@inproceedings{33812, keywords = {Tuning, Thin films, Electric fields, Ferroelectric materials, Barium compounds, Barium strontium titanate, Bandwidth, Bandpass filters, Insertion losses, Microstrip lines, Microwave filters, Microstrip filters, Microwave frequencies}, author = {G Subramanyam and F.W Van Keuls and F.A Miranda and C.L Canedy and S Aggarwal and T Venkatesan and Ramamoorthy Ramesh}, title = {Correlation of electric field and critical design parameters for ferroelectric tunable microwave filters}, abstract = {The correlation of electric field and critical design parameters such as the insertion loss, frequency tunability, return loss, and bandwidth of conductor/ferroelectric/dielectric microstrip tunable K-band microwave filters is discussed in this work. This work is based primarily on barium strontium titanate (BSTO) ferroelectric thin film based tunable microstrip filters for room temperature applications. Two new parameters which we believe will simplify the evaluation of ferroelectric thin films for tunable microwave filters, are defined. The first of these, called the sensitivity parameter, is defined as the incremental change in center frequency with incremental change in maximum applied electric field (EPEAK) in the filter. The other, the loss parameter, is defined as the incremental or decremental change in insertion loss of the filter with incremental change in maximum applied electric field. At room temperature, the Au/BSTO/LAO microstrip filters exhibited a sensitivity parameter value between 15 and 5 MHz/cm/kV. The loss parameter varied for different bias configurations used for electrically tuning the filter. The loss parameter varied from 0.05 to 0.01 dB/cm/kV at room temperature.}, year = {1999}, journal = {Integrated Ferroelectrics}, volume = {24}, number = {1}, pages = {273-285}, publisher = {Gordon & Breach Science Publ Inc, Newark}, issn = {10584587}, doi = {10.1080/10584589908215597}, note = {cited By 17}, language = {eng}, }