Of the niobate ceramics with the formula M2+Nb2 O6, several compounds (M2+ = Zn, Mg, Ca and Co) have Qf values (at f = 1-10 GHz) between 40 000 and 90 000 GHz, offering potential in dielectric resonator applications. However, their temperature coefficient of resonant frequency (τf) values are too high for commercial development, at between -50 and -90 ppm. This paper details the doping of these materials with dielectric ceramics having a large positive τf, in an attempt to reduce the overall τf to zero, whilst maintaining a high quality factor (Q). It was also found that doping increased the relative permitivity (εr) of the niobates. Several materials have been made with near-zero τf, such as 90% CoNb2O6/10% CaTiO3 (τf = + 2.0 ppm, εr = 25.2 and Qf = 21 700 GHz), and 94% CoNb2O6/6% TiO2 (τf = +4.4 ppm, εr = 29.6 and Qf = 20 300 GHz) © 2003 Elsevier Ltd. All rights reserved.
Temperature compensated niobate microwave ceramics with the columbite structure, M2+Nb2O6
Pullar R. C.
;
2003-01-01
Abstract
Of the niobate ceramics with the formula M2+Nb2 O6, several compounds (M2+ = Zn, Mg, Ca and Co) have Qf values (at f = 1-10 GHz) between 40 000 and 90 000 GHz, offering potential in dielectric resonator applications. However, their temperature coefficient of resonant frequency (τf) values are too high for commercial development, at between -50 and -90 ppm. This paper details the doping of these materials with dielectric ceramics having a large positive τf, in an attempt to reduce the overall τf to zero, whilst maintaining a high quality factor (Q). It was also found that doping increased the relative permitivity (εr) of the niobates. Several materials have been made with near-zero τf, such as 90% CoNb2O6/10% CaTiO3 (τf = + 2.0 ppm, εr = 25.2 and Qf = 21 700 GHz), and 94% CoNb2O6/6% TiO2 (τf = +4.4 ppm, εr = 29.6 and Qf = 20 300 GHz) © 2003 Elsevier Ltd. All rights reserved.File | Dimensione | Formato | |
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