Current-voltage characteristics of high molecular weight poly(4 vinyl pyridine) (P4VP) doped with P-toluene sulphonic acid (PTSA) and I-2 is carried out in the voltage range 0-100 V and temperature range 300-440 K. It is found that for pure P4VP and PTSA doped P4VP. the current shows a linear variation with voltage following omhic characteristics with slope 0.77 similar to 1 in the initial 0-45 V and then with slope 1.02 similar to 1.72 leading to a partial SCLC type conduction. When the P4VP + PTSA complex is further doped with I-2 the current increases drastically due to a large number of low energy carriers released by the charge transfer complex (CTC) formed. The transition voltage also shifted to the higher voltage side (75-80 V) indicating omhic conduction for a wide range of applied field. The variation is found to be nonomhic after 75 V and the SCLC mechanism along with thermally activated omhic conduction dominates. The suitability of different mechanisms are justified by considering Poole-Frenkel (PF)/Richardson-Schottky (RS) and SCLC approaches.