Many studies focus on battery testing, modeling, and charging optimization. However, these studies often lack comprehensive evaluations across different battery types, and their experimental results usually don't reach a consensus. Therefore, this study conducts various tests on batteries with different types and SOH. Experimental results show that NMC batteries have notable temperature changes during charging and discharging, while LFP and LTO batteries show smaller temperature and voltage changes. LFP power cell has lower internal resistance and temperature rise compared to LFP energy cell. In pulse discharge tests, this study establishes second-order Thevenin battery models for LCO and NMC batteries. Model parameters can reflect battery performance and estimate internal resistance. In Positive Pulse Charging (PPC) charging experiments, this study uses 2C-PPC charging method for various batteries. Results show that the maximum temperature rise during 2C-PPC is higher than 1C-CC. 0.25 Hz 2C-PPC was found to be better than 0.05 Hz 2C-PPC, and 0.25 Hz 1C-PPC can significantly reduce the temperature rise in aged NMC batteries. This study also developed a battery monitoring device based on the Arduino microcontroller, which can record voltage, current, and temperature simultaneously. Another part of this study is regression analysis of solar power. This study uses solar power data and weather data from the Central Weather Bureau, employing Linear Regression, Polynomial Regression, and Ridge Regression models. Results show that Polynomial Regression model performs best, with 0.007 MSE, 0.065 MAE, and an R-squared of 0.94.