Title :
Low voltage digitally control impedance based solar charge controller design on FPGA
Author :
Bhat, Deepshikha ; Kaur, Amanpreet ; Singh, Sunny
Author_Institution :
Dept. of Electron. & Commun., Chitkara Univ., Chandigarh, India
Abstract :
This paper provides an overview of the power measurement techniques in sensor network localization in which solar charge controlled checks the voltage and current of the battery. This is an ideal low-cost design that could be implemented in many developing countries´ the grid energy generators. In this paper, we did work on different frequencies and check the power reduction. It has been observed that the maximum total power reduction occurs in the case of frequency of 1 MHz when it is operating at LVDCI_DV2_25. So, it is preferable to operate the circuit at the frequency of 1 MHz with respect to other frequencies to make it more energy efficient. We analyze LVDCI_DV2_15 for different frequencies; there is 96.62% reduction when we are reducing frequency from 1THz to 1 MHz, 73.51% reduction when we are reducing frequency from 100GHz to 1 MHz, 21.88% reduction when we are reducing frequency from 10GHz to 1 MHz.
Keywords :
digital control; electric current control; electric impedance; field programmable gate arrays; power measurement; sensor placement; solar cells; voltage control; FPGA; LVDCI_DV2_15; LVDCI_DV2_25; battery current; battery voltage; frequency 1 MHz; grid energy generator; low voltage digitally control impedance; maximum total power reduction; power measurement technique; sensor network localization; solar charge controller design; Batteries; Energy efficiency; Field programmable gate arrays; Low voltage; Standards; Voltage control; Wireless sensor networks; Energy efficient; FPGA; High performance; IO Standards; LVCMOS; Portable; Solar Charge Controller;
Conference_Titel :
Computing for Sustainable Global Development (INDIACom), 2015 2nd International Conference on
Conference_Location :
New Delhi
Print_ISBN :
978-9-3805-4415-1
