Performance Robustness of PID Controller in Buck Converter For Cooling System

When driving in the long journey to store the beverages required cooling system that can keep drinks stay fresh and the quality is maintained when it is about to be consumed. However, many cooling systems are now made using compressor and freon systems which use chemicals that are not environmentally friendly, and consume a lot of energy from car batteries. So that the need for other sources of energy that its use will never run out, that is by the use of solar energy with solar cells. However, the output voltage generated by solar cells is always changing based on the intensity of light and weather conditions. Need a control that can adjust the output voltage of solar cells to be stable, if there is any change of output voltage then the controller will be active and quickly restore the voltage in a stable state. Therefore, this paper presents a cooling system that uses solar cells as an energy source which later output voltage will be derived using a DC-DC Buck Converter. Then the output voltage of this buck converter is controlled by the PID control which will be fed back by the voltage sensor for battery charging process. This battery will be an energized source for Peltier as a cooling device in the cooling beverage system. It is hoped that from this paper can be designed and implemented environmentally friendly cooling system and utilize renewable energy and save energy on car battery.

[1]  T. W. Martin,et al.  Digital control for switching converters , 1995, 1995 Proceedings of the IEEE International Symposium on Industrial Electronics.

[2]  Farid Dwi Murdianto,et al.  Comparison method of flower pollination algorithm, modified particle swarm optimization and perturb & observe in MPPT coupled inductor sepic converter on DC microgrid isolated system , 2017, 2017 International Conference on Advanced Mechatronics, Intelligent Manufacture, and Industrial Automation (ICAMIMIA).

[3]  Dejan Markovic,et al.  Digital PWM control: application in voltage regulation modules , 1999, 30th Annual IEEE Power Electronics Specialists Conference. Record. (Cat. No.99CH36321).

[4]  K. Vibhute,et al.  All weather solar cell- a new trend of design of solar cell , 2016, 2016 International Conference on Electrical Power and Energy Systems (ICEPES).

[5]  Rudolf P. Severns,et al.  The Buck Converter , 1985 .

[6]  H. Goldsmid,et al.  Introduction to Thermoelectricity , 2010 .

[7]  Muhammad Umar Abbasi Digital Control Of A Buck Converter Using An 8 Bit STM Microcontroller , 2017 .

[8]  Moh. Zaenal Efendi,et al.  Comparison method of MPSO, FPA, and GWO algorithm in MPPT SEPIC converter under dynamic partial shading condition , 2017, 2017 International Conference on Advanced Mechatronics, Intelligent Manufacture, and Industrial Automation (ICAMIMIA).

[9]  Suyanto Suyanto,et al.  Modeling and Simulation of MPPT-SEPIC Combined Bidirectional Control Inverse KY Converter Using ANFIS in Microgrid System , 2016 .

[10]  Jianlin Yu,et al.  Design optimization of thermoelectric cooling systems for applications in electronic devices , 2012 .

[11]  H. Yin,et al.  Energy Conversion Efficiency of a Novel Hybrid Solar System for Photovoltaic, Thermoelectric, and Heat Utilization , 2011, IEEE Transactions on Energy Conversion.

[12]  G. Tan,et al.  A review of thermoelectric cooling: Materials, modeling and applications , 2014 .

[13]  Melinda Badriatul Fauziah,et al.  Design of PID-fuzzy for speed control of brushless DC motor in dynamic electric vehicle to improve steady-state performance , 2017, 2017 International Electronics Symposium on Engineering Technology and Applications (IES-ETA).

[14]  H. Goldsmid,et al.  Introduction to Thermoelectricity , 2016 .

[15]  Hengyun Zhang A general approach in evaluating and optimizing thermoelectric coolers , 2010 .