Stable Temperature Dielectrics of (Ba,Ca)(Ti,Zr)O₃‐BasedMLCCs with Non‐Core‐Shell Structure by Novel Sintering Approach

Abstract: In this study, the high stability temperature coefficient of capacitance (TCC) characteristics of (Ba,Ca)(Ti,Zr)O 3 -based multilayer ceramic capacitors (MLCCs) were investigated using a novel sintering approach that combines rapid heating and constrained sintering. The novel sintering approach is based on a sandwich structure that the constrained (Ba,Ca)(Ti,Zr)O 3 -based MLCCs are covered with BaTiO 3 as a constraining layer on both sides. An in-plane tensile stress resulting from the mismatch between the con… Show more

“…Even though the capacitance varies too much for class I capacitors, one can wonder about the temperature capacitance coefficient (TCC) for this simple metal-insulator-metal (MIM) capacitors, compared to multi-layers ceramics capacitors (MLCC). 38 The TCC of our library, defined as CðTÞÀC 0 C 0 Ã 100 ð%Þ, where C 0 is the room temperature capacitance and C(T) is the capacitance at a given temperature, is shown in Figure 7 as a function of temperature for different compositions corresponding to the ones in Figure 5. The different boxes in the figure correspond to the different requirements of the class II capacitors.…”

Tunability, dielectric, and piezoelectric properties of Ba(1−x)CaxTi(1−y)ZryO3 ferroelectric thin films

“…Even though the capacitance varies too much for class I capacitors, one can wonder about the temperature capacitance coefficient (TCC) for this simple metal-insulator-metal (MIM) capacitors, compared to multi-layers ceramics capacitors (MLCC). 38 The TCC of our library, defined as CðTÞÀC 0 C 0 Ã 100 ð%Þ, where C 0 is the room temperature capacitance and C(T) is the capacitance at a given temperature, is shown in Figure 7 as a function of temperature for different compositions corresponding to the ones in Figure 5. The different boxes in the figure correspond to the different requirements of the class II capacitors.…”

Tunability, dielectric, and piezoelectric properties of Ba(1−x)CaxTi(1−y)ZryO3 ferroelectric thin films

PLZT membranes via electrospinning by means of variable suspension of PLZT/PVC and thermal treatment

Influence of Lamination Press on Resistance Degradation of X5R Ultra-thin MLCCs