The influence of the impurity background on the recombination processes in type-II InAs∕GaSb superlattice photodiodes with a cutoff wavelength of approximately 4.8μm was investigated by electroluminescence measurements. Using an iterative fitting procedure based on the dependence of the quantum efficiency of the electroluminescence on the injection current, the Auger and Shockley-Read-Hall lifetimes were determined for photodiodes with background concentration below 1015cm−3. The authors determined in which range of the injection current Shockley-Read-Hall or Auger recombination is predominant. At T=300K, the findings indicate that in high quality material with a low background concentration Auger effect becomes the prevalent mechanism even at low applied current.