Add to ORKGThe Low Temperature Co-fired Ceramic technology (LTCC) represents a multilayer functional ceramic substrate, which due to its 3D-Integration feasibility ranks among the key technologies for future hybrid high frequency circuits. In particular the low sintering temperature of <900øC enables the application of high-conductive and low-loss metallization like silver or gold. Nevertheless, new low-sintering microwave ceramics with clearly higher dielectric constant (DK) are demanded for contemporary highly integrated HF circuits. Although many high-dielectric bulk ceramics are known for a long time, but appropriate methods must be developed for lowering the sintering temperatures and the adoption into the LTCC technology. Furthermore advanced no...
Precise knowledge of microwave properties of Low Temperature Co-fired Ceramic LTCC materials is cruc...
Dielectric materials with high dielectric constant contrast (68.7/6.37) are cofired inside low tempe...
[[abstract]]Interaction between Ba2Ti9O20 microwave dielectric ceramics and BaBSiO glass materials w...
[[abstract]]Ba–B–Si glass was added to Ba–Nd–Sm–Bi–Ti–O (BRT114) microwave dielectric material for L...
Rapid growth in the application of LTCC technology for RF wireless is clearly driven by the trend of...
Abstract The main objective of this thesis was to research the integration of novel materials and fa...
[[abstract]]Low temperature co-firable ceramics (LTCC) materials are desirable for the development o...
The competence of integrating circuits within LTCC materials is an added advantage to implement the ...
Investigation into the fabrication of dielectric materials suitable for low temperature co-fired cer...
Abstract This paper reports the first ultralow sintering temperature (450 °C) cofired multifunction...
[[abstract]]Interaction between the (Mg0.95Ca0.05)TiO3 (MCT) microwave dielectric materials and BaBS...
A dielectric bulk glass-ceramic of the La2O3–TiO2–SiO2–B2O3 system is developed which is able to ful...
Precise knowledge of microwave properties of Low Temperature Co-fired Ceramic LTCC materials is cruc...
Abstract The article presents the very first materials to the Ultra-Low Temperature Co-fired Cerami...
[[abstract]]©2003 Elsevier - Interaction between Ba2Ti9O20 microwave dielectric ceramics and BaBSiO ...
Precise knowledge of microwave properties of Low Temperature Co-fired Ceramic LTCC materials is cruc...
Dielectric materials with high dielectric constant contrast (68.7/6.37) are cofired inside low tempe...
[[abstract]]Interaction between Ba2Ti9O20 microwave dielectric ceramics and BaBSiO glass materials w...
[[abstract]]Ba–B–Si glass was added to Ba–Nd–Sm–Bi–Ti–O (BRT114) microwave dielectric material for L...
Rapid growth in the application of LTCC technology for RF wireless is clearly driven by the trend of...
Abstract The main objective of this thesis was to research the integration of novel materials and fa...
[[abstract]]Low temperature co-firable ceramics (LTCC) materials are desirable for the development o...
The competence of integrating circuits within LTCC materials is an added advantage to implement the ...
Investigation into the fabrication of dielectric materials suitable for low temperature co-fired cer...
Abstract This paper reports the first ultralow sintering temperature (450 °C) cofired multifunction...
[[abstract]]Interaction between the (Mg0.95Ca0.05)TiO3 (MCT) microwave dielectric materials and BaBS...
A dielectric bulk glass-ceramic of the La2O3–TiO2–SiO2–B2O3 system is developed which is able to ful...
Precise knowledge of microwave properties of Low Temperature Co-fired Ceramic LTCC materials is cruc...
Abstract The article presents the very first materials to the Ultra-Low Temperature Co-fired Cerami...
[[abstract]]©2003 Elsevier - Interaction between Ba2Ti9O20 microwave dielectric ceramics and BaBSiO ...
Precise knowledge of microwave properties of Low Temperature Co-fired Ceramic LTCC materials is cruc...
Dielectric materials with high dielectric constant contrast (68.7/6.37) are cofired inside low tempe...
[[abstract]]Interaction between Ba2Ti9O20 microwave dielectric ceramics and BaBSiO glass materials w...