The photocurrent (PC) spectroscopy of the GaAs/AlAs and GaAs/ AlGaAs superlattices (SLs) are studied by using a P-i-N photodiode structure in which the intrinsic regions are composed of SLs. The measurements were made at different temperatures ranging from 15K to 300K and with the application of transverse dc electric field. A sequence of exciton absorption peaks were observed and assigned according to the theoretical predictions based on the Kronig-Penney model calculations of sublevel energies in the coupled multiple quantum wells (MQWs). The SL structure parameters were checked by both the absolute peak positions and the heavy and light hole splittings. The quantum confined Stark effect of excitonic transitions in MQWs which is closely dependent on the barrier and well layer thicknesses was studied. The assignment of some forbidden transitions was proved by different ways. The PC spectroscopy was also measured by the excitation of linear polarized light in a side illumination mode.The anisotropic effect showed distinct features related to heavy and light holes, respectively. The photocurrent (PC) spectroscopy of the GaAs / AlAs and GaAs / AlGaAs superlattices (SLs) are studied by using a PiN photodiode structure in which the intrinsic regions are composed of SLs. The measurements were made at different temperatures ranging from 15K to 300K and with the application of transverse dc electric field. A sequence of exciton absorption peaks were observed and assigned according to the theoretical predictions based on the Kronig-Penney model calculations of sublevel energies in the coupled multiple quantum wells (MQWs). The SL structure parameters were checked by both the absolute peak positions and the heavy and light hole splittings. The quantum confined Stark effect of excitonic transitions in MQWs which is closely dependent on the barrier and well layer thicknesses was studied. The assignment of some forbidden transitions was proved by different ways The PC spectroscopy was also measured by the excitation of linear polarized light in a side illumination mode.T he anisotropic effect showed distinct features related to heavy and light holes, respectively.