The water vapor line broadening γ and shift δ coefficients in the ν1+ν2, ν2+ν3, ν1+ν3, 2ν3, 2ν1, 2ν2+ν3, and ν1+2ν2 vibrational bands were obtained from the analysis of the H2O–He absorption spectra, recorded in the region from 5000 to 7500cm−1 with the spectral resolution of 0.01cm−1 using a Bruker IFS 125HR FTIR spectrometer. The vibrational bands 2ν3 and ν1+2ν2 were investigated for the first time. The calculations of γ and δ were performed in the framework of the semi-classical method. The rotational contributions as well as the contributions connected with the accidental resonances were taken into account in the used H2O–He interaction potential. The analytical representation of the broadening coefficients γ at planetary temperatures was introduced and discussed.