Reimann, TimmyTimmyReimannBarth, StefanStefanBarthCapraro, BeateBeateCapraroBartsch, HeikeHeikeBartschTöpfer, JörgJörgTöpfer2022-03-062022-03-062021https://publica.fraunhofer.de/handle/publica/26814710.1016/j.ceramint.2021.06.2132-s2.0-85108947951We have studied the integration of Ni-Co-Zn-Mn spinel NTC thermistor layers into LTCC multilayer modules. Sintering of the cubic spinel Ni0.5Co0.5Zn0.75Mn1.25O4 with addition of 3 wt% Bi2O3 additive at 900 °C resulted in samples with 96% density and with good electrical performance. Thermistor spinel tapes, fabricated using doctor blade tape casting, were stacked with layers of a commercially available low-k dielectric LTCC tape, and cofired at 900 °C. Free or constrained cofiring did not give crack-free multilayer samples. Thermistor layers were then integrated combining the commercial LTCC tape with a Zn titanate-based tape in one multilayer laminate, and error-free multilayer samples with a room-temperature resistivity of r298 = (2,9 ± 0.08) kOcm and a thermistor constant of B = (4280 ± 200) K were obtained. This demonstrates the possibility of cofiring of functional ceramic and low-k LTCC tapes and shows the potential of NTC spinel thermistor layers as temperature sensors integrated in complex LTCC multilayer architectures.enthermistorslow temperature cofired ceramicsspinelsLTCC modulesthick filmsembedded passives620666journal article