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21 results on '"Emmanuel Nti"'

1. Direct Current to Digital Converter (DIDC): A Current Sensor

Author

Saeid Karimpour, Michael Sekyere, Isaac Bruce, Emmanuel Nti Darko, Degang Chen, Colin C. McAndrew, Doug Garrity, Xiankun Jin, Ilhan Hatirnaz, and Chen He

Subjects
reliability, measurement, ADC, DIDC, CMOS, VLSI, Chemical technology, TP1-1185
Abstract

This paper introduces a systematic approach to the design of Direct Current-to-Digital Converter (DIDC) specifically engineered to overcome the limitations of traditional current measurement methodologies in System-on-Chip (SoC) designs. The proposed DIDC addresses critical challenges such as high power consumption, large area requirements, and the need for intermediate analog signals. By incorporating a current mirror in a cascode topology and managing the current across multiple binary-sized branches with the Successive Approximation Register (SAR) logic, the design achieves precise current measurement. A simple comparator, coupled with an isolation circuit, ensures accurate and reliable sensing. Fabricated using the TSMC 180 nm process, the DIDC achieves 8-bit precision without the need for nonlinearity calibration, showcasing remarkable energy efficiency with an energy per conversion of 1.52 pJ, power consumption of 117 µW, and a compact area of 0.016 mm². This innovative approach not only reduces power consumption and area, but also provides a scalable and efficient solution for next-generation semiconductor technologies. The ability to conduct online measurements during both standard operations and in-field conditions significantly enhances the performance and reliability of SoCs, making this DIDC a promising advancement in the field.

Published
2024
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2. Polycultural Approaches for Centering Diversity as a Resource: The Case of Social Design-Based Experiments

Author

Emmanuel Nti-Asante

Abstract

The growing diverse nature of our STEM spaces has informed education experts to recommend use social-design-based experiments (SDBE) to design teaching-learning curriculum that frames these diversities as a resource. This call for SDBEs comes from identified challenges in existing approaches like funds of knowledge and identity. However, there is a need for a conceptual lens that educators will use to actualize this essential call in Mathematics Education. Given this, I use this proposal to explore existing approaches and their challenges to addressing diversity as a resource. I continue to develop a conceptual lens for teachers to follow in their operationalization of SDBE to design a teaching-learning curriculum that centers diversity as a resource. This conceptual lens comprises a five-phase participatory perspective and relationship to curriculum planning, designing, and enactment where teachers and students co-participate. [For the complete proceedings, see ED658295.]

Published
2023

11. Direct Current to Digital Converter (DIDC): A Current Sensor.

Author

Karimpour, Saeid, Sekyere, Michael, Bruce, Isaac, Darko, Emmanuel Nti, Chen, Degang, McAndrew, Colin C., Garrity, Doug, Jin, Xiankun, Hatirnaz, Ilhan, and He, Chen

Subjects
SEMICONDUCTOR technology, ENERGY consumption, ENERGY conversion, VERY large scale circuit integration, COMPARATOR circuits, SYSTEMS on a chip, SUCCESSIVE approximation analog-to-digital converters
Abstract

This paper introduces a systematic approach to the design of Direct Current-to-Digital Converter (DIDC) specifically engineered to overcome the limitations of traditional current measurement methodologies in System-on-Chip (SoC) designs. The proposed DIDC addresses critical challenges such as high power consumption, large area requirements, and the need for intermediate analog signals. By incorporating a current mirror in a cascode topology and managing the current across multiple binary-sized branches with the Successive Approximation Register (SAR) logic, the design achieves precise current measurement. A simple comparator, coupled with an isolation circuit, ensures accurate and reliable sensing. Fabricated using the TSMC 180 nm process, the DIDC achieves 8-bit precision without the need for nonlinearity calibration, showcasing remarkable energy efficiency with an energy per conversion of 1.52 pJ, power consumption of 117 µW, and a compact area of 0.016 mm². This innovative approach not only reduces power consumption and area, but also provides a scalable and efficient solution for next-generation semiconductor technologies. The ability to conduct online measurements during both standard operations and in-field conditions significantly enhances the performance and reliability of SoCs, making this DIDC a promising advancement in the field. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Hydrochemical analysis of groundwater using multivariate statistical methods — the Volta region, Ghana

Author

Bruce Banoeng-Yakubo, Sandow Mark Yidana, and Emmanuel Nti

Subjects
Hydrology, Salinity, Irrigation, Groundwater flow, Global meteoric water line, δ18O, Sodium adsorption ratio, Groundwater recharge, Groundwater, Geology, Civil and Structural Engineering
Abstract

Q and R-mode multivariate statistical analyses were applied to groundwater chemical data from boreholes and wells in the northern section of the Volta region Ghana. The objective was to determine the processes that affect the hydrochemistry and the variation of these processes in space among the three main geological terrains: the Buem formation, Voltaian System and the Togo series that underlie the area. The analyses revealed three zones in the groundwater flow system: recharge, intermediate and discharge regions. All three zones are clearly different with respect to all the major chemical parameters, with concentrations increasing from the perceived recharge areas through the intermediate regions to the discharge areas. R-mode HCA and factor analysis (using varimax rotation and Kaiser Criterion) were then applied to determine the significant sources of variation in the hydrochemistry. This study finds that groundwater hydrochemistry in the area is controlled by the weathering of silicate and carbonate minerals, as well as the chemistry of infiltrating precipitation. This study finds that the δD and δ18O data from the area fall along the Global Meteoric Water Line (GMWL). An equation of regression derived for the relationship between δD and δ18O bears very close semblance to the equation which describes the GMWL. On the basis of this, groundwater in the study area is probably meteoric and fresh. The apparently low salinities and sodicities of the groundwater seem to support this interpretation. The suitability of groundwater for domestic and irrigation purposes is related to its source, which determines its constitution. A plot of the sodium adsorption ratio (SAR) and salinity (EC) data on a semilog axis, suggests that groundwater serves good irrigation quality in the area. Sixty percent (60%), 20% and 20% of the 67 data points used in this study fall within the medium salinity — low sodicity (C2-S1), low salinity -low sodicity (C1-S1) and high salinity — low sodicity (C3-S1) fields, which ascribe good irrigation quality to groundwater from this area. Salinities range from 28.1 to 1956 μS/cm, whilst SAR values fall within the range 0–3. Extremely low sodicity waters of this kind, with salinities lower than 600 μS/cm, have the tendency to affect the dispersive properties of irrigation soils when used for irrigation. About 50% of the groundwater in the study area fall within this category and need prior treatment before usage.

Published
2009
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21. An evaluation of the genesis and suitability of groundwater for irrigation in the Volta Region, Ghana

Author

Sandow Mark Yidana, Emmanuel Nti, and Bruce Banoeng-Yakubo

Subjects
Hydrology, Irrigation, geography, geography.geographical_feature_category, Global meteoric water line, δ18O, General Engineering, Aquifer, Groundwater recharge, Earth and Planetary Sciences (miscellaneous), Meteoric water, Sodium adsorption ratio, General Earth and Planetary Sciences, Environmental Chemistry, Environmental science, Groundwater, General Environmental Science, Water Science and Technology
Abstract

Stable isotope data and concentrations of the major cations and anions of groundwater from the northern part of the Volta Region, Ghana, were used to determine the source of recharge and the suitability of groundwater in the area for irrigation. This study finds that the delta deuterium (δD) and delta Oxygen-18 (δ18O) data from the area fall along the global meteoric water line (GMWL). An equation of regression derived for the relationship between δD and δ18O bears very close semblance to the equation which describes the GMWL. On the basis of this, groundwater in the study area is probably meteoric and fresh. The apparently low salinities and sodicities of the groundwater seem to support this interpretation. The suitability of groundwater for domestic and irrigation purposes is related to its source, which determines its constitution. A plot of the sodium adsorption ratio (SAR) and electrical conductivity (EC) data on a semilog axis, suggests that groundwater serves good irrigation quality in the area. Sixty percent (60%), 20% and 20% of the 67 data points used in this study fall within the medium salinity–low sodicity (C2–S1), low salinity–low sodicity (C1–S1) and high salinity–low sodicity (C3–S1) fields, which ascribe good irrigation quality to groundwater from this area. Salinities range from 28.1 to 1,956 μS/cm, whilst SAR values fall within the range 0–3. Extremely low sodicity waters of this kind, with salinities lower than 600 μS/cm, have the tendency to affect the dispersive properties of irrigation soils when used for irrigation. About 50% of the groundwater in the study area fall within this category and need prior treatment before usage.

Published
2008
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