Testing tri-state and pass transistor circuit structures

Parikh, Shaishav Shailesh

01 November 2005

Tri-state structures are used to implement multiplexers and buses because these structures are faster than AND/OR logic structures. But testing of tri-state structures has some issues associated with it. A stuck open control line of a tri-state gate will cause some lines in the circuit to float and take unknown values. A stuck-on control line can cause fighting when the two drivers connected to the same node drive different values. This thesis develops new gate level fault models and dynamic test patterns that take care of these problems. The models can be used with traditional stuck-at and transition fault automatic test pattern generation (ATPG) to ensure high fault coverage. This research focuses on producing good test coverage with reduced effort for tristate and pass transistor structures. We do circuit level modeling to help develop and validate gate level models, which can be used in production ATPG. We study the two primary effects of interest, capacitive coupling and leakage, and analyze the tri-state structures using these two effects. Coupling and leakage can cause a Z or X state to be seen as 0 or 1 in some cases. We develop parameterized models of behavior of common structures using these effects and some parameters such as number of fan-ins. We also develop gate level models of tri-state circuits that would replace the tri-state library cells in the ATPG engine. This work develops a methodology to make tri-state and pass transistor circuit structures more usable in the industry.

Tri-state

Pass transistor

Salts in Tri-state mill waters: their ill-effect on the flotation of zinc and their removal

Howes, Warren Lincoln.

January 1930

Thesis (M.S.)--University of Missouri, School of Mines and Metallurgy, 1930. / The entire thesis text is included in file. Typescript. Title from title screen of thesis/dissertation PDF file (viewed February 10, 2010) Includes bibliographical references (p. 63-64).

Construction of a concentrating plant in the Waco area of the Tri-State District

Backer, William Henry,

January 1939

Thesis (Professional Degree)--University of Missouri, School of Mines and Metallurgy, 1939. / The entire thesis text is included in file. Typescript. Title from title screen of thesis/dissertation PDF file (viewed March 22, 2010)

A Driver Circuit for Body-Coupled Communication

Korishe, Abdulah

January 2013

The main concept of Body-Coupled Communication (BCC) is to transmit the electrical information through the human body as a communication medium by means of capacitive coupling. Nowadays the current research of wireless body area network are expanding more with the new ideas and topologies for better result in respect to the low power and area, security, reliability and sensitivity since it is first introduced by the Zimmerman in 1995. In contrast with the other existing wireless communication technology such as WiFi, Bluetooth and Zigbee, the BCC is going to increase the number of applications as well as solves the problem with the cell based communication system depending upon the frequency allocation. In addition, this promising technology has been standardized by a task group named IEEE 802.15.6 addressing a reliable and feasible system for low power in-body and on-body nodes that serves a variety of medical and non medical applications. The entire BAN project is divided into three major parts consisting of application layer, digital baseband and analog front end (AFE) transceiver. In the thesis work a strong driver circuit for BCC is implemented as an analog front end transmitter (Tx). The primary purpose of the study is to transmit a strong signal as the signal is attenuated by the body around 60 dB. The Driver circuit is cascaded of two single-stage inverter and an identical inverter with drain resistor. The entire driver circuit is designed with ST65 nm CMOS technology with 1.2 V supply operated at 10 MHz frequency, has a driving capability of 6 mA which is the basic requirement. The performance of the transmitter is compared with the other architecture by integrating different analysis such as corner analysis, noise analysis and eye diagram. The cycle to cycle jitter is 0.87% which is well below to the maximum point and the power supply rejection ratio (PSRR) is 65 dB indicates the good emission of supply noise. In addition, the transmitter does not require a filter to emit the noise because the body acts like a low pass filter. In conclusion the findings of the thesis work is quite healthy compared to the previous work. Finally, there is some point to improve for the driver circuit in respect to the power consumption, propagation delay and leakage power in the future.

Body-Coupled Communication (BCC)

Body Area Network (BAN)

Driver Circuit

Tri-state

Transmitter

Engineering practice in the Tri-State District

Stroup, Richard John.

January 1924

Thesis (Professional Degree)--University of Missouri, School of Mines and Metallurgy, 1924. / The entire thesis text is included in file. Typescript. Illustrated by author. Title from title screen of thesis/dissertation PDF file (viewed June 22, 2009)

Reopening an abandoned Tri-State Zinc Mine - Waco, Missouri

Long, Edgar Carroll,

January 1939

Thesis (Professional Degree)--University of Missouri, School of Mines and Metallurgy, 1939. / The entire thesis text is included in file. Typescript. Title from title screen of thesis/dissertation PDF file (viewed April 22, 2010)

Mechanistic understanding of biogeochemical transformations of trace elements in contaminated minewaste materials under reduced conditions

Karna, Ranju Rani

January 1900

Doctor of Philosophy / Department of Agronomy / Ganga M. Hettiarachchi / The milling and mining operations of metal ores are one of the major sources of heavy metal contamination at earth’s surface. Due to historic mining activities conducted in the Tri-State mining district, large area of land covered with mine waste, and soils enriched with lead (Pb), zinc (Zn) and cadmium (Cd) remain void of vegetation influencing ecosystem and human health. It has been hypothesized that if these minewaste materials are disposed of in the flooded subsidence pits; metals can be transformed into their sulfide forms under reduced conditions limiting their mobility, and toxicity. These mine waste materials are high in pH, low in organic carbon (OC) and sulfur (S). The objective of this study was to examine the effect of OC and S addition on the biogeochemical transformations of Pb, Zn and Cd in submerged mine waste containing microcosms. Advanced molecular spectroscopic and microbiological techniques were used to obtain a detail, mechanistic, and molecular scale understanding of the effect of natural and stimulated redox conditions on biogeochemical transformation and dynamics of Pb, Zn and Cd essential for designing effective remediation and mitigation strategies. The results obtained from these column studies indicated that Pb, Zn and Cd were effectively immobilized upon medium (119-day) and long-term (252-day) submergence regardless of treatment. The OC plus S treatment enhanced sulfide formation as supported by scanning electron microscopy- energy dispersive X-ray technique, and synchrotron based bulk-, and micro-X-ray fluorescence and absorption spectroscopy analyses. Microbial community structure changed with OC and S addition with the enhancement sulfur reducing bacteria genes (dsrA/B), and decreased metal resistance genes over time. The long-term submergence of existing mine tailings with OC plus S addition reduced trace metals mobility most likely through dissimilatory sulfate reduction under stimulated reduced conditions. Colloidal assisted metal transportation (<1% of both Pb and Cd) occurred during initial submergence. Retention filters are suggested to avoid colloidal metal transport in order to meet the maximum concentration limit for Pb and Cd in surface and groundwater. This research enhances our understanding of the redox processes associated with the sequestration of non-redox sensitive metals through dissimilatory reduction of sulfates in mine waste materials and/or waste water and provides regulators with useful scientific evidence for optimizing remediation goals.

Tri-State

Minewaste

Trace element

Transformation

Microarray

Sulfur reducing bacteria

Aerospace Engineering (0538)

Biogeochemistry (0425)

Environmental Sciences (0768)

Soil Sciences (0481)