We consider the asymtotics of the coefficients of generating function $y(x)$, which is defined by the implicit function $y= F(x,y)$.

If $F(x,y)$ is a rational function in $y$ but not a linear function, and has non-negative coefficients of development in $x$ and $y$, can we conculde that $[x^n]y(x)\sim \rho^{-n} n^{-\frac{3}{2}}$?

If not, what kind of additional condition do we need to prove such asymtotics?

It seems that it can be derived from singularity analysis. One reference could be Flajolet and Sedgewick's Book "Analytic Combinatorics". However the proof in there is rather obscure to me.

I think that we still need to additional condition to make that conclusion, such as there exist $r>0$ and $s>0$ satisfying \begin{equation} F(r,s)=s, F_x(r,s)=1. \end{equation}

Any reference about this topic would be appreciated. Thank You in Advance.