Charge pair photogeneration was investigated by ultrafast absorption spectroscopy for different excitation photon energies in poly[3-(${2}^{\ensuremath{'}}$-methoxy-${5}^{\ensuremath{'}}$octylphenyl)thiophene] $(\mathrm{POMeOPT})$ film with and without an external electric field. Electric field-assisted charge pair photogeneration in $\mathrm{POMeOPT}$ occurs from vibrationally relaxed singlet excitons during their entire lifetime and charge pair formation takes place in this manner even in the absence of an external electric field. From our data there are no indications of hot exciton dissociation to charge pairs even when a large amount of excess energy is supplied to the excitons. To explain these observations we present a model with energy transfer to low-barrier dissociation sites as a key feature.