Formulation, development, and characterization of magnetic pastes and epoxies for thick film inductors /

Kashani, Mohammad Mansour Riahi,

January 1992

Thesis (Ph. D.)--Virginia Polytechnic Institute and State University, 1992. / Vita. Abstract. Includes bibliographical references (leaves 230-242). Also available via the Internet.

Thick films. Thick-film circuits.

Coupled noise study of thick film circuits

Quilici, James Edwin, 1961-

January 1988

Methods of noise coupling in high speed thick film circuits has been investigated. Parasitic coupling parameters have been experimentally determined for a variety of single and multilayer thick film layouts. In addition, the severity of the problem has been studied by measuring coupled noise induced on carefully constructed test cards. Curves are presented as an aid for predicting noise levels as a function of conductor spacing and signal edge speed. The measurements are discussed quantitatively and guidelines for the design of high speed thick film circuits are summarized.

Thick-film circuits.

Crosstalk.

Hybrid integrated circuits.

A modular miniaturised chemical analysis system :

Sirait, Hiskia.

Unknown Date

Thesis (PhDElectronicEngineering)--University of South Australia, 2003.

Electronic measurements.

Thick-film circuits.

Thick films

The Role of residual stresses in ceramic substrate materials for hybrid thick film applications /

Schulz, Noel Nunnally,

January 1990

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1990. / Vita. Abstract. Includes bibliographical references (leaves 77-81). Also available via the Internet.

Reproduceability Parameters in Thick Film / Radiation Conversion Enhancement with Inhomogeneous Converters

Molson, L.

January 1974

<p> Thick-film resistors are being used in the hybrid microelectronics industry. One characteristic that has been considered for the thick film resistor i s the reproduceability in resistor value associated with the production techniques employed in the reproduceability in resistor value associated with the production techniques employed in the resistor manufactured. </p> <p> One parameter that has been associated with reproduceability is the yield figure; another parameter is the width of the resistance distribution for a given resistor production. These parameters can be used to identify the degree of reproduceability for the resistor production. A high yield figure or a small spread figure indicates a high degree of reproduceability. </p> <p> The effect of aspect ratio and sheet resistivity on the reproduceability has been evaluated for paste system A. Aspect ratios of 10, 5, 2 and 0.7 for a range of sheet resistivities (100, 1K, 10K, 100K, and 1M ohms per square) were investigated. Results show that for a given aspect ratio the amount of variation in spread for the range of sheet resistivities is negligible within the limits of error in the experiment. For a given sheet resistivity, the variation in spread for the range of aspect ratios is considerable. The spread of an aspect ratio of 10 is 25 ± 4%. For an aspect ratio of 0.7 the spread is 59± 7%. </p> <p> The effect of resistor location on spread for a 2" x 2" substrate has been studied. Results indicate that a higher degree of reproduceability can be associated with resistors located near the central (1" x 1") region of the substrate than the resistors located near the perimeter. </p> <p> The effect of increasing the resistor width on the reproduceability has been evaluated for resistors having aspect ratios near unity. Results show that as the resistor width is increased the spread in resistance decreases. For a width of 30 mil the spread in resistance is 37%. When the width is increased to 100 mil, the spread decreases to 21%. </p> / Thesis / Master of Engineering (MEngr)

radiation

conversion

Inhomogeneous Converters

Reproduceability

thick film

DIRECT DEPOSITION OF C-AXIS TEXTURED HIGH-TC YBCO SUPERCONDUCTING THICK FILMS UNORIENTED METALLIC SUBSTRATES

Wen, Xuejun

January 2000

No description available.

Superconductor

YBCO

thick film

Direct peritectic growth

Switchmode Power Supply Miniaturization with Emphasis on Integrated Passive Components on Prefired High Performance Ceramic Substrates

Hoagland, Richard W.

24 August 1999

This Dissertation is a study of Switched Mode Power Supply (SMPS) miniaturization and how to effectively use the available technologies to achieve the ultimate goal of a reduced size without loss of functionality while maintaining a cost effective design. This research investigates several methods used to obtain low loss, highly compact power supplies. Within these constraints, the Dissertation investigates the issues of design, materials, and cost in order to design and achieve these miniaturized power supplies. This research addresses high performance ceramic, passive component integration. Three key issues; electrical characterization, thermal analysis and simulation, and material characterization, are examined in this work. Thick film passive components (capacitors and resistors) on AlN have been developed. Also, guidelines for the design implementation and steps necessary to integrate these passive components on prefired alumina (Al2O3) and aluminum nitride (AlN) ceramic surfaces, for power electronic applications, have been generated. The use of aluminum nitride, as a high performance ceramic substrate and the resulting issues concerning compatible inks, have been investigated. Since a sizable amount of heat is generated by power electronic circuits, the integrated components are analyzed with respect to tolerance and degeneration over a range of temperatures and frequencies. Thick film capacitors on the order of 120pF/mm2 with breakdown voltage ratings of 250V have been developed on prefired AlN. Resistors were developed with impedances ranging from 10W to 10MegW. Thermal measurements, of these resistors, show that the thermal conductivity of the aluminum nitride with passivation layer is two to three times that of alumina. Several versions of a typical SMPS boost circuit have been generated using Direct Bond Copper (DBC) on ceramic, Insulated Metal Substrate (IMS), Printed Circuit Boards (PCB), and prefired ceramic thick film technology. The integrated passive components developed are applied on prefired ceramic versions and compared to the DBC, IMS and PCB versions. A small daughter board consisting of the boost circuit control is introduced to further supplement miniaturization and reduce cost. The daughter board uses thick film technology with integrated thick film resistors. The design of the mother board, which houses the power boost section,can be designedand implemented on virtually any type of substrate (PCB, DBC, IMS, or conventional thick film). The fabrication and testing of each version is reported in this work. / Ph. D.

PCB

Alumina

AlN

Thick Film

SMPS

DBC

A plastic-based thick-film li-ion microbattery for autonomous microsensors /

Lin, Qian,

January 2006

Thesis (Ph. D.)--Brigham Young University Dept. of Chemical Engineering, 2006. / Includes bibliographical references (p. 155-165).

Gravure-offset printing in the manufacture of ultra-fine-line thick-films for electronics

Pudas, M. (Marko)

27 March 2004

Abstract In gravure offset printing, ink is transferred with the help of an offset material from a patterned gravure plate to a substrate. This thesis is concerned with the study and further development of this printing process for electronics; on alumina, glass and polymers. The work has been divided into five parts. In the first section, the printing process is described. The second section describes the composition of the inks for gravure offset printing and the resulting ink properties. It also presents the ink transfer mechanism; the model that explains how the ink is transferred between an offset material and a substrate. The third chapter details the printing process explained by a solvent absorption mechanism. The forth chapter describes the firing/curing of printed samples and their properties. The last chapter describes applications of the method. The inks used to produce conductors on ceramics (ceramic inks) and conductors on polymers (polymer inks) contain silver particles, and were under development for gravure offset printing. The major achieved properties were the high ink pickup to the offset blanket and high transfer percentage to the substrate. 100% ink transfer from blanket to substrate for ceramic inks and almost 100% ink transfer for polymer inks was obtained. The printing of ceramic inks was able to produce 8 μm of relatively thick, 300 μm wide lines with &lt; 10 mΩ/sq. resistance. The minimum line width for conducting lines was 35 μm, with one printing. Multi printing was applied producing as many as 10 times wet-on-wet multiprinted lines with 100 % ink transfer from blanket to substrate resulting in a square resistance of 1mΩ/sq. Polymer inks were able produce a square resistance of 20 mΩ/sq. for 300 μm wide lines after curing at 140 °C for about 15 min, and the minimum width was down to 70 μm. In the optimised manufacturing process, the delay time on the blanket was reduced to 3 s. In addition to ultra-fine-line manufacturing of conductors, the method enables the manufacture of special structures e.g. laser-solder contact pads with 28/28 μm lines/spaces resolution. With industrial printing equipment it is possible to produce 100 m2/h with the demonstrated printing properties.

ceramic materials

conductive inks

gravure-offset

intaglio

printing

thick-film

Characterization and modeling of magnetic materials and structures

Al-Mazroo, Abdulhameed Yousef

January 1988

This dissertation presents methods for wideband characterization and modeling of magnetic materials and structures over a wide frequency range (dc to a few GHz). A method for modeling the thick film inductor structures at high frequencies is presented in this dissertation. The thick film inductor under test is printed and located in shunt connection at the end of a reference transmission line. Time Domain Reflectometry (TDR) technique is used to measure the response waveform from the inductor under test. The response from a short circuit at the location of the inductor is acquired as the reference waveform. The two acquired waveforms are then transformed into the frequency domain using the Fast Fourier Transform algorithm (FFT). The reflection coefficient is then computed as the ratio between the Fourier Transforms of the response and reference waveforms. From the information contained, the complex impedance of the structure under study can be calculated. This information is used for modeling that structure by fitting the data to the network model using the computer network analysis program. Experimental and simulated response waveforms are compared and brought to a close match by changing the model components values. A cavity-like sample holder filled with ferrite material ls proposed in this dissertation to measure the complex permeability of the magnetic material filling this cavity. The cavity walls are deposited on a coaxially shaped sample using thick film techniques. The reflection coefficient from the cavity under study is measured by adapting the cavity to the end of a transmission line. The full field analysis of this proposed configuration is used to determine a relationship between the complex permeability of the ferrite material and the measured reflection coefficient. The method of moments ls used to achieve this task. Computer simulation experiments are performed to test the sensitivity of the technique and to predict the performance over the desired frequency range. Actual experimentation as well as verifications of these measurements are conducted to verify the merit of the proposed technique. / Ph. D. / incomplete_metadata

LD5655.V856 1988.A4465

Magnetic materials

Thick-film circuits