From what I gather, you want to simulate the PV module in MATLAB with varying temperatures. To achieve this, you can do the following modifications in the code:
1. Convert the temperature range from Celsius to Kelvin for accurate calculations involving Boltzmann's constant.
Top = 30:20:90;
% Convert temperatures to Kelvin
TopK = Top + 273.15;
2. Calculate the necessary parameters like thermal voltage (vt), photocurrent (Iph), reverse saturation current (Irs), and saturation current (Io) for modelling the PV module's behavior.
for i = 1:length(TopK)
T = TopK(i);
vt = N * k * T / q; % Thermal voltage
Iph(i) = 2.55 + 0.0017 * (T - 298.15); % Photocurrent
Irs(i) = 2.55 / (exp(voc / vt) - 1); % Saturation current
Io(i) = Irs(i) * (T / Tref)^3 * exp(q * Ego * (1/Tref - 1/T) / (B * k)); % Saturation current
D(i) = vt;
end
3. Use linspace to define a smooth voltage range and iterate over this range to compute and plot the I-V curves for each temperature.
figure;
hold on;
x = linspace(0, voc, 100);
for i = 1:length(TopK)
Ipv = Np * Iph(i) - N * Io(i) * (exp(x / D(i)) - 1);
plot(x, Ipv);
end
You can refer to the output below for a better understanding:
Happy coding!
