It is probably best to use the more robust fsolve in the function instead of fzero.
Try this:
function S = Integralsystem(x, t1, t2, n, a, b, Umax1, Umax2);
fun1 = @(T) x(2) - (Umax1/n)*(exp(a*(T*1e-6)) - exp(b*(T*1e-6)));
t01 = fsolve(fun1, 0.1);
fun2 = @(T) x(2) - (Umax2/n)*(exp(a*(T*1e-6)) - exp(b*(T*1e-6)));
t02 = fsolve(fun2, 1.1);
fun3 = @(T) ((Umax1/n)*(exp(a*(T*1e-6)) - exp(b*(T*1e-6)))) - x(2);
fun4 = @(T) ((Umax1/n)*(exp(a*(T*1e-6)) - exp(b*(T*1e-6)))) - x(2);
S(1) = x(1) - (integral(fun3,t01,t1));
S(2) = x(1) - (integral(fun4,t02,t2));
end
s = fsolve(@(x) Integralsystem(x, t1, t2, n, a, b, Umax1, Umax2),[100 1000])
This slightly revised code (with random scalar values for the other agruments) ran without error and produced a (1x2) vector for ‘s’.
