The influence of dopant impurity type on the dislocation mobility in InP crystals is investigated. It is shown that the dislocation mobility (γ, γ_s) under action of a concentrated load depends on impurity type and deformation temperature. The critical temperature (T_cr) of dislocation activation for pure and iron doped InP is close to 600 K. The donor impurity (Sn) displaces T_cr towards low temperatures (T ≈ 550 K) and raises the γ and γ_s parameters. Acceptor impurity leads to increase of T_cr (>800 K) and decreases the γ and γ_s values. The nature of this phenomenon consists in change of the lattice parameter (a) of the InP crystals - a is increased by doping with donor impurity and decreased by acceptor doping. The deformation (dislocation and twinning) mechanisms are concerned with the size of lattice parameter as well.