Engineering Commons^™

Radiation-Induced Effects In Chalcogenide-Based Memory Devices And Films, Kasandra Wolf

Boise State University Theses and Dissertations

Continued scaling of memory devices has produced many issues for the current foremost non-volatile memory—the flash memory—leading to the emergence of a wide variety of alternative memory solutions. Redox Conductive Bridge Memory (RCBM) is one such solution that has shown great promise in recent years. However, the performance of these devices under radiation conditions has not been explored in detail. This work investigates the effects of x-rays and electron bombardment on chalcogenide glasses and RCBM devices based on these materials.

RCBM devices are a form of Resistance Change Memory, which rely on two distinct resistive states to represent the binary …

Nano-Ionic Redox Resistive Ram – Device Performance Enhancement Through Materials Engineering, Characterization And Electrical Testing, Muhammad Rizwan Latif

Boise State University Theses and Dissertations

In recent years, Redox Conductive Bridge Memory (RCBM), which falls in the Resistive Random Access Memory (RRAM) category, has gained considerable attention as one of the promising candidates for future generation non-volatile memory due to its advantages over Flash memory as it offers high density, low operating power, fast read/write operation, and compatibility with conventional CMOS process. Currently research is being conducted to improve the reliability of the RCBM devices, which are comprised of an insulating material, also known as active layer, sandwiched between two metal electrodes. The main working mechanism of these devices is based on the resistance change …

Nano-Ionic Radiation Sensor: Materials Engineering, Device Design, And Testing, Mahesh Satyanarayana Ailavajhala

Boise State University Theses and Dissertations

For decades, various radiation-detecting materials have been extensively researched, to find a better material or mechanism. Recently, there has been a growing need for smaller, and more effective materials or devices that are Integrated Circuits (IC) compatible, and can perform similar functions as bulkier Geiger counters, and other measurement options, which fail the requirement for easy, cheap, and accurate radiation dose measurements. Here arises the use of thin films of chalcogenide glasses, which have unique properties of high thermal stability along with high sensitivity towards short wavelength radiation.

In this work, the effect of γ-rays, generated from a ⁶⁰Co …

On Uniformly Most Powerful Decentralized Detection, Uri Rogers

Boise State University Theses and Dissertations

The theory behind Uniformly Most Powerful (UMP) composite binary hypothesis testing is mature and well defined in centralized detection where all observations are directly accessible at one central node. However, within the area of decentralized detection, UMP tests have not been researched, even though tests of this nature have properties that are highly desirable. The purpose of this research is to extend the UMP concept into decentralized detection, which we define as UMP decentralized detection (UMP-DD). First, the standard parallel decentralized detection model with conditionally independent observations will be explored. This section will introduce theorems and corollaries that define when …

Simulation Of A Magnetron Using Discrete Modulated Current Sources, Sulmer A. Fernández Gutierrez

Boise State University Theses and Dissertations

Magnetrons are microwave oscillators and are extensively used for commercial and military applications requiring power levels from the kilowatt to the megawatt range. It has been proposed that the use of gated field emitters with a faceted cathode in place of the conventional thermionic cathode could be used to control the current injection in a magnetron, both temporally and spatially. In this research, this concept is studied using the 2-D particle trajectory simulation Lorentz2E and the 3-D particle-in-cell (PIC) code VORPAL. The magnetron studied is a ten cavity, rising sun magnetron, which can be modeled easily using a 2-D simulation. …

High-Speed Delta-Sigma Data Converters For Next-Generation Wireless Communication, Sakkarapani Balagopal

Boise State University Theses and Dissertations

In recent years, Continuous-time Delta-Sigma(CT-ΔΣ) analog-to-digital converters (ADCs) have been extensively investigated for their use in wireless receivers to achieve conversion bandwidths greater than 15 MHz and higher resolution of 10 to 14 bits. This dissertation investigates the current state-of-the-art high-speed single-bit and multi-bit Continuous-time Delta-Sigma modulator (CT-ΔΣM) designs and their limitations due to circuit non-idealities in achieving the performance required for next-generation wireless standards. Also, we presented complete architectural and circuit details of a high-speed single-bit and multi-bit CT-ΔΣM operating at a sampling rate of 1.25 GSps and 640 MSps respectively (the highest reported sampling rate in a 0.13 …

Seeking Cleaner Air - Accessible Air Quality Monitoring And Event Diagnosis, James Allen Hall Jr.

Boise State University Theses and Dissertations

Airborne particulate matter has been shown to be associated with morbidity and mortality, and can have a detrimental impact on sensitive materials and processes. Understanding the levels and movements of particulate matter in an enclosed space can lead to a reduction in the negative consequences of poor air quality. A system of environmental sensors including particulate matter, selected gases, and other atmospheric factors can be used to provide a real-time assessment of air quality. This assessment can be used to assist in the diagnosis of the source of particulate matter. This dissertation describes the creation of a framework for the …

Dynamic Rating Of Transmission Lines For Improved Wind Energy Integration In Complex Terrain, Tyler Bennett Phillips

Boise State University Theses and Dissertations

Transmission congestion is a growing concern that could limit integration on new renewable energy projects to the electricity grid. Because construction of new transmission lines is a long and expensive process, transmission service providers are investigating dynamic line rating (DLR) mehtods that could potentially increase capacity of existing transmission lines. DLR is a smart-grid technology that enables rating of power lines based on real-time conductor temperature that is dependent on local weather conditions. whereas conventional practice relies on a static rating, which is based on conservative local weather assumptions to limit transmission line sag.

With todays improved wind and weather …

A Reliability Prediction Method For Phase-Change Devices Using Optimized Pulse Conditions, Martin Jared Barclay

Boise State University Theses and Dissertations

Owing to the outstanding device characteristics of Phase-Change Random Access Memory (PCRAM) such as high scalability, high speed, good cycling endurance, and compatibility with conventional complementary metal-oxide-semiconductor (CMOS) processes, PCRAM has reached the point of volume production. However, due to the temperature dependent nature of the phase-change memory device material and the high electrical and thermal stresses applied during the programming operation, the standard methods of high-temperature (Temperature > 125 °C) accelerated retention testing may not be able to accurately predict bit sensing failures or determine slight pulse condition changes needed if the device were to be …