Commercial cermet inserts were coated with TiN x , TiC x N y and (Ti,Si)N x by plasma-assisted chemical vapour deposition using a pulsed d.c. glow discharge. The influence of the coating parameters on the deposition rate, layer composition, layer-substrate interface, structure and microhardness of the layers was investigated within the deposition temperatures of 773-973 K. With optimized process parameters, layers with a low oxygen and chlorine impurity, high microhardness and a good adhesive strength are obtained. Higher microhardness values compared with that of TiN x were observed for TiC x N y and (Ti,Si)N x layers depending on the layer composition. Usually, the TiN x and also the TiC x N y and (Ti,Si)N x layers with low carbon and silicon contents have a columnar structure with a 200 texture. The structure changes with rising carbon and silicon concentrations. The edge life of the insert tips is markedly increased for cast iron and steel machining.