Transmembrane ion pumps are often investigated experimentally by photoelectric measurements in model systems. In addition to the most widely used systems based on model membranes, a fundamentally different class is represented by the so-called suspension methods. In this technique the electric signal is measured on a bulk suspension of oriented ion pumps in the form of a displacement current. On this system, electric and spectroscopic experiments can be performed simultaneously. Using the information from both types of measurements, and utilizing the three-dimensional nature of the system, it is possible to follow the intramolecular charge motions in all three spatial directions. The derivable dipole moment changes associated with conformational transitions allow the verification of molecular dynamic models. In this work a theory is presented to describe the suspension method; samples with different symmetry properties and the possibilities of photoselection to obtain the desired three-dimensional information are analyzed.