sj-docx-1-heb-10.1177_10901981211048823 – Supplemental material for Trained Volunteers With Type 2 Diabetes Experience Significant Health Benefits When Providing Peer Support

Supplemental material, sj-docx-1-heb-10.1177_10901981211048823 for Trained Volunteers With Type 2 Diabetes Experience Significant Health Benefits When Providing Peer Support by Nikki J. Garner, Martin Pond, Sara Auckland and Mike Sampson in Health Education & Behavior</p

The development of a new maximum power point tracker for a PV panel

The PV systems are rapidly expanding and have increasing roles in electric power technologies, providing more secure power sources and pollution free electric supplies. Since the PV electricity is expensive compared to the electricity from the utility grid, users want to use all the available output PV power. Therefore, the PV systems should be designed to operate at their maximum output power for any temperature and solar radiation level. In this paper, we consider a photovoltaic panel supplying a battery. For maximizing the output power of this panel, we have using a boost dc/dc converter controlled by a PI regulator. For synthesizing this regulator, we have replaced the converter with an equivalent continuous model when we have considered the mean values, over the chopping period, of the electric quantities. Then, we have developed the transfer function of the system by using the small signal modeling around an optimal operating point. A PI synthesis has been achieved by using Bode method. In the study, we have taken into account the converter losses. Coefficients Kp and KI obtained of PI regulator lead to good simulations. The theoretical results confirm excellent tracking effectiveness response. The regulator operates correctly on a large range