

2014

38. Design and Implementation of Solar OLED Lighting Driver Circuit with Frequency Modulation Control

Author

Huang-Jen Chiu and Zhong-Rong Lin

Subjects

Control and Optimization, triangular current mode, Computer science, Energy Engineering and Power Technology, 02 engineering and technology, SEPIC converter, Driver circuit, Inductor, lcsh:Technology, Maximum power point tracking, 020210 optoelectronics & photonics, zero voltage switching, 0202 electrical engineering, electronic engineering, information engineering, Hardware_INTEGRATEDCIRCUITS, Digital control, Electrical and Electronic Engineering, Engineering (miscellaneous), Diode, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, Electrical engineering, Battery (vacuum tube), Schottky diode, maximum power point tracking, frequency modulation, business, Frequency modulation, Energy (miscellaneous)

Abstract

This paper proposes a single-stage single-ended primary inductor converter (SEPIC) converter circuit, which is applied to the organic light-emitting diodes (OLED) driver circuit. The circuit proposed in this paper replaces the output Schottky diode from the original SEPIC with a power switch. Deadtime is added to prevent the on-state overlapping of two switches with zero voltage switching (ZVS), and the circuit operates in triangular current mode. The digital control methods are maximum power point tracking and frequency modulation using a battery to supply the converter and illuminate the OLED at night. Finally, a prototype is implemented to show the feasibility under the DC input voltage range of 10&ndash, 40 V. The DC output is 12 V/1 A/12 W, and the conversion efficiency is up to 96.3%.

Published

2020

39. A 6.4-Gb/s Near-Ground Single-Ended Transceiver for Dual-Rank DIMM Memory Interface Systems.

Author

Bucher, Michael, Kollipara, Ravi T., Su, Bruce, Gopalakrishnan, Liji, Prabhu, Kashinath, Venkatesan, Pravin Kumar, Kaviani, Kambiz, Daly, Barry, Stonecypher, B. William F., Dettloff, Wayne, Stone, Teva, Heaton, Fred, Lu, Yi, Madden, Chris, Bangalore, Sanath, Eble, John C., Nguyen, Nhat M., and Luo, Lei

Subjects

RADIO transmitter-receivers, COMPUTER storage devices, COMPUTER interfaces, TRANSMITTERS (Communication), CMOS integrated circuits, VOLTAGE control

Abstract

This paper describes an asymmetric 6.4-Gb/s memory interface for a wide range of DIMM configurations for desktop and server applications. The link uses a fly-by quadrature forwarded clock to enable fast startup and power-mode transitions on the DRAM and per-bit timing adjustment on the controller to enable the high-speed signaling. Single-ended low-swing near-ground signaling (NGS) is introduced in order to minimize signaling power. Transmitter and receiver equalization are used on the controller, but not the DRAM, in order to save DRAM complexity and power. Architectural and circuit techniques are presented to address the complex signaling and timing environment encountered in the explored configurations. The implemented link achieves 6.4-Gb/s communication over a 3.5-in FR4 PCB trace with a dual-rank dual-in line memory module with better than 9.1-pJ/bit power efficiency for the entire chip. [ABSTRACT FROM PUBLISHER]

Published

2014

40. Evaluation of the off-State Base-Emitter Voltage Requirement of the SiC BJT With a Regenerative Proportional Base Driver Circuit and Their Application in an Inverter

Author

Neville McNeill, Bosen Jin, Ian Laird, and Xibo Yuan

Subjects

Silicon, Materials science, TK, Integrated circuits, 02 engineering and technology, Integrated circuit, Silicon carbide, Driver circuit, law.invention, MOSFET, law, Driver circuits, Current transformers, 0202 electrical engineering, electronic engineering, information engineering, Hardware_INTEGRATEDCIRCUITS, power converter, simultaneous conduction, Electrical and Electronic Engineering, Common emitter, business.industry, SiC bipolar junction transistor (BJT), 020208 electrical & electronic engineering, Bipolar junction transistor, Electrical engineering, Logic gates, Current transformer, Control and Systems Engineering, Base driver, Inverter, business, d $v$ /d $t$, Voltage

Abstract

A strong candidate device for use in high-efficiency and high-density power converters is the SiC bipolar junction transistor, which requires a continuous gate (base) current to maintain its on -state. A base driver circuit with regenerative collector current feedback using a current transformer, and a negative off -state base-emitter voltage is presented in this article. The off -state base-emitter voltage required to prevent simultaneous conduction of a commercially available device when subjected to d v /d t’ s is assessed. The device is then utilized in a three-phase dc-to-ac power converter where the efficacy of using the proposed base driver is evaluated. The off -state base-emitter voltage used is informed by the d v /d t tests. The converter is supplied from a 600-V dc rail, switches at 50 kHz and supplies a 4.1-kW load at a modulation index of 0.9. An efficiency of 97.4% was measured.

Published

2020

41. Power-Efficient Driver Circuit for Piezo Electric Actuator with Passive Charge Recovery

Author

Norikazu Ohta and Takashi Ozaki

Subjects

0209 industrial biotechnology, Control and Optimization, Materials science, driver circuit, charge recovery, piezoelectric actuator, power consumption, Energy Engineering and Power Technology, 02 engineering and technology, Power factor, Hardware_PERFORMANCEANDRELIABILITY, Driver circuit, lcsh:Technology, law.invention, Computer Science::Robotics, Condensed Matter::Materials Science, 020901 industrial engineering & automation, Parasitic capacitance, law, Hardware_GENERAL, 0202 electrical engineering, electronic engineering, information engineering, Hardware_INTEGRATEDCIRCUITS, Quantitative Biology::Populations and Evolution, Electrical and Electronic Engineering, Engineering (miscellaneous), Electronic circuit, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, 020208 electrical & electronic engineering, Electrical engineering, Piezoelectricity, Computer Science::Other, visual_art, Electronic component, visual_art.visual_art_medium, Resistor, Actuator, business, Energy (miscellaneous)

Abstract

Piezoelectric actuation is a promising principle for insect-scaled robots. A major concern while utilizing a piezoelectric actuator is energy loss due to its parasitic capacitance. In this paper, we propose a new concept to recover the charge stored in the parasitic capacitance; it requires only three additional lightweight passive components: two diodes and a resistor. The advantages of our concept are its small additional mass and simple operating procedure compared with existing charge recovery circuits. We provided a guideline for selecting a resistor using a simplified theoretical model and found that half of the charge can be recovered by employing a resistor that has a resistance sufficiently larger than the forward resistance of the additional diode. In addition, we experimentally demonstrated the concept. With a capacitive load (as a replacement for the piezoelectric actuator), it was successfully observed that the proposed concept decreased the power consumption to 58% of that in a circuit without charge recovery. Considering micro aerial vehicle (MAV) applications, we measured the lift-to-power efficiency of a flapping wing piezoelectric actuator by applying the proposed concept. The lift force was not affected by charge recovery; however, the power consumption was reduced. As a result, the efficiency was improved to 30.0%. We expect that the proposed circuit will contribute to the advancement of energy-saving microrobotics.

Published

2020

42. Compact Medium Voltage DC/DC Converter Using Series-Connected Power Devices

Author

Feng Lyu and Shaoduo Zheng

Subjects

Computer Networks and Communications, Computer science, lcsh:TK7800-8360, 02 engineering and technology, Driver circuit, Reliability (semiconductor), medium voltage, DC/DC converter, 0202 electrical engineering, electronic engineering, information engineering, Power semiconductor device, Electrical and Electronic Engineering, series-connected power devices, business.industry, 020208 electrical & electronic engineering, lcsh:Electronics, Electrical engineering, 021001 nanoscience & nanotechnology, Electric power transmission, Hardware and Architecture, Control and Systems Engineering, Signal Processing, 0210 nano-technology, business, voltage sharing, Low voltage, Voltage

Abstract

Medium voltage (MV) DC/DC converters are key equipment for interconnection between DC power lines with different voltage levels in MVDC grids. The Input-series-output-parallel (ISOP) modular MV DC/DC converter is feasible to realize MV to low voltage (LV) conversion. However, a large number of LV modules in the converter may reduce the reliability and increase the complexity. This letter proposes a phase-shifted full-bridge MV DC/DC converter using series-connected power devices as switching modules. The converter is of low cost, simple structure, compact volume, and high reliability because these switching modules require only one external isolated driver circuit and very few components to achieve voltage sharing among series-connected power devices. The operation principle of the switching modules is analyzed, and the simulation and experimental results validate the feasibility of the converter design.

Published

2020

43. Multilevel Security System for ATM Machines

Author

Bharath Pisay, Archana S Nadhan, A.Shilpa Bhatt, Gudisa Jabili, Tarun Kosuri, and Blue Eyes Intelligence Engineering & Sciences Publication(BEIESP)

Subjects

Internet of things, Sensors, Driver circuit, Audrino Nano, Microcontroller, DC motors, Biometric, Authentication, fingerprint, Authentication, Environmental Engineering, Biometrics, D7437049420/2020©BEIESP, business.industry, Computer science, Fingerprint (computing), General Engineering, 2249-8958, Driver circuit, DC motor, Computer Science Applications, Microcontroller, Embedded system, Multilevel security, business, Internet of Things

Abstract

Cash machines and bank cards are currently being used with the ultimate purpose of currency trades and agree a crucial operation in exchange. For eg, the shortcomings of the current validation scheme, the secret key and the Security code triggered a leakage of data put away in ATM payment card that resulted in the loss in cash in ledger and personal data misuse. In order to overcome this vulnerability of theft during cash transactions, it intend to use customers ' fingerprints as a hidden term included with once hidden expression. The consumer will have the right to carry on for exchange after accepted confirmation. Every individual's distinctive biometric label is one of its kind and unchangeable Keywords: Internet of things, Sensors, Driver circuit, Audrino Nano, Microcontroller, DC motors, Biometric, Authentication, fingerprintCash machines and bank cards are currently being used with the ultimate purpose of currency trades and agree a crucial operation in exchange. For eg, the shortcomings of the current validation scheme, the secret key and the Security code triggered a leakage of data put away in ATM payment card that resulted in the loss in cash in ledger and personal data misuse. In order to overcome this vulnerability of theft during cash transactions, it intend to use customers ' fingerprints as a hidden term included with once hidden expression. The consumer will have the right to carry on for exchange after accepted confirmation. Every individual's distinctive biometric label is one of its kind and unchangeable

Published

2020

44. Fuzzy Logic Based Dryer Controller

Author

Aye Mar Khin and Aye Myint Thwe

Subjects

555 timer IC, Ring counter, CD4017BC, 555 Timer, Fuzzy Logic, Control theory, Interfacing, Computer science, Humidity sensor, Timer, Driver circuit, Fuzzy logic, Pulse-width modulation

Abstract

The fuzzy logic control system determines the real-world constraint of the dryer’s heating rate to the dryer driver circuit which is constructed with the pulse width modulation (PWM) technique. Input and output operations to and from the computer system are carried out via parallel interfacing and Turbo C++ programming. The humidity sensing circuit is constructed around a 555 timer with astable operation which is a non-sinusoidal oscillator. This humidity sensing circuit produces a rectangular wave with the frequency indirectly proportional to the sensed humidity. In order to achieve the perfectively symmetrical square wave as well as to reduce the frequency value, the clocked flip-flop, CD4017BC that is divided by 10 Johnson counter with 10 decoded outputs and a carry out bit is added to the timer’s output. The resultant frequency is applied into the computer system integrating with the fuzzy logic and it determines the frequency value and its rate of change which are input to the fuzzy logic control system.

Published

2020

45. Towards Software Based Optical Communication Methods for the Assistance of Docking Autonomous Underwater Vehicles

Author

Badr Abdullah, Owen McAree, Frederic Bezombes, Josef Grindley, and Muhammad Ateeq

Subjects

0106 biological sciences, Computer Networks and Communications, Computer science, TK, VM, Optical communication, lcsh:TK7800-8360, Simulink<%2Fspan>+C%2B%2B+Coder<%2Fspan>%22">Simulink C++ Coder, Driver circuit, Underwater robotics, 01 natural sciences, law.invention, Software, law, Electrical and Electronic Engineering, Underwater, 0105 earth and related environmental sciences, Simulink<%2Fspan>%22">Simulink, 010505 oceanography, business.industry, 010604 marine biology & hydrobiology, Transmitter, lcsh:Electronics, Hardware-in-the-loop simulation, robot operating system (ROS), Photodiode, underwater optical communication, Microcontroller, TA, Hardware and Architecture, Control and Systems Engineering, Signal Processing, business, Computer hardware, Data transmission

Abstract

The use of optical communications systems is prevalent in underwater robotics when short-range data transmission is required or preferred. This paper proposes a method of producing and testing an optical communications system for use in the assistance of optical docking for autonomous underwater vehicles (AUVs). It describes how the Simulink modelling environment was used to program and simulate a model of a transmitter, which was then implemented on a microcontroller. The transmitter model implemented on hardware was then used to produce an optical signal, which was sampled, logged and used to design a receiver model in Simulink. For signalling purposes, the experiment used a light-emitting diode (LED) with a driver circuit and photodiode based receiver. This simulated approach using real world data enabled the analysis of the system at every point during the process, allowing for a hardware in the loop style approach to be used in the receiver model design. Consequently, the Simulink Coder was used to produce the receiver model&rsquo, s equivalent in C++ for later deployment. A benchmark was determined through experimentation to compare within future studies, the system was tested and found to operate effectively at distances between 1 m and 12 m in a controlled in air test environment.

Published

2020

46. Analysis of totem-pole drivers in SiGe for RF and wideband applications.

Author

Wickert, Michael, Wolf, Robert, and Ellinger, Frank

Abstract

This paper presents an analysis of totem-pole (TP) stages for driver applications and summarizes the major design constraints for an optimization with respect to P1dB, OIP3, and bandwidth. It is shown, that for matched drivers, in contrast to the widely applied common collector (CC) stage, class-AB TP stages offer higher output power and much higher power-added efficiencies (PAE) at comparable bandwidth. A combiner chip in 0.25 μm SiGe Bipolar CMOS (BiCMOS) verifying this concept in hardware as output driver is demonstrated proofing the increased achievable output power, which was measured greater than +0.1 dBm. This is approximately 11 dB higher than for a conventional CC driver. Furthermore, a concept is proposed, where the TP stage can act as a broadband matched driver for differential or balun operation ranging down to DC. As verification a broadband driver design using a class-AB TP stage is presented, which has a 3 dB bandwidth of 7.9 GHz and delivers up to +4.3 dBm into a 50 Ω load, which is 17 dB higher than its CC counterpart. At this output power it consumes a DC power of 12.3 mW and yields a PAE of 16.1%. [ABSTRACT FROM PUBLISHER]

Published

2012

47. Power reduction using adiabatic charge method for PDP driver circuit.

Author

Yuji Sano and Wei-Feng Chen

Subjects

*ENERGY conservation, *LINE drivers (Integrated circuits), *PLASMA displays, *ENERGY consumption, *ENERGY management

Abstract

The article discusses power reduction by energy-recovery method application for driver circuits. Plasma displays use adiabatic charge method for their energy recovery circuits, but an experimental pseudo-adiabatic charge circuit has been shown to further decrease power consumption. Experiments using address driver circuits have shown an effective power reduction of about 14 percent.

Published

2011

48. Design of a 4 × 10 Gb/s VCSEL Driver Using Asymmetric Emphasis Technique in 90-nm CMOS for Optical Interconnection.

Author

Ohhata, Kenichi, Imamura, Hironori, Takeshita, Yoshiki, Yamashita, Kiichi, Kanai, Hisaaki, and Chujo, Norio

Subjects

*COMPLEMENTARY metal oxide semiconductors, *LASERS, *DIGITAL electronics, *DATA transmission systems, *ELECTRONIC data processing, *DIGITAL communications

Abstract

This paper describes the design and experimental results of a 4 x 10 Gb/s vertical-cavity surface-emitting laser (VCSEL) driver using the asymmetric emphasis technique. Conventional symmetric emphasis techniques can compensate for the influences of parasitic capacitances; however, they cannot compensate for the nonlinear effects of a VCSEL. To overcome this problem, an asymmetric emphasis technique that can separately control the emphasis pulses at the rising and falling edges is proposed. This allows fast transition in VCSEL output waveform suppressing ringing. A driver circuit that has two separate emphasis circuits for the rising and falling edges is proposed in order to implement the asymmetric emphasis technique. This configuration enables us to separately control the height, width, and setup time of the emphasis pulses at the rising and falling edges. The test chip fabricated by using 90-nm CMOS technology generates a clearly open optical eye at a data rate of 10 Gb/s, and we can confirm the existence of a wide phase margin by a transmission experiment. [ABSTRACT FROM AUTHOR]

Published

2010

49. A High Power Driver IC for Electroluminescent Panel: Design Challenges and Advantages of using the Emerging LEES-SMART GaN-on-CMOS process.

Author

Jia, Zhou, Ge, Tong, Guo, Linfei, Eileen, Ng Pei Jian, He, Huiqiao, and Chang, Joseph

Subjects

GALLIUM nitride, COMPLEMENTARY metal oxide semiconductors, CHEMICAL processes, ELECTROLUMINESCENCE, SILICON, ELECTRIC circuits

Abstract

The Electroluminescent (EL) panel is an emerging backplane lighting technology and becoming increasingly popular in advertising display and facade decoration. Despite the increased popularity of the EL panel, driver circuit for large EL panel is nascent in part because of the required high output power. In this paper, a novel high power EL driver IC based on the emerging LEES-SMART GaN-on-CMOS process are presented and we show that this integrated class-D EL driver is advantageous compared to EL driver IC based on state-of-the-art silicon IC process. [ABSTRACT FROM AUTHOR]

Published

2016

50. Low cost bulk-silicon CDMOS technology and enhanced dv/dt high voltage driver circuit for PDP data driver IC

Author

Li, Haisong, Qian, Qinsong, Wu, Hong, Sun, Weifeng, and Shi, Longxing

Subjects

*COMPLEMENTARY metal oxide semiconductors, *ELECTRIC potential, *INTEGRATED circuits, *PLASMA displays, *ENERGY dissipation, *SILICON

Abstract

Abstract: In this paper, a 256-channel data driver IC for plasma display panels (PDPs) is proposed. A new low cost 0.5μm bulk-silicon CDMOS (CMOS and DMOS) technology is developed, resulting in the improvement of input data frequency up to 120MHz and reduction of die cost about 20% compared with the conventional one. A novel high voltage driver circuit is also presented to optimize dv/dt of the output signal from 1.2 to 0.2V/ns. The proposed circuit can avoid unwanted turning on of the pLEDMOS transistors in output stage and cut down the power dissipation by 12% compared with the conventional one. The application results show rising and falling times of the output stage are 45 and 84ns, respectively. [Copyright &y& Elsevier]

Published

2009