Reimann, TimmyTimmyReimannCapraro, BeateBeateCapraroBartsch, HeikeHeikeBartschTöpfer, JörgJörgTöpfer2022-03-062022-03-062021https://publica.fraunhofer.de/handle/publica/26458810.1111/ijac.13623We studied the sintering behavior and magnetic properties of Ni0.60&#8208;yCuyZn0.42Fe1.98O3.99 ferrites. The shrinkage is shifted toward lower temperature with increasing Cu content y. The addition of Bi2O3 sintering aid induces enhanced shrinkage at T < 900°C and dense ceramics are obtained after sintering at 900°C. Such ferrites exhibit a permeability of µ = 135&#8208;250 depending on the composition, sintering temperature and concentration of sintering additive. Ferrites with y = 0.20 show a high Curie temperature of Tc = 307°C. Multilayer inductors were fabricated and cofired at 900°C using ferrite tapes without and with 0.75 wt% Bi2O3. The compatibility of ferrite tapes with different metal pastes (Ag, AgPd, and Au) was evaluated. Ferrite tapes were also integrated between layers of low&#8208;k dielectric CT708 tapes and successfully cofired at 900°C. Preliminary tests indicate that the multilayer inductors can be operated up to temperatures of 250°C. This demonstrates that high&#8208;Tc Ni&#8208;Cu&#8208;Zn ferrites are promising magnetic materials for inductive components for high operating temperatures.enCofiringpermeabilitymultilayer inductorsFerrites620666666journal article