We calculate the tunneling conductance spectra of a normal metal/insulator/triplet superconductor from the reflection amplitudes using the Blonder–Tinkham–Klapwijk formula. For the triplet superconductor we assume one special p-wave order parameter having line nodes and two two-dimensional f-wave order parameters with line nodes breaking the time-reversal symmetry. Also we examine nodeless pairing potentials. The tunneling peaks are due to the formation of bound states for each surface orientation at discrete quasiparticles trajectory angles. The tunneling spectra can be used to distinguish the possible candidate pairing states of the superconductor Sr 2RuO 4.