Two groups of sintered permanent magnets with reduced temperature coefficient of induction (TCI) are considered, i.e., (A ) (Nd0.64Dy0.36)16(Fe1 – xCox)77.5Cu0.1Ga0.3B6.1(x = 0.22 – 0.36) and (B) Nd0.64 – zDy0.36Hoz)16(Fe0.64Co0.36)77.5Cu0.1Ga0.3B6.1 ( z = 0.08 – 0.26). It is shown that substitution of 36% Fe by Co raises the Curie temperature of the magnets to 576°C and lowers the TCI to ∣ − 0.02 ∣ % /K in the range of 27 – 120°C. Substitution of Nd by Ho lowers the TCI additionally to zero at z = 0.17 and changes it to ∣ + 0.009 ∣ % /K at z = 0.26. The results of the study of the phase composition and of the microstructure of the magnets make it possible to explain the observed lowering of the coercivity under the alloying.