Corpus ID: 16299923

Digital Control Strategy for Four Quadrant Operation of DC Motor using DSPIC 30 F 4011

  title={Digital Control Strategy for Four Quadrant Operation of DC Motor using DSPIC 30 F 4011},
  author={Prashant Kumar S. Chinamalli and Raju Yanamshetti},
The Microcontroller based adjustable closed-loop DC motor speed controller systems has already become an important drive configuration for many applications across a wide range of power and speed . This is due to their simple control, high reliability, low cost and fast response and ability to work in all the four quadrants. Control System Design and Analysis technologies are widely suppress and very useful to be applied in real-time development. Some can be solved by hardware technology and by… Expand
2 Citations
Implementation of Fuzzy Logic Controller based Dynamic Voltage Restorer ( DVR ) with DFIG in Distribution System for Power Quality Improvement
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Home Automation is a technological evolving subject, permitting to build smart houses. In a smart house, there is a home area network with all devices interconnected. These devices can be monitoredExpand


Study of bi-directional buck-boost converter topologies for application in electrical vehicle motor drives
The use of a bi-directional DC-DC converter in motor drives devoted to EVs allows a suitable control of both motoring and regenerative braking operations. In particular, during motoring operations ofExpand
A Novel Full-digital Bidirectional Constant Current Source Converter
A novel circuit dedicating to system within storage battery as standby power supply and operating as bidirectional current source is proposed in this paper. Functions of both discharging process withExpand
Comparing DC-DC converters for power management in hybrid electric vehicles
  • R. Schupbach, J. Balda
  • Engineering
  • IEEE International Electric Machines and Drives Conference, 2003. IEMDC'03.
  • 2003
The design of DC-DC converters for power electronic interfaces in power management systems for hybrid electric vehicle (HEV) is a very challenging task. To this end, this paper presents an analysis,Expand
A Family Of Four-Quadrant, PWM DC-DC Converters
A new family of bi-polar bi-directional DC-DC converters is generated by using two symmetrical basic blocks, each one formed by a switch, two inductors and two capacitors. The converters provide aExpand
Three Phase Z-Source Rectifier
Analysis and simulation results show that the three-phase Z-source rectifier can buck-boost voltage by using the shoot-through state, which is harmful for the conventional VSR. Expand
A novel ZVS Z-source rectifier
The three-phase ZVS Z-source rectifier implements the zero voltage turn-on for power transistors and zero-current turn-off for diodes without any additional circuits and provides a low-cost, reliable, and highly efficient single-stage structure for buck or boost power conversion. Expand
Z-source inverter
  • F. Peng
  • Physics, Computer Science
  • Conference Record of the 2002 IEEE Industry Applications Conference. 37th IAS Annual Meeting (Cat. No.02CH37344)
  • 2002
The Z-source converter employs a unique impedance network to couple the converter main circuit to the power source, thus providing unique features that cannot be obtained in the traditional voltage-source (or voltage-fed) and current-source converters where a capacitor and inductor are used respectively. Expand
A Novel Buck-Boost Z-Source Rectifier
This paper presents a novel buck/boost Z-Source rectifier, in which an impedance network is employed to couple the rectifier main circuit to the load, thus it provides unique features that cannot beExpand
Bi- Directional DC- DC Converter with Full-Bridge / Pus h – Pull Circuit for Automobile Electric Power System
  • in Proc. IE E Power Electronics specialists Conf. (PESC),
  • 2006
Jain “ A Bi - directional DC - DC Converter Topology for Low Power Application ”
  • Comparing DC - DC Converters for Power management in Hybrid Electric Vehicles ”
  • 2003