6-EEE Modificado Final EEE-1 DELHI UNIVERSIDAD TECNOLÓGICA ESQUEMA DE EXAMEN Y CURSO CURRICULUM B. Tech. (ELECTRICAL ELECTRONICS ENGINEERING) CONTENIDO Esquema de Examen. 2-7 Currículo del curso Primer año. 7-13 Segundo año. 13-19 Tercer año. 19-25 Cuarto Año. 25-46 ESQUEMA EEE-2 PARA B. TECH. PRIMER SEMESTRE (INGENIERIA FISICA) S. No. Curso Nº Materia Evaluación LTP Total Marcas Crédito Tipo Asse MS ES TH1 AM 101 Matemática-I 310 10 20 70 100 4H TH2 HU 102 Habilidades de Comunicación 210 10 20 70 100 3H TH3 AP 103 Física Aplicada-I 310 10 20 70 100 4H TH4 AC 104 Química Aplicada 310 10 20 70 100 4H TH5 EE 105 Ciencias Eléctricas 310 10 20 70 100 4C TH6 IT 106 Fundamentos de Tecnología de la Información 210 10 20 70 100 3A PR1 AP117 Laboratorio de Física Aplicada II 002 30 70 100 2H PR2 AC 108 Aplicado Laboratorio de Química 002 30 70 100 2H PR3 EE 109 Laboratorio de Ciencias Eléctricas 002 30 70 100 2C PR4 IT 110 Laboratorio de Tecnología de la Información 002 30 70 100 2A TOTAL 30 h 1000 30 L: Conferencia T: Tutorial P: Semestre ES: Semestre de finalización SCHEME FOR B. TECH. SEGUNDO SEMESTRE (INGENIERIA FISICA) S. No. Curso Nº Materia Evaluación LTP Total Marcas Crédito Tipo Asse MS ES TH1 AM 111 Matemática-II 310 10 20 70 100 4H TH2 EN 112 Ciencias Ambientales 200 10 20 70 100 2A TH3 AP 113 Física Aplicada II 310 10 20 70 100 4H TH4 AP / AC 114 Materiales de Ingeniería 400 10 20 70 100 4H TH5 ME 115 Ingeniería Mecánica Básica 310 10 20 70 100 4A TH6 COE 116 Fundamentos de Programación 200 10 20 70 100 2A PR1 AP 117 Laboratorio de Física Aplicada II 002 30 70 100 2A PR2 COE 118 Laboratorio de programación 002 30 70 100 2A PR3 ME 119 Gráficos de ingeniería 003 30 70 100 3A PR4 PE 120 Taller mecánico 003 30 70 100 3A TOTAL 30 h 1000 30 A Allied Engineering C Núcleo (incluye proyecto principal y formación práctica) H Humanidades, Estudios Sociales y Ciencias Básicas M Obligatorio EEE-3 ESQUEMA SUGERIDO PARA B. Tech. TERCER SEMESTRE (Ingeniería Eléctrica y Electrónica) S. No. Curso Nº Materia Evaluación LTP Total Marcas Crédito Tipo Asse MS ES TH1 EL 201 Dispositivos electrónicos y circuitos 310 10 20 70 100 4C TH2 EL202 Máquinas eléctricas-1 310 10 20 70 100 4C TH3 EL 203 Análisis y síntesis de redes 310 10 20 70 100 4C TH4 EL 204 Sistemas de alimentación I 310 10 20 70 100 4C TH5 EL 205 Medición eléctrica y electrónica 310 10 20 70 100 4C TH6 EL 206 Economía de la ingeniería 300 10 20 70 100 3H PR1 EL 207 Laboratorio de dispositivos y circuitos electrónicos. 002 30 70 100 2C PR2 EL 208 Laboratorio de Medidas Eléctricas y Electrónicas 002 30 70 100 2C PR3 EL 209 Máquinas Eléctricas-1 lab 002 30 70 100 2C PR4 EL 210 Plástico I 001 - - - 100 1C TOTAL 30 hrs 1000 30 Temas marcados Con asterisco () son comunes con EE No habrá ningún examen final del semestre en el papel del término. Se evaluará sobre la base de la presentación y la evaluación continua para la que se asignará una ranura separada en el calendario. ESQUEMA SUGERIDO PARA B. Tech. CUARTO SEMESTRE (Ingeniería Eléctrica y Electrónica) S. No. Curso Nº Materia Evaluación LTP Total Marcas Crédito Tipo Asse MS ES TH1 EL211 Circuitos integrados lineales 310 10 20 70 100 4C TH2 EL212 Sistemas de comunicación-I 310 10 20 70 100 4A TH3 EL213 Circuito digital y sistemas 310 10 20 70 100 4C TH4 EL 214 Sistemas de potencia - II 310 10 20 70 100 4C TH5 EL215 Máquinas eléctricas-II 310 10 20 70 100 4C TH6 EL216 Teoría de campos electromagnéticos 300 10 20 70 100 3C PR1 EL 217 Laboratorio de circuitos integrados lineales 002 30 70 100 2C PR2 EL 218 Alimentación Laboratorio de Sistemas 002 30 70 100 2C PR3 EL219 Máquinas Eléctricas-II lab 002 30 70 100 2C PR4 EL221 Papel a Término II 001 100 1C Papel a Término I 30 hrs 1000 30 No habrá examen semestral en papel a término. Se evaluará sobre la base de la presentación y la evaluación continua para la que se asignará una ranura separada en el calendario. A Ingeniería de Allied C Core (incluir el proyecto principal y la formación práctica también) H Humanidades, Ciencias Sociales y Ciencias Básicas M Obligatorio EEE-4 SCHEME FOR B. Tech. QUINTO SEMESTRE (Ingeniería Eléctrica y Electrónica) S. No. Curso Nº Materia Evaluación LTP Marcas totales Crédito Tipo Asse MS ES TH1 EL301 Electrónica de potencia 310 10 20 70 100 4C TH2 EL302 Sistemas de control-I 310 10 20 70 100 4C TH3 EL303 Redes de datos y comunicaciones 310 10 20 70 100 4A TH4 EL304 Procesamiento de Señal Digital 310 10 20 70 100 4C TH5 Microprocesador y Aplicaciones EL 305 310 10 20 70 100 4C PR1 EL306 Sistemas de Control Laboratorio 002 20 70 100 2C PR2 EL307 Laboratorio de Electrónica y Microprocesador Digital 002 30 70 100 2C PR3 EL308 Laboratorio de Comunicación 002 30 70 100 2A PR4 EL309 Proyecto menor-I 60 140 200 4M TOTAL 26 hrs 1000 30 Nota: Habrá un Entrenamiento Industrial de 4 semanas al final del V semestre, durante las vacaciones de invierno, que será evaluado con VI examen semestral. ESQUEMA DE B. Tech. SEXTO SEMESTRE (Ingeniería Eléctrica y Electrónica) S. No. Curso Nº Materia Evaluación LTP Total Marcas Crédito Tipo Asse MS ES TH1 EL311 Unidades Eléctricas 310 10 20 70 100 4C TH2 EL312 Máquinas Eléctricas-III 310 10 20 70 100 4C TH3 EL 313 Microcontrolador y Sistema Embebido 310 10 20 70 100 4C TH4 EL 314 Sistemas de Comunicación - II 310 10 20 70 100 4A TH5 EL 315 Arquitectura de Computadores 310 10 20 70 100 4A PR1 EL316 Electrónica de Potencia y Drives lab 002 30 70 100 2C PR2 EL317 Máquina Eléctrica III / Laboratorio de Procesamiento de Señales Digitales 002 30 70 100 2C PR3 EL 318 Proyecto secundario II 002 60 140 200 4M PR4 EL 319 Entrenamiento Industrial 30 70 100 2M TOTAL 26 hrs 1000 30 Entrenamiento industrial de seis semanas en vacaciones de verano al final del VI semestre, que será evaluado con VII sem. Humanidades, Ciencias Sociales y Ciencias Básicas M Nota Obligatoria: Entrenamiento industrial de 4 semanas durante las vacaciones de invierno después del 5º Semestre y 8 Semanas durante las vacaciones de verano después del 6º Semestre. Esquema EEE-5 para B. Tech. SEPTIMO SEMESTRE (Ingeniería Eléctrica y Electrónica) S. No. Curso Nº Materia Evaluación LTP Total Marcas Crédito Tipo Asse MS ES TH1 EL401 Sistemas de control II 310 10 20 70 100 4C TH2 EL402 Sistemas de energía no convencionales 310 10 20 70 100 4C TH3 EL 403X Electivo I 310 10 20 70 100 4C TH4 EL404X Abierto Electivo I 310 10 20 70 100 4C PR1 Microcontrolador EL 405 y Sistema Embebido Lab 003 10 20 70 100 3C PR2 EL406 Electivo-I Laboratorio 003 30 70 100 3C PR3 EL407 Entrenamiento Industrial (Viva Voce) - 30 70 100 4M PR4 EL408 Proyecto Principal 002 90 210 300 4M (Parte I) 24 h 1000 30 ESQUEMA DE B. Tech. OCTAVO SEMESTRE (Ingeniería Eléctrica y Electrónica) S. No. Curso Nº Materia Evaluación LTP Total Marcas Crédito Tipo Asse MS ES TH1 EL 411 Utilización de Energía Eléctrica 3 1 0 10 20 70 100 4C TH2 EL412 Electiva II 3 1 0 10 20 70 100 4C TH3 EL413 Optativa Abierta II 3 1 0 10 20 70 100 4C PR1 EL414 Utilización del Laboratorio de Energía Eléctrica 0 0 3 30 70 100 3C PR2 EL415 Electiva-II Laboratorio 0 0 3 30 70 100 3C PR3 EL 416 Proyecto Principal (Parte II) 0 0 4 120 280 400 10M PR4 EL417 Seminario / Informe 0 0 2 100 100 2C TOTAL 24 hrs 1000 30 EEE-6 Electiva-I Electiva abierta I EL 403-1 Sistemas de Transmisión de CA Flexibles EL404-1 Sistemas de Automoción EL 403-2 SCADA y Sistemas de Gestión de Energía EL 404-2 Instrumentación Inteligente EL 403-3 Ingeniería de Microondas EL 404-3 Diseño de Circuito Analógico Avanzado EL 403-4 Sistemas de transmisión HVDC El 404-4 Sistema de Energía Reestructurado EL 403-5 Sistema de Energía Dinámica y Estabilidad EL 404-5 Derechos de Propiedad Intelectual y Emprendimiento EL 403-6 Diseño de Sistemas de Aparatos Eléctricos EL-404-6 Instrumentación Biomédica EL 403-7 Sistema de Control de Procesos EL 404-7 Sistema de Control Avanzado EL 403-8 Robótica y Mecatrónica EL 404-8 Instrumentación Electiva-II Open Electiva II EL 412-1 Generación Distribuida Sistema EL 413-1 Sistema de gestión de bases de datos EL 412-2 Fuente de alimentación de modo conmutado EL 413-2 Diseño del sistema operativo EL 412-3 Calidad de energía y conservación de energía EL 413-3 Ingeniería nuclear y sistema de impulsos EL 412-4 Funcionamiento del sistema de potencia y Control EL 413-4 Redes pasivas activas Síntesis EL 412-5 Smart Grid EL 413-5 Control informático de procesos EL 412-6 Control no lineal y adaptativo EL 413-6 Ingeniería de plantas eléctricas EL 412-7 Planificación de sistemas eléctricos EL 413-7 Inteligencia Artificial y Sistemas Expertos EL 412-8 Procesamiento Digital de Imágenes EL 413-8 Diseño de Sistemas Digitales EL 412-9 Sistemas de Almacenamiento Eléctricos EL 413-9 Diseño de Filtros EL 412-10 Circuito Integrado de Microondas EL 413-10 VLSI Design EL 413-11 Antena Y Propagación de Onda Asignaturas con asterisco () son comunes con EE A Ingeniería Aliada C Core (incluye proyecto principal y capacitación práctica también) H Humanidades, Ciencias Sociales y Ciencias Básicas M Nota Obligatoria: Entrenamiento industrial de 4 semanas durante las vacaciones de invierno después del 7º Semestre Y 8 semanas durante las vacaciones de verano después del 8º semestre. Ensayo de convergencia de series (comparación, relación, raíz, integral, Raabes, logarítmico), series alternas, convergencia absoluta, convergencia condicional. UNIDAD II Cálculo de una sola variable: Taylors Maclaurins expansión, radio de curvatura, aplicaciones de la integral definida al área, longitud del arco, superficie y volumen (en coordenadas cartesianas, paramétricas y polares). UNIDAD III Cálculo de varias variables: Diferenciación parcial, Teorema de Eulers, Diferencial total, Teorema de Taylors, Maxima-mínimos, Método de multiplicadores de Lagranges, Aplicación en la estimación de error y aproximación. UNIDAD IV Integrales Múltiples: integral doble (coordenadas cartesianas y polares), cambio de orden de integración, integrales triples (coordenadas cartesianas, cilíndricas y esféricas), funciones Gamma y Beta. Aplicaciones de integración múltiple en área, volumen, centro de masa y momento de inercia. UNIDAD V Cálculo vectorial: continuidad y diferenciación de funciones vectoriales, función escalar y punto vectorial, gradiente, derivada direccional, divergencia, rizo y sus aplicaciones. Integral de línea, integral de superficie y integral de volumen, aplicaciones al trabajo realizado por la fuerza. Aplicaciones de los teoremas de divergencia de Greens, Stokes y Gauss. Libros de Texto / Libros de Referencia: 1. Matemáticas de Ingeniería Avanzada por Alan Jeffery Academic Press 2. Cálculo y Geometría Analítica por Thomas / Finney Narosa. 3. Matemáticas de Ingeniería Avanzada por Kreyszig Wiley. 4. Matemáticas de Ingeniería Avanzada por Taneja I K internacional 5. Matemáticas de Ingeniería Avanzada por Jain / Iyenger Narosa. HU-102 Habilidades de Comunicación L T P Créditos 2 1 0 3 UNIDAD I Inglés funcional: (A) Partes del discurso Tenso y concordia Cláusulas condicionales Etiquetas de pregunta respuestas cortas Puntuacion Errores comunes. (B) Vocabulario y Uso: Sinónimos Antónimos Una palabra sustituciones Palabras frecuentemente confundidas Idioms / Idiomatic expressions. UNIDAD II Conceptos básicos de la escritura: (A) Presentación de la información técnica: Descripción técnica de objetos simples, herramientas, aparatos Procesos y operaciones Principios científicos Definiciones Interpretación de datos visuales (gráficos, gráficos, etc) Y haciendo notas. (C) Comprensión de pasajes invisibles basados en ejercicios de lectura como Skimming, Escaneo e Inferencia haciendo. UNIDAD III Comunicación Oral: Fonética: Sonidos de la Lengua y su articulación Fonemas, sílaba, Estrés, Transcripción de Palabras y Oraciones Simples Presentación y Seminario Laboratorio de Lenguas Prácticas de Comunicación Oral. UNIDAD IV Textos para Apreciación y Análisis: (A) Alas de Fuego por APJ Abdul Kalam (B) La Fortuna en el Fondo de la Pirámide por C. K. Prahalad. (C) El marcado (Uchalya) por Laxman Gaikwad (D) Geetanjali por Ravindranath Tagore. Libros de texto / libros de referencia: 1. Day, Robert A. Scientific English: Una guía para científicos y otros profesionales. ARRIBA. 2. Maison Margaret, Examine su Inglés, Nueva Delhi: Orient Longman. 3. Tikoo M. L. A. E. Subramaniam y P. R. Subramaniam. Uso y composición de la gramática intermedia. Delhi: Orient Longman. 4. Weiss, Edmond H. Remedios de la escritura: Ejercicios prácticos para la escritura técnica. Prensa Universitaria. 5. Lesikar y Flatley. Comunicaciones de negocios. Nueva Delhi, Biztantra Press. 6. OConnor, Mejor pronunciación inglesa, Cambridge: Cambridge University Press. 7. Gaikwad, Laxman, La Marca, Delhi: Sahitya Akademi. 8. Kalam, APJ Abdul, Alas del Fuego, Delhi: University Press. 9. C. K. Prahalad, la fortuna en el fondo de la pirámide, publicación de la escuela de Wharton. 10. Rabindranath Tagore, Gitanjali, Filiquian Publishing, LLC. AP 103 Física Aplicada - I L T P Créditos 3 1 0 4 UNIDAD I Relatividad. Revisión de conceptos de marcos de referencia y ecuación de transformación galileana, experimento de Michelson Morley y sus implicaciones, teoría especial de Einstein de la relatividad, ecuaciones de transformación de Lorentz, ley de adición de velocidades, variación de masa con velocidad, concepto de energía y momento, relación de energía de masas. EEE-8 UNIDAD II Oscilaciones, ondas. Oscilaciones amortiguadas y forzadas, Resonancia (amplitud y potencia), Factor Q, Nitidez de la resonancia. Ecuaciones de ondas longitudinales y transversales y sus soluciones, Impedancia, Reflexión y transmisión de ondas en un límite, Comparación de impedancia entre dos medios. UNIDAD III Óptica física: Interferencia por división del frente de onda y amplitud, interferencia de haz múltiple y interferómetro de Fabry-Perot, difracción de Fresnel a través de un borde recto, difracción de Fraunhoffer, placa de zona, ranura simple y N-ranura / rejilla, Prisma y rejilla. Polarización por reflexión y por transmisión, ley de Brewsters, doble refracción, luz polarizada elípticamente y circularmente, prisma de Nicol, placas de cuarto y media onda. UNIDAD IV Instrumentos ópticos: Puntos cardinales de sistemas de lentes coaxiales, aberraciones esféricas y cromáticas y su eliminación, ocular Huygens y Ramsdens. UNIDAD V Óptica láser: Coherencia y propiedades coherentes de los rayos láser, Principio de funcionamiento breve de los láseres, Emisión espontánea y estimulada, Coeficiente Einsteins, Láser rubí, Láser He - Ne. UNIDAD VI Fibra óptica: Clasificación de las fibras ópticas, Perfil de índice de refracción, Diferencia del índice de refracción del revestimiento del núcleo, Abertura numérica de la fibra óptica, Dispersión de impulsos en fibra óptica (teoría de rayos). Libros de Texto / Libros de Referencia: 1. Física de Vibraciones y Ondas de H. J. Pain. 2. Vibraciones y Ondas por A. P. Francés. 3. Perspectiva de la física moderna por Arthur Beiser. 4. Óptica de A. Ghatak. 5. Curso de Física de Berkley Vol. 1. AC-104 Química Aplicada L T P Créditos 3 1 0 4 UNIDAD I (a) Análisis Convencional: Análisis Volumétrico, Tipos de titulaciones, Teoría de indicadores. (B) Análisis espectral: radiación electromagnética, ley Lambert-Beers, UV-VIS, IR, aplicaciones de instrumentación. TEMA II Métodos Térmicos de Análisis: Principio, trabajo y aplicaciones de la Termo-gravimetría, Análisis térmico diferencial y Calorimetría diferencial de barrido. UNIDAD III (a) Polímeros: Polímero monómero, funcionalidad y grado de polimerización. Mecanismo de polimerización. Pesos moleculares de polímeros. Métodos de polimerización. Producción industrial de resinas PE y PF. Aplicaciones industriales de polímeros. B) Bio-moléculas: Clasificación, estructura, propiedades físicas y químicas de aminoácidos, péptidos y proteínas, carbohidratos, celulosa y sus derivados, ARN, ADN. Introducción a los polímeros biodegradables. UNIDAD IV Electroquímica. Células electroquímicas, componentes, características de las baterías. Sistemas de batería primaria y secundaria, células de zinc-carbón, almacenamiento de plomo y baterías de litio. Células de combustible, Electro-deposición, Requisitos eléctricos y químicos. Baño de galvanoplastia y revestimientos. Agitación, Circulación y equipos de filtración. Chapado de cobre, oro y rodio. UNIDAD V Fase Equilibrio: Definiciones de Fase, componente y grado de libertad, regla de fase de Gibbs. Sistemas de un componente: Agua y azufre. Sistemas de dos componentes: sistema Pb-Ag y Cu-Ni. Univ VI Química Verde: Introducción, Metas Importancia de la Química Verde. Reactivos, disolventes y catalizadores para la síntesis verde. Principios de Química Verde, Evaluación de materias primas, tipos de reacción y métodos. Tendencias futuras en Química Verde. Libros de Texto / Libros de Referencia: 1. Análisis Térmico por T. Hatakeyama, F. X. Quinn Wiley. 2. Análisis cuantitativo inorgánico por A. I. Vogel. 3. Método instrumental de análisis de Skoog D. A. HRW Internacional. 4. Química Verde: Teoría Práctica por P. T. Anastas JC Warner Oxford Univ Press. 5. Polímero Ciencia y Tecnología por Billmeyer John Wiley. 6. Polímero Ciencia y Tecnología por Fried Prentice Hall. EE 105 Ciencias Eléctricas L T P Créditos 3 1 0 4 UNIDAD I Introducción: Papel e importancia de los circuitos en Ingeniería, concepto de campos, carga, corriente, voltaje, energía e interrelación. Características V-I de la tensión ideal y fuentes de corriente ideales, diversos tipos de fuentes controladas. Componentes de los circuitos pasivos: características V-I y clasificación de diferentes tipos de elementos R, L, C. Circuitos en serie y en paralelo, energía y energía, leyes Kirchoffs. Conversión Delta-estrella, Teorema de Superposición, Teorema de Thevenins, Teorema de Nortons, Teorema de Transferencia de Potencia Máxima, Teorema de Tellgen. EEE-9 UNIT II Circuitos monofásicos CA: Generación monofásica de EMF, valores medios y efectivos de sinusoides, representación compleja de impedancia, circuitos en serie y paralelos, concepto de fasor, diagrama fasorial, factor de potencia, potencia en notación compleja, potencia real, Potencia reactiva y potencia aparente. Resonancia en circuitos en serie y en paralelo, factor Q, ancho de banda y su relación, media potencia. UNIDAD III Circuitos trifásicos de CA: Generación EMF trifásica, delta y conexión en Y, magnitudes de fase y fase. Solución de circuitos trifásicos: tensión de alimentación equilibrada y carga equilibrada, diagrama fasorial, medición de potencia en circuitos trifásicos. UNIDAD IV Circuitos magnéticos Transformadores: ley de circuito de amperios, curva B-H, concepto de reluctancia, flujo, MMF, analogías entre magnitudes eléctricas y magnéticas solución de circuitos magnéticos. Histeresis y pérdidas por corrientes parásitas, aplicación de fuerza magnética, inductancia mutua y convención de puntos. Construcción de transformador monofásico, principio de trabajo, transformador automático y sus aplicaciones. UNIDAD V Instrumentos de medida. Indicadores analógicos, dispositivos, dispositivos amortiguadores, amperímetros PMMC y voltímetros, shunt y multiplicadores, amperímetro y voltímetros de hierro móvil, vatímetros de tipo dinamómetro, multímetros, medidores de vatios-hora AC. Voltímetros digitales, amperímetros y vatímetros. Libros de Texto / Libros de Referencia: 1. Basic Electrical Engineering by C. L. Wadhwa, 4ª edición New Age International. 2. Ingeniería Eléctrica Básica por Fitzereld, Higgenbotham Grabel McGraw Hill International. 3. Fundamentos de Ingeniería Eléctrica por Vincent Deltoro Prentice Hall International (EEI). 4. El suministro de electricidad por parte de la India rige los códigos BIS. IT 106 Fundamentos de Tecnología de la Información Créditos LTP 2 1 0 3 UNIDAD I Conceptos Fundamentales de la Información: Definición de la información, información de los datos, introducción a la representación de la información en medios digitales, texto, imagen, gráficos, animación, Valor y calidad de la información UNIDAD II Conceptos en la programación informática: Definición de computadora electrónica, Historia, Generaciones, Característica y Aplicación de Computadoras, Clasificación de Computadoras, Memoria, Diferentes tipos de memoria, Hardware-CPU, Varios dispositivos de E / S, Periféricos , Firmware y Humanware. UNIDAD III Lenguaje de Programación Programa de Clasificación Metodología: Lenguajes de Computadora, Generación de Idiomas, Traductores, Intérpretes, Compiladores, Diagramas de Flujo, Diagrama de Flujo de Datos, Ensambladores, Introducción a 4GL y 5GL. UNIDAD IV Dispositivos Digitales y Conceptos Básicos de Red: Fundamentos Digitales: Varios códigos, decimal, binario, conversión hexadecimal, números flotantes, flip flops, sumador, multiplexes, Introducción a la Transmisión de Datos. UNIDAD V Redes de Comunicación de Datos: Redes de Computadores - Introducción de LAN, MAN y WAN. Topologías de red, Arquitectura cliente-servidor. UNIDAD VI Internet y Tecnologías Web: Lenguaje de marcado de hipertexto, DHTML, WWW, HTTP, Gopher, FTP, Telnet, Navegadores Web, Net Surfing, motores de búsqueda, correo electrónico, seguridad de transacciones comerciales en la web. Conceptos Elementales de E-Learning y E-Commerce, Sistemas de Pago Electrónico, Firmas Digitales, Firewall. Libros de texto / Libros de referencia: 1. Uso de la tecnología de la información: Introducción práctica a las comunicaciones informáticas por William Sawyer Hutchinson Editor: Tata McGraw-Hill. 2. Introducción a las computadoras por Peter Norton Tata McGraw-Hill. 3. Introducción a las computadoras por Rajaraman EPI. 4. Compresión de datos por Nelson BPB. 5. Internet, una introducción por CIS Temis Tata McGraw Hill. 6. Tecnología de la Información: noticias de última hora de Curtin TMH. 7. Fundamentos de la Tecnología de la Información por Leon Leon Vikas. 8. Internet 101 de Lehngart Addison Wesley. AP-107 Física Aplicada - I Laboratorio LTP Créditos 0 0 2 02 AC-108 Laboratorio de Química Aplicada Créditos LTP 0 0 2 02 EE-109 Laboratorio de Ciencias Eléctricas Créditos LTP 0 0 2 02 IT-110 Fundamental de IT Lab Créditos LTP 0 0 2 Matrizes: Grado de una matriz, inversa de una matriz usando transformaciones elementales, consistencia del sistema lineal de ecuaciones, valores propios y vectores propios de una matriz, Cayley - Teorema de Hamilton, diagonalización de la matriz. UNIDAD II Ecuaciones Diferenciales Ordinarias: Ecuaciones diferenciales lineales de segundo orden superior con coeficientes constantes, Solución general de ecuaciones homogéneas y no homogéneas, método de variación de parámetros, ecuación de Euler-Cauchy, ecuaciones lineales simultáneas. UNIDAD III Funciones especiales. Método de la serie de energía, método de Frobenious, ecuación de Legendre, polinomios de Legendre, ecuación de Bessel, función de Bessel del tipo del puño, propiedad ortogonal, fórmula de Rodrigues. Transformación de Laplace, Diferenciación e Integración de la transformada de Laplace, Teorema de convolución, UNIDAD de función de paso, Función periódica, Transformada de Laplace a IVP y problema de valor de límite. Aplicaciones sistema de linear Simultaneous ecuaciones diferenciales. UNIDAD V Serie de Fourier: serie de Fourier, condiciones de Dirichlet, funciones pares e impares, series de medio rango, análisis armónico. UNIDAD VI Transformaciones de Fourier. Transformadas de Fourier Transformadas de Seno y Coseno, Transformadas de Derivadas e Integrales, Aplicaciones al problema de valor límite en ecuaciones diferenciales ordinarias (sólo casos simples). Libros de Texto / Libros de Referencia: 1. Matemáticas de Ingeniería Avanzada por Greenberg Pearson Education. 2. Matemáticas de Ingeniería Avanzada por Kreyszig Wiley. 3. Matemáticas de Ingeniería Avanzada por Taneja I K international. 4. Matemáticas de Ingeniería Avanzada por Jain / Iyenger Narosa. EN 112 Ciencias Ambientales L T P Créditos 2 0 0 2 UNIDAD I Introducción al Medio Ambiente: Origen evolución de la tierra, segmentos de medio ambiente-litosfera, hidrosfera, atmósfera biosfera, ciclos biogeoquímicos - hidrológicos, oxígeno, nitrógeno, UNIDAD II Ecosistemas: Concepto de ecosistema Componentes abióticos bióticos, tipos de ecosistemas, componentes funcionales de ecosistema - biodiversidad, productividad, cadenas alimentarias redes alimentarias, ciclo de materiales y flujo de energía, diferentes ecosistemas-bosques, pastizales, desiertos, acuáticos. UNIDAD III Contaminación del agua: Calidad del agua, características físicas, químicas y biológicas de las aguas residuales, contaminación de las aguas subterráneas, enfermedades transmitidas por el agua. UNIDAD IV Contaminación del ruido aéreo: contaminantes primarios del aire secundario, fuentes, control de los efectos del monóxido de carbono, óxidos de nitrógeno, hidrocarburos, partículas de dióxido de azufre, normas de calidad del aire, calentamiento global, lluvia ácida, El Nino. Clasificación y medición del ruido, efectos de la contaminación acústica en el ser humano, control de la contaminación acústica. UNIDAD V Energía Gestión de Residuos Sólidos: Recursos convencionales de energía - carbón, térmico, petróleo, hidroelectricidad, energía nuclear, madera, fuentes no convencionales - solar, biogás, viento, energía mareomotriz, energía geotérmica. Gestión de residuos sólidos peligrosos y no peligrosos. Leyes y actos ambientales. Libros de Texto / Libros de Referencia: 1. Estudios Ambientales por De Anil Kumar De Arnab Kumar New Age International (P) Ltd. 2. Estudios Ambientales por Basak Anindita Pearson Education South Asia. 3. Un libro de texto de la ciencia ambiental por Subramanian. V Narosa Editorial. 4. Fundamentos de Ecología Medio Ambiente por Rana. S. V.S. Publicaciones del EPI. AP 113 Física Aplicada - II L T P Créditos 4 0 0 4 UNIDAD I Física Cuántica. Fracaso de la física clásica, efecto Compton. Relación par-broglie de producción de pares, función de onda, densidad de probabilidad, ecuación de onda de Schrodinger, operadores, valores de expectativa y ecuación de valor propio, partícula en una caja, problema de oscilador armónico simple, concepto de degeneración. EEE-11 UNIDAD II Estadísticas Clásicas. Física estadística. Sistemas microscópicos-macroscópicos, concepto de espacio de fase, postulados básicos de la mecánica estadística, ley de distribución de MaxwellBoltzmann. UNIDAD III Estadística cuántica. Estadística Cuántica. Distribución de FermiDirac y Bose Einstein, función de probabilidad de Fermi - Dirac, nivel de energía de Fermi. UNIDAD IV Física Nuclear. Propiedades nucleares, constituyentes del núcleo, energía de unión, núcleos estables, ley de decaimiento radiactivo (espectro alfa y beta), valor Q de la reacción nuclear. Modelos nucleares - modelo líquido de la gota y de la cáscara, fisión nuclear y fusión, ideas elementales de los reactores nucleares. UNIDAD V Electrodinámica. Ecuaciones de Maxwells, concepto de corriente de desplazamiento, Derivación de la ecuación de onda para onda electromagnética plana, vector de Poynting. Teorema de Poynting, densidad de energía, ecuación de onda en medios conductores dieléctricos. Libros de Texto / Libros de Referencia: 1. Nuclear Physics by Erwin Kaplan. 2. Concepto de Física Nuclear por Cohen. 3. Electrodinámica de Griffith. 4. Magnetismo de la electricidad por Rangawala Mahajan. 5. Perspectiva de la física moderna por Arthur Beiser. AP-AC 114 Materiales de Ingeniería L T P Créditos 4 0 0 4 SECCIÓN A (FÍSICA) UNIDAD I Cristal Estructura: Rejillas de Bravais Índices de Miller, estructuras de cristal simple, Diferentes tipos de unión. UNIDAD II Conducción metálica: distribución de energía de electrones en un metal, nivel de Fermi, proceso de conducción. Semi Conductores: Teoría de bandas de sólidos. P y N de semiconductores. Estadísticas de agujeros y electrones, efecto Hall. Efecto de la temperatura en la conductividad. Tiempo de vida y recombinación, deriva y difusión en la unión PN. UNIDAD III Propiedades dieléctricas y ópticas de los materiales: Polarización dieléctrica y constante dieléctrica, proceso de absorción óptica. Magnetismo y Materiales Superconductores: Diapara, Ferro-magnetismo, Antiferro, Ferro-magnetismo ferritas, Materiales superconductores, Propiedades, Tipo de materiales superconductores. Meissner efecto, High-Tc superconductor, aplicación. SECCIÓN B (QUÍMICA) UNIDAD IV Introducción a los materiales de ingeniería para la construcción mecánica. Composición, características mecánicas y de fabricación y aplicaciones de diversos tipos de hierros fundidos, aceros planos y de aleación, cobre, aluminio y sus aleaciones como duraluminio, bronce y bronce, materiales de herramientas de corte, superaleaciones termoplásticas, termoendurecibles y materiales compuestos. MATERIA V MATERIALES COMPUESTOS: Introducción, limitaciones de materiales de ingeniería convencional, papel de matriz en composites, clasificación, materiales de matriz, refuerzos, compuestos de matriz metálica, compuestos de matriz de polímero, compuestos reforzados con fibra, efectos ambientales en compuestos, aplicaciones de compuestos. UNIDAD VI Polímeros Especiales: Polímeros conductores-Introducción, mecanismo de conducción, poliacetileno, poliparafenileno y polipirole, aplicaciones de polímeros conductores, resinas de intercambio iónico y sus aplicaciones. Cerámica Refractaria Introducción, clasificación, propiedades, materias primas, fabricación y aplicaciones. NOTA: Dos horas por semana de carga para el Departamento de Física Aplicada. Dos horas por semana de carga para el Departamento de Química Aplicada. Libros de Texto / Libros de Referencia (FÍSICA): 1. Solid State Physics, 7ª edición por Kittel J. W. Publicación de Hijos. 2. Física del estado sólido por Wahab M. A. Narosa Publishing House. 3. Física del estado sólido por Ali OmerM Pearson Education (Singapore) pvt. Ltd. India rama, Nueva Delhi. 4. Materiales de Ingeniería: Propiedades y Selección, 7ª edición por Kenneth G. Budinski, Budinshi Pearson Singapor (Prentice Hall). 5. Física del estado sólido por Pillai S. O. Publicación Internacional New Age. Libros de texto / libros de referencia (QUÍMICA) 1. Fundamentos de la ciencia material y la ingeniería de Donald R. Askeland, Pradeep P. Phule Thomson. 2. Specialty Polymers por R. W.Dyson Chapman y Hall, Nueva York, EE. UU. 3. Polymer Composites por A. P.Gupta, M. C.Gupta New Age publication. 4. Ingeniería Química por R. N.Goyal, H. Goel Ane Books India. 5. Ingeniería Química por S. S.Dara S. Chand. 6. Ingeniería Química por Raghupati Mukhopadhyay, Sriparna Datta Nueva Era Internacional. 7. Ingeniería Química por P. C.Jain, Monica Jain Dhanpat Rai. Introducción a la Termodinámica, Conceptos de sistemas, volumen de control, estado, propiedades, equilibrio, proceso cuasi-estático, proceso reversible irreversible, proceso cíclico. Zeroth Ley y temperatura, gas ideal. Calor y trabajo. UNIDAD II Primera Ley de Termodinámica para sistemas abiertos cerrados. Ecuación de energía sin flujo. Estado estable, ecuación de energía de flujo constante. Segunda Ley de Termodinámica Kelvin y Plancks Declaraciones, Clausius desigualdad, Definición de Heat Engine, bomba de calor, refrigerador. Concepto de entropía y disponibilidad. Carnot Cycle eficiencia de Carnot, Otto, Diedel, ciclo dual y sus eficiencias. UNIDAD III Propiedades Clasificación de fluidos, Líquidos reales ideales, Ley newtoniana de viscosidad, Presión en un punto, Ley de Pascales, Variación de presión en un fluido estático, Introducción a la Mecánica de Biofluidos Descripción general del movimiento del fluido, líneas de corriente, ecuación de continuidad, Bernoullis Ecuación, Flujo constante e inestable. Turbinas y bombas. (PARTE B) UNIDAD IV Introducción a los procesos de fabricación de diversos elementos de la máquina. Introducción a la fundición Procesos de soldadura. Fabricación de grandes pequeños componentes y ensamblajes - ejemplo Nuts and Bolts, rotores de turbinas de agua, generadores eléctricos grandes, introducción a torneado, fresado, conformado, taladrado de procesos de perforación. UNIDAD V Introducción a la medición de calidad para procesos de fabricación estándares de medición, estándares de línea y estándares finales, instrumentos de medición de precisión y calibradores: calibradores vernier, calibradores de altura, micrómetros, comparadores, indicadores de marcación y calibradores de límite. Libros de Texto / Libros de Referencia 1. Engineering Thermodynamics de P. K. Nag. 2. Fundamentos de la Termodinámica Clásica por G. J. Van Wyle y R. E. Santag. 3. Introducción a la mecánica de fluidos y máquinas fluidas por S. K. Som y G. Biswas. 4. Mecánica de fluidos por V. L. Streeter y E. B. Wylie. 5. Mecánica de fluidos y máquinas hidráulicas por R. K. Bansal. 6. Procesos de Fabricación por Kalpakjian. 7. Prácticas del taller por A. K. Hazara Chowdhary. 8. Tecnología de taller de W. A. J. Chapman. 9. Production Engineering by P. C. Sharma. 10. Production Engineering by R. K. Jain. COE 116 Programming Fundamentals L T P Credits 2 0 0 2 UNIT I Introduction: Concepts of algorithm, flow chart, Introduction to different Programming Languages like C, C, Java etc. Elementary Programming: Data types, assignment statements, conditional statements and input/output statements. Iterative programs using loops. Concept of subprograms. Coding style: choice of names, indentation, documentation, etc. UNIT II Arrays: Array representation, Operations on array elements, using arrays, multidimensional arrays. Structures Unions: Declaration and usage of structures and Unions. Pointers: Pointer and address arithmetic, pointer operations and declarations, using pointers as function argument. File: Declaration of files, different types of files. File input/ output and usage. UNIT III Object Oriented Programming: Functional and data decomposition, Characteristics of Object-Oriented Languages: Abstraction, Encapsulation, Information hiding, abstract data types, Classes and Objects: Concept of Object classes, attributes, methods, C class declaration, private and public memberships, Constructors and destructors, instantiation of objects. Introduction to Class inheritance and operator overloading. UNIT IV Files: Streams and files, error handling, over view of Standard Template Library. Text Books/Reference Books: 1. Problem Solving and Program Design in C by Jeri R. Hanly, Elliot B. Koffman Pearson Addison-Wesley, 2006. 2. A Structured Programming Approach Using C by Behrouz A. Forouzan, Richard F. Gilberg Thomson Computer Science - Third Edition India Edition, 2007. 3. C: The Complete Reference by Schildt Herbert Wiley DreamTech, 2005. 4. Object Oriented Programming using C E. Balagurusamy, TMH. R. Lafore BPB Publications, 2004. 5. Object Oriented Programming with C by D. Parasons BPB Publication, 1999. 6. The Art of Programming Computer Science with C Steven C. Lawlor Vikas Publication, 2002. EEE-13 AP 117 Applied Physics - II Lab Laboratory Practical Based on course work corresponding AP113 L T P Credits 0 0 2 2 COE 118 Programming Lab Laboratory Practical Based on course work corresponding COE-116 L T P Credits 0 0 2 2 ME 119 Engineering Graphics L T P Credits 0 0 3 3 General: Importance, Significance and scope of engineering drawing Lettering, Dimensioning, Scales, Sense of Proportioning, Different types of Projections, B. I.S. Specification, line symbols, rules of printing. Projections of Points and Lines: Introduction of planes of projection, Reference and auxiliary planes, projections of points and lines in different quadrants, traces, inclinations, and true lengths of the lines, projections on auxiliary planes, shortest distance, intersecting and non-intersecting lines. Planes Other than the Reference Planes: Introduction of other planes (perpendicular and oblique), their traces, inclinations etc. projections of points lines in the planes, conversion of oblique plane into auxiliary plane and solution of related problems. Projections of Plane Figures: Different cases of plane figure (of different shapes) making different angles with one or both reference planes and lines lying in the plane figures making different given angles (with one or both reference planes). Obtaining true shape of the plane figure by projection. Projection of Solids: Simple cases when solid is placed in different positions, Axis, faces and lines lying in the faces of the solid making given angles. Isometric and Orthographic: First and Third angle of system of projection sketching of Orthographic views from pictorial views and vice versa principles and type of sectioning. Development of Surface Text Books/Reference Books 1. Engineering Graphics by Narayana, K. L. and Kannaiah, P. Tata McGraw Hill, New Delhi 2. Elementary Engineering Drawing by Bhatt N. D. Charotar Book Stall, Anand 3. Engineering Graphics by Lakshminarayaan, V. and Vaish Wanar, R. S. Jain Brothers, New Delhi 4. Engineering Graphics by Chandra, A. M. and Chandra Satish Narosa PE 120 Mechanical Workshop L T P Credits 0 0 3 3 Fitting shops, Welding shops, Foundry Shops, Sheet Metal Shop, Smithy Shop. EL-201 Electronic Devices Circuits L T P Credits 3 1 0 4 UNIT I Introduction to Electronics. Signals, frequency spectrum of signals, analog and digital signals, amplifiers, circuit models of amplifiers, frequency response, digital logic inverters. Diodes Ideal diodes, physical operation and terminal characteristics, small signal models, operation in reverse breakdown region, Zener diode, rectifier circuits, limiting and clamping circuits etc. UNIT II Bipolar Junction Transistors. Physical structure and modes of operation, symbols, operation in active mode, graphical representation of transistor characteristics, DC analysis of transistor circuits, transistor as an amplifier and small signal model, transistor biasing, CE, CC and CB amplifier configurations, transistor as switch, large signal model of the transistor. UNIT III MOSFETs and Field Effect Transistors. Structure and physical operation of enhancement type MOSFET, current - voltage characteristics, depletion type MOSFET, MOSFET as an amplifier, basic single stage MOSFET amplifiers, all NMOS amplifier stages, JFETs, etc. Differential and Multistage Amplifiers: BJT differential pair, small signal model and operation, differential amplifiers with active loads, MOS differential amplifiers, multistage amplifiers, etc. UNIT IV Frequency Response. Low frequency response of CE and CS amplifier, high frequency response of CS and CE amplifier, CB, CC and cascade configurations and their frequency response, frequency response of CC-CE cascade. UNIT V Feedback amplifiers and Oscillators. Principles of feed back in amplifiers, advantages of negative feedback, effect of feedback on impedances, Nyquist criterion for stability, Barkhausen criterion for sinusoidal oscillators, phase shift oscillator, Wien-bridge oscillator, resonant circuit oscillators, crystal oscillators, frequency stability. Text Books/Reference Books: 1. Microelectronic Circuits, Sedra A. S. and Smith K. C, Oxford university Press, 5th Edition 2. Electronic Devices Circuit Theory Robert L Boylestad Louis Nashelsky, PHI 3. Electronic Devices and Circuits, Jacob. Millman, Christos C. Halkias, Tata McGraw Hill Publishing Limited, New Delhi, 2003. 4. Electronic Devices and Circuits, David A. Bell, Prentice Hall of India Private Limited, New Delhi, 2003. EEE-14 EL-202 Electrical Machines - I L T P Credits 3 1 0 4 UNIT I Transformers. General constructional features, type of transformers, Special constructional features cruciform and multiple stepped cores, cooling methodology, conservators, breather, Buchholz relay, concepts of coupled circuits, voltage, current and impedance relationships, equivalent circuits and phasor diagrams at no load and full load conditions, voltage regulation, losses and efficiency, all day efficiency, auto transformer and equivalent circuit, comparison of copper volume with two winding transformer, practical determination of equivalent circuit parameters and phasor diagrams, parallel operation and load sharing with equal and unequal voltage ratios, advantages of per UNIT system. UNIT II Poly Phase Transformers. Poly phase connections, star - star, star-delta, delta-star and delta-delta connections, use of delta connection for third harmonics, zig-zag connection, tertiary windings, vector groups with clock convention, phase conversions - 3-phase to 1 phase, 3-phase to 6-phase, 3-phase to 2-phase (Scott connection) and 3 phase to 12 phase, Special Purpose transformers instrument transformers and high frequency transformers. UNIT III Electromechanical Energy Conversion Principles. Forces and torques in magnetic field systems, single and multiple excited magnetic field systems, forces and torques in systems with permanent magnets, generated emf in electrical machines with concentrated distributed windings UNIT IV D. C. Machines. Basic constructional features of DC machines, separately and self excited machines, armature winding details - lap wave connections, DC generators emf equation, armature - reaction, commutation, characteristics of different types of DC generators. DC motors torque equation, armature - reaction, commutation, interpoles, compensating windings, characteristics of different types of D. C. motors. DC motor starting methods and types of starters, speed control, losses, efficiency and testing Dynamics of DC motors. Text Books/Reference Books: 1. Electric Machinery, Fitzgerald. A. E. Charles Kingsely Jr, Stephen D. Umans, Tata McGraw Hill, 2006. 2. Electromechanical Energy Conversion with Dynamics of machines, R. D. Begamudre, New Age International publishers, New Delhi, 1998. 3. Performance and Design of DC Machines, Clayton and Hancock, BPB Publications, Hyderabad. 4. Performance and Design of Alternating Current Machines, M. G. Say, CBS Publishers, New Delhi, 2008. 5. Electric Machines, Nagrath I. J and Kothari D. P. Tata McGraw Hill Publishing Company Ltd, 2010. 6. Problems in Electrical Engineering, Parker Smith, CBS Publishers, New Delhi. EL-203 Network Analysis and Synthesis L T P Credits 3 1 0 4 UNIT I Introduction. Introduction to continuous and discrete signals, their classification and types, periodic waveforms and signal synthesis, Fourier representation of continuous time periodic and aperiodic signals, LTI systems and their properties system modeling in terms of differential equations and transient response of R, L, C circuits for impulse, step, ramp, sinusoidal and exponential signals. UNIT II Network Topology and Graph Theory. Introductory concepts of network graphs, cut sets, loops, cut set and loop analysis. UNIT III Network Theorems. Superposition, Thevenins theorem, Nortons theorem, maximum power transfer theorem, reciprocity theorem, Millers theorem. UNIT IV Laplace Transform: Review of properties and applications of Laplace transform of complex waveform and transient response of R - L - C series, parallel, series-parallel circuits for all kinds of excitations. UNIT V Two Port Networks and Elements of Realizability. z, y, h, g, ABCD, inverse ABCD parameters, their inter conversion, interconnection of two 2-port networks, concept of transform impedance. Positive real functions definition properties, Fosters I and II, Cauers I and II forms, Synthesis of LC, RC, RL Networks, image parameters and basics of two - port synthesis. Text Books/Reference Books: 1. Network Analysis, M. E. Van Valkenburg, M. E. PHI, 2000. 2. Linear circuit Analysis: Time Domain, Phasor, and Laplace Transform Approaches, Decarlo Lin, Oxford, 2001. 3. Network Analysis and Synthesis, F. F. Kuo, John Wiley and Sons, 2nd Edition. 4. Engineering Circuit Analysis, Hayt, Kemmerly Durbin, Tata McGraw Hill Publishing Company Ltd, 2007. 5. Basic Circuit Theory, Desoer and Kuh, McGraw Hill International Student Edition. EL-204 Power System - I L T P Credits 3 1 0 4 UNIT I Power System Components. Single line diagram of power EEE-15 system, brief description of power system elements, synchronous machine, transformer, transmission line, bus bar, circuit breaker and isolator. Supply System: different kinds of supply system and their comparison, choice of transmission voltage. Transmission Lines: configurations, types of conductors, resistance of line, skin effect, Kelvins law. proximity effect. UNIT II Over Head Transmission Lines. Calculation of inductance and capacitance of single phase, three phase, single circuit and double circuit, transmission lines, representation and performance of short, medium and long transmission lines, Ferranti effect, surge impedance loading. UNIT III Corona and Interference. Phenomenon of corona, corona formation, calculation of potential gradient, corona loss, factors affecting corona, methods of reducing corona and interference, electrostatic and electromagnetic interference with communication lines. Overhead line Insulators: type of insulators and their applications, potential distribution over a string of insulators, methods of equalizing the potential, string efficiency. UNIT IV Mechanical Design of transmission line. Catenary curve, calculation of sag tension, effects of wind and ice loading, sag template, vibration dampers. Insulated cables: type of cables and their construction, dielectric stress, grading of cables, insulation resistance, capacitance of single phase and three phase cables, dielectric loss, heating of cables UNIT V Distribution systems. Basic idea of distribution systems, different types of loads, voltage drop in distributors, radial and ring main type of distribution systems. Text Books/Reference Books: 1. Power System Analysis, J. Grainger and W. D. Stevenson, TMH, 2006. 2. Power System Analysis, A. R. Bergen and V. Vittal, Pearson, 2008. 3. Power System Control and Stability, P. Kundur, TMH, 2006. 4. Electrical Power Systems, C. L. Wadhwa, New age international Ltd. Third Edition 5. Power System, Asfaq Hussain, CBS Publishers and Distributors, 2000. 6. Electrical Power System Design M. V. Deshpande, Tata Mc Graw Hill,1985. 7. Elements of Electrical Power Station Design, M. V. Deshpande, PHI Learning, 2009 8. A Course in Electrical Power, Soni, Gupta, Bhatnagar, Dhanpat Rai Sons. 9. Electric Power, S. L.Uppal, Khanna Publishers. 10. Electric Power Generation, Transmission Distribution, S. N.Singh, PHI Learning. EL-205 Electrical and Electronic Measurements L T P Credits 3 1 0 4 UNIT I Electrical Measurements. Standards of measurements, errors and their statistical evaluation, parasitic effects of circuit components. Calibration: accuracy, precision, sensitivity, resolution, noise. UNIT II Measurement of Circuit Components. Measurement of low, medium, high resistance, insulation resistance measurement, measurement of earth resistance. AC DC Potentiometers, generalized theory of AC bridges, Wiens bridge, Scherings bridge, measurements of dielectric loss, universal bridge, self balancing bridges, transformer ratio bridges and screening, multiple earth and earth loop, electrostatic and electromagnetic interference, grounding techniques, vibration galvanometer and null detecting devices. UNIT III Magnetic Measurement. Determination of B-H curve, measurement of iron losses, analog and digital instruments for measurement of frequency and phase. UNIT IV Measuring Devices and Systems. Theory and design of D Arsonval galvnometer, concept of multi range meters, dynamometer type wattmeter, and Induction type energy meter. UNIT V Electronic Measuring Devices. CRO and its applications, active and passive probes, current probes, storage oscilloscope, Multimeter, Digital Voltmeter, Electronic energy meter Electronic Wattmeter Text Books/Reference Books: 1. Measurement Systems Application and Design, E. O. Doeblin, Tata McGraw Hill, 2003. 2. A Course in Electrical Electronic Measurements Instrumentation, A. K. Sawhney, Dhanpat Rai and Co, 2004. 3. Digital Instrumentation, A. J. Bouwens, Tata McGraw Hill, 1997. 4. Transducers and Instrumentation, D. V.S. Moorthy, Prentice Hall of India Pvt. Ltd, 2003. 5. Electronic Instrumentation, H. S. Kalsi, Tata McGraw Hill, 1995. 6. Electrical Measurements, Martin Reissland, New Age International (P) Ltd. Delhi, 2001. 7. A Course in Electronic and Electrical Measurements, J. B. Gupta, S. K. Kataria Sons, Delhi, 2003. EEE-16 EL - 206 Engineering Economics L T P Credits 3 0 0 3 UNIT I Applied Economics. Economics introduction, law of demand and supply, elasticity of demand and supply: price, cross income, advertisement, production function and factor of production, type of market, money and bank, credit creation by bank, tax and subsidy, monetary policy and fiscal policy. UNIT II Modern Theory of International Trade. Forecasting and decision analysis, problems of Indian economy and how engineers can help in their alleviation. How introduction of information technology has affected different sector: production, marketing, customer interaction UNIT III Management. Introduction, history of management, difference and relationship between management, administration and organization, engineering manager, management obligation and ethical considerations UNIT IV Financial Management. Concepts, purpose of investment, type of capital, sources of finance, financial accountancy, book keeping, the journal and ledger, balance sheet, financial ratios. Text Books/Reference Books: 1. Applied Economics: Thinking Beyond stage One, Thomas Sowell, Basic Books, 2nd Edition, 2007. 3. Microeconomics: Principles and Policy, William J. Baumol and Alan S. Blinder, Cengage Learning, 12th Edition, 2011. 3. Management Process and Organizational Behavior, Karam Pal, I. K. International Publishing House, Delhi, 2007. 4. Management, R. Gulati, A. J. Mayo and N. Nohria, Cengage Learning, 1st Edition, 2013. 5. Fundamentals of Management Concepts Functions Role and Profile, S. S. Kharka, S. Chand Company Ltd, New Delhi,2001. 6. Economics for Engineering Students, Seema Singh, I. K. International Publishing House, Delhi, 2009. EL-207 Electronics Devices and Circuits L T P Credits 0 0 2 2 Based on the course work corresponding to EE-201 EL-208 Electrical and Electronic Measurements Lab L T P Credits 0 0 2 2 Based on the course work corresponding to EE-205 EL-209 Electrical Machines I Lab L T P Credits 0 0 2 2 Based on the course work corresponding to EE-202 EL-210 Term Paper - I L T P Credits 0 0 1 1 EL 211 Linear Integrated Circuits L T P Credits 3 1 0 4 UNIT I Feedback Amplifiers. General feedback structure, properties of negative feedback, basic feedback topologies, determination of loop-gain, stability problem UNIT II IC OP-AMP Applications. OP-AMP fundamentals (Brief review of differential amplifier, current mirror, active load, level shifter, output stage ac and dc characteristics), basic building blocks using OP-AMPS, inverting/non inverting VCVS, integrators, differentiators, CCVS, Instrumentation amplifiers, Biquad filter (LP, HP, BP and notch), Oscillators, A/ D D/A convertors UNIT III Non-linearAmplifiers. Logarithmic amplifiers, Log/antilog modules, Precision rectifier, Peak detector, Sample and Hold circuits UNIT IV Comparators and Timers. OP-AMP as comparator, Schmitt Trigger, Square and Triangular wave generator, mono stable and astable multi vibrator, IC timers and their applications. IC Analog multipliers: Basic circuits, applications UNIT V IC OTA Applications. Basic building blocks using OTA, electronically programmable functional circuit examples. Voltage regulators: (78/79, XX), 723 IC regulators (current limiting, current fold back), SMPS. Applications of analog switches: programmable gain amplifiers Text Books/Reference Books: 1. Microelectronic Circuits, A. S. Sedra and K. C. Smith, Oxford University Press, 5th Edition, 2003. 2. Microelectronic Circuits: Analysis and Design, M. H. Rashid, Oxford University Press, 5th Edition, 2003. 3. Applications and Design with Analog Integrated Circuits, M. Jacob, PHI/Dorlin Kindersley. 4. Design with Operational Amplifiers and Analog Integrated Circuits, Sergio Franco, TMH. EEE-17 EL-212 Communication Systems -1 L T P Credits 3 1 0 4 UNIT I Introduction to Electronic Communication systems: Introduction, Electronic communication system, Types of communication system: Frequency spectrum of EM waves, Modulation, Bandwidth and information capacity, Transmission Noise: Internal noise (Thermal, shot, Transit time Miscellaneous) External noise (Atmospheric, Industrial, Extra Terrestrial) Noise calculations Noise figure Noise temperature. UNIT II Amplitude Modulation systems: Transmission (Principle, spectrum, efficiency, power and current calculation) AM envelop AM Modulator circuits AM transmitters QAM AM Receivers: Receiver Parameters (Selectivity, sensitivity, dynamic range, fidelity) TRF Receiver Superhetrodyne receiver, Low noise Amplifier, Mixer / converter, Noise limiter, Automatic Gain Control circuit UNIT III Single sideband communication systems: Single Sideband system, AM SSB full carrier, AM SSB reduced carrier, AM SSB suppressed carrier, AM independent sideband, AM vestigial sideband, Comparison of single sideband transmission to conventional AM, Single sideband generation methods Single sideband transmitter. UNIT IV Angle Modulation system: Mathematical Analysis, Deviation sensitivity, Waveforms, Phase deviation and modulation index, Frequency analysis of angle modulated system, Bandwidth requirement of angle modulated system Noise and angle modulation, Pre-emphasis and de-emphasis, Generation of FM waves, Demodulation of FM waves, Angle Modulation vs. amplitude modulation. UNIT V Pulse Analog Modulation-Nyquist theorem. Practical sampling, PAM, PWM and PPM generation and detection. Noise in CW modulation: Noise calculation in communication system, Noise in Amplitude modulation system, Noise in Angle modulated system, Narrow band noise. Text Books/Reference Books: 1. B. P. Lathi, Modern Digital and Analog Communication System Oxford University Press 3rd Edition. 2. Taub Schilling, Principles of Communication Systems TMH, 2nd Edition. 3. Simon Haykin. Communication Systems John Wiley Sons Inc, 4th Edition 4. W. Tomasi, Electronic Communication Systems Pearson Education, 5th Edition EL-213 Digital Circuits and Systems L T P Credits 3 1 0 3 UNIT I Review of number system. Types and conversion, codes, Boolean algebra, De-Morgans Theorem, switching functions and simplification using K-maps and Quine McCluskey method. UNIT II Design of Logic Gates. Comparators, code converters, encoders, decoders, multiplexers and de-multiplexers, function realization using gates, multiplexers. UNIT III Design and Analysis of Combinational Logic Circuits Adders, subtractors, code converters, multilevel NAND and NOR logic circuits. UNIT IV MSI and LSI Combinational Logic Circuits. Decimal adder, decoders, digital system design with multiplexers, ROM, PROM, EPROM, PLA. UNIT V Flip Flops and Counters. Types of flip flops, analysis and design of clocked sequential circuits, counters, state diagram, state reduction, state assignment. UNIT VI Logic Families. DTL, TTL, ECL, I2L, MOS and CMOS logic families. Text Books/Reference Books: 1. Digital Logic and Computer Design, M. Morris Mano, Prentice Hall of India,2002. 2. Digital Logic: Applications and Design, John M. Yarbrough, CL Engineering,1996. 3. Fundamentals of Logic Design, Jr. Charles H. Roth and Larry L Kinney, Cengage Learning,2013. 4. Digital Fundamentals, Thomas L. Floyd, Prentice Hall, 10th edition, 2008. 5. Digital Design: Principles and Practices John F. Wakerly, Prentice Hall, 4th edition, 2005. 6. Fundamentals of Digital Circuits, Anand Kumar, Prentice Hall of India, 2006. EL 214 Power Systems - II L T P Credits 3 1 0 4 UNIT I Review of Power System Components. Synchronous machines, transformers, transmission lines, single line EEE-18 diagram, impedance and reactance diagram, per UNIT system. UNIT II Load Flows. Introduction, bus classifications, nodal admittance matrix (YBUS ), development of load flow equations, load flow solution using Gauss-Siedel and Newton-Raphson methods, approximation to N-R method, fast decoupled method, line flow equations. UNIT III Economic Operation of Power Systems. Input-output characteristics of thermal and hydro plants, optimum generator allocations without and with transmission losses, penalty factor, incremental transmission loss, transmission loss coefficients and their calculations, hydrothermal scheduling, UNIT commitment, concept of optimal power flow. UNIT IV Symmetrical faults. Concept of Bus impedance matrix and ZBUS building procedure, use of ZBUS in computation of three phase short circuit currents, selection of circuit breakers, use of current limiting reactors. Text Books/Reference Books: 1. Elements of Power System Analysis, W. D. Stevenson Jr. Mc Graw Hill,1982. 2. Electric Energy Systems Theory An Introduction, Olle. I. Elgerd, Tata McGraw Hill Publishing Company Ltd, New Delhi, Second Edition, 2003. 3. Power System Analysis and Design, J. D. Glover, M. S. Sharma T. J.Overbye, Thomson Learning,2008. 4. Power System Analysis, A. R. Bergen and V. Vittal, Pearson India, 2010. 5. Power System Stability and Control, P. Kundur, TMH. 6. Power System Analysis, Hadi Sadat, Tata McGraw Hill. 7. Power System Analysis, P. S.R. Murthy, B. S. Publications, 2007. 8. Modern Power System Engineering, Kothari Nagrath, Tata Mc. Graw Hill. 9. Electrical Power System, C. L. Wadhwa, New Age International. 10. Power System Engineering, Chakraborty, Soni, Gupta Bhatnagar, Dhanpat Rai Co. EL-215 Electrical Machines-II L T P Credits 3 1 0 4 UNIT I Asynchronous Machines - I. General constructional features of poly phase asynchronous motors, concept of rotating magnetic field, principle of operation, phasor diagram, Equivalent circuit, torque and power equations, torque-slip characteristics, practical determination of equivalent circuit parameters, losses and efficiency. UNIT II Asynchronous Machines-II. Starting methods for asynchronous motors, role of deep bar and double cage rotor, DOL, autotransformer and star delta starters, speed control, V/f control, braking, and power factor control of asynchronous motors, time and space harmonics, effect of space and time harmonics on asynchronous machine performance, cogging and crawling. Operation of asynchronous machine as asynchronous generator-grid connected and self excited modes of operation. Dynamics of asynchronous machines, UNIT III: Synchronous Machines - I. General constructional features, armature winding, emf equation, effect of distribution and pitch factor, flux and mmf relationship, phasor diagram, non - salient pole machine, equivalent circuit, determination of equivalent circuit parameters by open and short circuit tests, voltage regulation using synchronous impedance method, Potiers triangle method, power angle characteristics, parallel operation of synchronous generators, synchronizing power and torque coefficient, operation on infinite bus, effect of excitation control. UNIT IV Synchronous Machines - II. Operation as synchronous motor, phasor diagram, starting methods, V-curves, synchronous condenser, hunting and damping, salient-pole synchronous machine, two-reaction theory, phasor diagram, steady state equivalent circuit, practical determination of Xd and Xq by slip test, maximum lagging current method, power angle characteristics of synchronous machines, dynamics of synchronous machines. Text Books/Reference Books: 1. Fitzgerald. A. E. Charles Kingsely Jr, Stephen D. Umans, Electric Machinery, Tata McGraw Hill, 2006. 2. M. G. Say, Performance and Design of Alternating Current Machines, CBS Publishers, New Delhi, 2008. 3. Philip Kemp, Alternating Current Electrical Engineering, Mc Millan, London. 4. Nagrath I. J and Kothari D. P. Electric Machines, Tata McGraw Hill Publishing Company Ltd, 2010. 5. Parker Smith, Problems in Electrical Engineering, CBS Publishers, New Delhi. EL-216 Electromagnetic Field Theory L T P Credits 3 0 0 3 UNIT I Mathematical Orientation. Review of gradient curl and divergence operations. Volume, surface and line integrals, vector identities, coordinate system and transformation of vectors in various coordinate systems, Dirac delta function. EEE-19 UNIT II Static Electric Fields. Coulomb force, field due to number of charges, charge density functions, Dirac delta representation of charges, fields due to various sources, scalar potential, method of evaluating fields, fields in dielectrics, polarization, D and P vectors, electric dipole and dipole moment, concept of simple medium, boundary conditions, capacitors, energy stored in electric fields, solution of Laplace equation in various coordinate system by separation of variables, field mapping and conformal transformation, statement and interpretation of Maxwells equations. UNIT III Steady Magnetic fields. Lorentz force equation, concept of magnetic intensity and magnetic field, Biot Savarts Law, magnetic vector potential, force and torque between the current carrying conductors, loops, solenoid, magnetic material, magnetic dipole M vector, calculation of inductance for simple geometries, energy stored in a magnetic field, solution of magnetic static problems by separation of variables, field mapping and conformal transformation, magnetic circuits, statement and interpretation of Maxwells equations. UNIT IV Time Dependent Fields. Generalization of Maxwells equations in source free medium, plane waves and plane wave reflections at conductor and dielectric interfaces wave propagation in conducting and dielectric media, concepts of surface impedance and skin effect, Poynting Vector and Poynting Theorem. UNIT V Guided Waves. Waves between parallel planes, transverse electric waves (TE), transverse magnetic waves (TM), characteristics of TE and TM waves, transverse electromagnetic wave, velocity of propagation, attenuation of wave in parallel planes. Text Books/Reference Books: 1. Engineering Electromagnetics, William H. Hayt, Tata McGraw Hill, 2011. 2. Elements of Electromagnetics, Sadiku, 4th Edition, Oxford University Press, 2007. 3. Electromagnetics, John. D. Kraus, McGraw Hill. New York, 4th Edition, 1991. 4. Electromagnetics with Applications, Kraus and Flesish, McGraw Hill International, 5th Edition, 1999. 5. Introduction to Electrodynamics, David J. Griffiths, Addison-Wesley, 4th edition, 2012. 6. Elements of Engineering Electromagnetics, Nannapaneni Narayana Rao,6th Edition, Pearson Education, Inc, 2004. EL-217 Linear integrated Circuits Lab L T P Credits 0 0 2 2 Based on the course work corresponding to EE-211 EL-218 Power Systems Lab L T P Credits 0 0 2 2 Based on the course work corresponding to EE-214. EL-219 Electrical Machines - II Lab L T P Credits 0 0 2 2 Based on the course work corresponding to EE-215. EL-2201 Term Paper - II L T P Credits 0 0 1 1 EL 301 Power Electronics - I L T P Credits 3 1 0 4 UNIT I Introduction. Characteristics and switching behavior of Power Diode, SCR, UJT, TRIAC, DIAC, GTO, MOSFET, IGBT, MCT and power BJT, two-transistor analogy of SCR, firing circuits of SCR and TRIAC, SCR gate characteristics, SCR ratings. Protection of SCR against over current, over voltage, high dV/dt, high dI/dt, thermal protection methods of commutation, series and parallel operation of SCR. UNIT II AC to DC Converter. Classification of rectifiers, phase controlled rectifiers, single phase half wave controlled, fully controlled and half controlled rectifiers and their performance parameters. three phase half wave, full wave and half controlled rectifiers and their performance parameters, effect of source impedance on the performance of single phase and three phase controlled rectifiers, single - phase and three phase dual converter. UNIT III D. C. to D. C. Converter. Classification of choppers, principle of operation, steady state analysis of class - A chopper, step up chopper, switching mode regulators, Buck, Boost, Buck - Boost, Cuk regulators, current commutated and voltage commutated chopper. UNIT IV A. C. to A. C. Converter. Classification, principle of operation of step up and step down cyclo-converter, single phase to single phase cyclo-converter with resistive and inductive load, three phase to single phase cyclo-converter, half wave and full wave, cosine wave crossing technique. three phase to three phase cyclo-converter. output voltage equation of cyclo-converter. UNIT V D. C. to A. C. Converter. Classification, basic series and improved series inverter, parallel inverter, single phase voltage source inverter, steady state analysis, half bridge and full bridge inverter, modified McMurray and modified Mc Murray Bedford inverter, voltage control in single phase EEE-20 inverters, PWM inverter, reduction of harmonics, current source inverter, three phase bridge inverter. Text Books/Reference Books: 1. Power Electronic, Converters, Applications and Design, Ned Mohan, Tore M. Undeland and William P. Robbins, John Wiley Sons 2. Power Electronics: Circuits, devices and applications, M. H. Rashid, PHI. 3. Fundamental of Power Electronics, Robert W. Erickson and Dragon Maksimovic, Springer International Edition, 2nd ed. 2001. 4. Modern Power Electronics, Evolution, Technology and Applications, Edited by B. K. Bose, Jaico Publishers 5. Power Electronics Principles and Applications, Joseph Vithayathil, Tata McGraw Hill Education, 2010 6. An Introduction to Thyristors and their applications, M. Ramamoorthy, East-West Press. EL-302 Control System-I L T P Credits 3 1 0 4 UNIT I Introduction. Linear, non linear, time varying and linear time invariant system, servomechanism, historical development of automatic control and introduction to digital computer control, mathematical models of physical systems, differential equations of physical systems, transfer functions, block diagram algebra and signal flow graphs. UNIT II Feed Back Characteristics of Control Systems. Feedback and non-feedback systems, advantages and disadvantages of negative feedback, regenerative feedback. Control Systems and Components: DC and AC servomotors, synchros, tacho generator and stepper motors, ADC and DAC etc. UNIT III Time Response Analysis, Design Specifications and Performance Indices. Standard test signals, time response of first-order systems, time response of second-order systems, steady-state error and error constants, effect of adding a zero to a system, P, PI and PID control actions and their effect, design specifications of second-order systems and performance indices. UNIT IV Concepts of Stability and Algebraic Criteria. The concept of stability, necessary and sufficient conditions for stability, Rouths stability criterion and relative stability analysis. Root locus technique: root locus concept, construction of root loci, root contours, systems with transportation lag, sensitivity of the roots of the characteristic equation, analysis and design of control systems with MATLAB UNIT V Frequency Response Analysis. Correlation between time and frequency response, polar plots, Bode plots, and all pass and minimum-phase systems. Stability in frequency domain: mathematical preliminaries, Nyquist stability criterion, definition of gain margin and phase margin, assessment of relative stability using Nyquist and Bode Plots, constant M-circles, constant N-circles, Nicholas chart, closed-loop frequency response. Text Books/Reference Books: 1. Automatic Control Systems, Kuo, B. C. Prentice Hall of India. 2. Modern Control Engineering, Ogata. K Prentice Hall of India 3. Linear Control Systems, James Melsa, Donald Schultz, Mcgraw-Hill,1992. 4. Control Systems Engineering, Norman S. Nise, John Wiley and Sons, 2011. 5. Control Systems Engineering, Nagrath I. J. and Gopal M. New Age International. Publishers EL-303 Data Communication Computer Networks L T P Credits 3 1 0 4 UNIT I Concepts Terminology, Advantages of Computer Networking, Review of Analog Digital Transmissions, Distributed Processing, Network Type: Public Private, Switched Broadcast Networks LAN, WAN, Inter connecting Networks, Client Server Computing. UNIT II Elements of Computer Communication System, Communication Channels (Twisted pairs, co-axial cable, optical tube, Microwave satellite, Limitations, Bandwidth Consideration, Channel capacity, Shannon Hartley Theorem, Data Rates, Transmission Characteristics, Transmission Techniques (Asynchronous and Synchronous Transmission, Serial and Parallel, Base band Broadband Transmission). UNIT III Introduction, Modems Theory, Principle of Operation, Types of Modems, Modulation Techniques, Interface: Need RS 232C, RS 449, RS 442, RS 423A, DTE, DCE, Interface with Functions of Pins (10 only) ect. Uses, Switching Networks, Circuit Message and packet Switching with their Advantages and Disadvantages, Salient Features of Packet Switching and Packet Network Architecture Datagram, Virtual Circuits, X 25 Details. UNIT IV Local and Wide area Networks, LAN Topology with their Advantages and Disadvantages, Interconnecting Network Bridge, Gateway, Router, Brouter, Media access Control Methods, CSMA/CD, High Level Data Link Control, General EEE-21 Features, Types of Stations, Flow Control, Error Control, Framing, Transparency, Ethernet, 10BASES-Standard Ethernet, 100 BASE - X Fast Ethernet, Data Compression Techniques. UNIT V Introduction, Architecture and Protocols, ISO Reference Model, ISDN Networks, Channels, User Access, Internet, Frame Relaying, ATM, Routing Techniques, Multimedia, Protocols. Text/ Reference Books. 1. Data Communication and Distributed Networks by U. D. Black, PHI. 2. Local Area Network by James Maren, PHI. 3. Computer Networks by A. S. Tanebaum (4th edition), PHI. 4. Data Communication Networking Devices by Glbird Held, Wiley Publication. 5. Data Communication by Prakash C. Gupta, PHI. 6. Understanding Data Communication and Networks by William A. Shay, ITP Publication. EL-304 Digital Signal Processing L T P Credits 3 1 0 4 UNIT I Introduction: Classification of Systems. Continuous, discrete, Linear, Casual Stable Dynamic recursive, time variant Classification of Signals. Continuous and discrete Energy and Power Mathematical representation of Signals, Spectral density. Sampling Techniques, Quantization, Quantization error, Nyquist state and Aliasing Effect. Digital Signal Representation, Analog to Digital Conversion UNIT II Discrete Time System Analysis. Z transform and its properties Inverse Z Transform Difference equation - Solution by Z transform Application to Discrete System, Stability Analysis, Frequency response, convolution Fourier transform of Discrete Sequence. Discrete Fourier Series UNIT III Discrete Fourier Transformation Computation: DFT Properties, magnitude phase representation, Computation of DFT using DIT DIF FFT using radix 2 Butterfly structure UNIT IV Digital filter design: FIR IIR filter realization parallel cascade forms, FIR design Windowing Techniques need And choice of windows liner phase characteristics, IIR Design. Analog filter design Butterworth Chevyshev approximation digital design using impulse and variant and bilinear transformation - Warping. pre warping frequency transformation UNIT V Programmable DSP Chips. Architecture and features of TMS320C54 Signal Processing Chip - Quantization effects designing digital Filters Text Books/Reference Books: 1. John G. Proakis, D. G. Manolakis, Digital Signal Processing. 2. Ashok Ambardar, Analog and Digital Signal Processing. 3. L. R. Rabiner, B. Gold. Theory and Applications of Digital Signal Processing, PHI, 1975 4. Richard G. Lyons, Understanding Digital Signal Processing. 5. Roman Kuc. Introduction to Digital Signal Processing. 6. V. Oppenheim, R. W. Schafer, Discrete-Time Signal Processing. 7. S. K Mitra Digital Signal Processing A Computer based Approach Tata Mcgraw Hill New Delhi EL-305 Microprocessor Applications L T P Credits 3 1 0 4 UNIT I Microprocessor Architecture. Functional block diagram, signals, buses, memory and its interfacing, I/O ports and mapping, timing diagram, interrupt structure, concepts of data transfer, basic idea regarding fetching and execution of simple programmes from CPU. UNIT II Programming in Assembly Language. Instruction format and addressing modes, assembly language format, and data transfer, data manipulation and control instructions, programming for-loop structure with counting and indexing application of look up table, subroutine, stack operation, polling and interrupt based control transfer. UNIT III Peripheral Interfacing. Hand shaking, bidirectional data transfer, study of architecture and programming peripheral interface, 8255 PPI, 8251 USART, 8279 keyboard and display controller, 8253 timer/counter interface, A/D and D/A converter interfacing, serial communication. UNIT IV Arithmetic Operators and Algorithms. Fixed point, floating point and fractional arithmetic operations (addition, subtraction, multiplication and division), signed arithmetic, overflow conditions, Boolean algorithm. UNIT V Applications. Keyboard and display interface, stepper motor control, applications to measurement and instrumentation, distributed data acquisition system, assessment of power factor, real and reactive power. EEE-22 Text Books/Reference Books: 1. Microprocessor Architecture: Programming and Applications, R. S. Gaonkar, Wiley Eastern Ltd, New Delhi, 1995. 2. The 8051 Micro Controller and Embedded Systems, Muhammad Ali Mazidi Janice Gilli Mazdi, Pearson Eduction, 5th Indian reprint, 2003. 3. Microprocessor and Microcontroller Fundamentals: The 8085 and 8051 Hardware and Software, William Kleitz, Prentice Hall, 1st edition,1997. 4. Microprocessors-Theory and Applications: Intel and Motorola, M. Rafiquzzaman, PHI,1993. 5. Advanced Microprocessor Interfacing, B. Ram, TMH,2001. 6. Microprocessors and Microcontrollers: Architecture, Programming and System Design 8085, 8086, 8051, 8096, Kant Krishna, PHI,2007. 7. Microcomputer Systems: The 8086/8088 Family Architecture Programming And Design, Gibson Gleen A and Liu Yu-Cheng, 2nd Edition, PHI,2011 EL-306 Control System Lab L T P Credits 0 0 2 2 Laboratory Practical Based on course work corresponding EL 302 EL-307 Digital Electronics and Microprocessor Applications Lab L T P Credits 0 0 2 2 Laboratory Practical Based on course work corresponding EL 305 EL-308 Communication Lab L T P Credits 0 0 2 2 Laboratory Practical Based on course work corresponding EL-303 EL-309 Minor Project-I L T P Credits 0 0 0 4 EL 311 Electrical Drives L T P Credits 3 1 0 4 UNIT I Dynamics of Electric Drives. Types of loads, quadrant diagram of speed time characteristics, Basic and modified characteristics of dc and ac motors, equalization of load, steady state stability, calculation of time and energy loss, control of electric drives, modes of operation, speed control and drive classifications, closed loop control of drives, selection of motor power rating, class of duty, thermal considerations. UNIT II DC Motor Drives. DC motor speed control, Methods of armature control, field weakening, semiconductor controlled drives, starting, braking, transient analysis, controlled rectifier fed dc drives, chopper controlled dc drives. UNIT III Induction Motor Drives. Three phase induction motor starting, braking, transient analysis, speed control from stator and rotor sides, stator voltage control, variable frequency control from voltage sources and current sources, static rotor resistance control, slip power recovery, static Scherbius and static Kramer drive. UNIT IV Synchronous Motor Drives. Synchronous motor, operation from fixed frequency supply, starting, pull-in, transients, braking, synchronous motor variable speed drives, modes of variable frequency control, self controlled synchronous motor drive employing load commutated thyristor inverter. UNIT V Drives with Special Machines. Introduction to permanent magnet machines, thermal properties of PM, concept of BLDC motor, 120 and 180 operation, rotor position detection, open loop voltage control, closed loop current control, high speed single pulse operation, permanent magnet synchronous machines, rotor position detection and synchronization, sinusoidal PWM excitation, closed and open loop control, PMSG and its application to wind energy, stepper motor, current and voltage control, drive circuits, SRM drive, modeling and analysis of SRM, different configurations of converters, closed and open loop operation, high speed operation with angle of advance. UNIT VI Traction Drives. Introduction to solar and battery powered traction drives, space vector modulation, vector control of induction motor, Direct torque control, metro train applications and energy conservation in electrical drives. Text Books/Reference Books: 1. Utilization of Electrical Energy( SI UNIT s) E. OpenshawTaylor, Orient Longman Pvt. Ltd, 2003. 2. Fundamentals of Electrical Drives, Gopal. K.Dubey, Narosa Publishing House, New Delhi, 2002. 3. Power Semiconductor Controlled Drives Gopal. K.Dubey, Prentice Hall. New Jersey. 4. Brushless Permanent Magnet and Reluctance Motor Drives, T. J.E Miller, Oxford University Press 5. Sensorless Vector and Direct torque Control, Peter Vas, Oxford University Press, 1998. 6. Special Electrical Machines, K. Venkataratnam, Universities Press, Hyderabad, 2008. EEE-23 EL-312 Electrical Machines-III L T P Credits 3 1 0 4 UNIT I Single phase Asynchronous Motor. Construction, double revolving field theory, starting methods shaded pole and split phase including capacitor motors, speed torque characteristics, equivalent circuits, phasor diagram and condition for maximum torque, practical determination of equivalent circuit parameters, unbalanced operation as symmetrical two phase machines, symmetrical component concept, applications. UNIT II Special Electrical Machines. Principle of operation and performance characteristics of: DC series motor, universal motor, hysteresis motors, permanent magnet synchronous motors, synchronous reluctance motors, switched reluctance motors, brushless dc motors. UNIT III Motors used in Control Systems. Stepper motors, DC / AC servomotors, tacho generators. UNIT IV Modelling and Analysis of Electrical Machines. Generalized theory of electrical machines, different transformation methods, Parks Transformation, Clarkes Transformation and corresponding equivalent circuits. Representation of three phase asynchronous and synchronous machines in d-q-0 reference frames. Text Books/Reference Books: 1. Electric Machinery, Fitzgerald, A. E. Charles Kingsley Jr. and Stephen D. Umans, McGraw Hill Book Company, 1992. 2. Principles of Electrical Machines and Power Electronics, P. C. Sen, John Wiley (Indian Edition), 2002. 3. The Performance and Design of AC Commutator Motors, E. Openshaw Taylor, Wheeler Publishing, New Delhi, 1997. 4. Special Electrical Machines, K. Venkataratnam, Universities Press, Hyderabad, 2008. 5. Fractional Horsepower Electrical Machines, E. V. Armensky and G. B. Falk, Mir Publishers, Moscow, 1978. 6. Analysis of Electric Machinery, S. Sudoff, O. Wasynzcuk and P. C. Krause, John Wiley (Indian Edition), 2010. 7. Dynamic Simulation of Electric Machinery, C. M. Ong, Prentice Hall, 1998. EL-313 Microcontroller and Embedded System L T P Credits 3 1 0 4 UNIT I 8051 Architecture. Basic organization 8051 CPU structure, register file, interrupts, timers, port circuits, instruction set, timing diagram, addressing modes, simple program and applications. Peripherals and Interfacing of 8051: typical bus structure, bus memory organization, timing characteristics, extended model and memory interfacing, polling, interfacing basic I/O devices, analog and digital interfacing, PWM mode operation, serial port application. UNIT II Peripherals and Interfacing of 8096. Analog interface, serial ports, watch dog timers, real time clock, multitasking, bus control, memory timing, external ROM and RAM expansion, PWM control, A/D interfacing, PIC microcontroller UNIT III Case Study Using 8051 and 8096. Real time clock, dc motor speed control, generation of gating signals for converters and inverters, frequency measurement, temperature control, organization of a microprocessor, register organization, CPU, description of timing and control UNIT s, interfacing memory and I/O devices, synchronous and asynchronous data transfer, interrupt, polling, DMA, introduction to Pentium and pro-Pentium microprocessor, basic organization of 8051, 8097, MC68HC11, PIC16CXX, SLK-51 microcontrollers, instruction set, timing diagram, address modes, simple program and applications. UNIT IV Embedded system and their components. Categories of embedded systems, stand alone, real time networked and mobile etc. requirements of embedded systems, reliability, cost effectiveness, low power consumption, efficient use of processing power, efficient use of memory, approximate execution time, challenges and issues in embedded software development, co-design operating system, efficient I/O testing and debugging, hardware architecture for embedded systems, embedded applications. Text Books/Reference Books: 1. Design with microcontrollers, John B. Peatman, McGraw Hill International, 1989. 2. Intel manual on 16 bit embedded controllers, Santa Clara, 1991. 3. Programming and customizing the 8051 micro controller, Myko Predko, Tata McGraw Hill, 1999. 4. The 8051 Microcontroller and Embedded systems, Muhammad Ali Mazidi, Janice Gillispie Mazidi. Pearson Education, 2004. 5. Microprocessor based design: A Comprehensive guide to effective hardware design, Michael Slater, Prentice Hall, 1989. 6. Design with PIC microcontrollers, John B. Peatman, Pearson Education, 2004 EL-314 Communication SystemsII L T P Credit 3 1 0 4 UNIT I Random Process Probability, Random variable, Random Process, mean, moments, correlation autocorrelation and EEE-24 covariance functions, ergodicity, power spectral density, Gaussian distribution. Baseband Modulation: Review of sampling theorem, uniform and non - uniform quantization, PCM, DPCM, DM. ADM, Mary waveforms, companding. UNIT II Baseband Detection: Error performance degradation in communication system, maximum likelihood receiver structure, matched filters, error performance of binary signaling, intersymbol interference, demodulation and detection of shaped pulses, channel characterization, eye pattern. Bandpass modulation and demodulation. ASK, FSK, PSK DPSK, QPSK MSK coherent and non coherent detection of ASK, FSK, PSK and other keying techniques. UNIT III Probability of bit error for coherently detected BPSK FSK differentially, DPSK etc and comparison of bit error performance for various modulation types. UNIT IV Line coding: NRZ, RZ, Walsh codes, AMI coding. High density bipolar code, binary with n-zero substitution codes. Channel Coding: Discrete memory less channel, Binary symmetric channel, code rate redundancy, Parity code, linear block codes, convolution codes, Reed Soloman codes. Shannon Hartley capacity theorem, Shannon limit, entropy, Huffman coding, LZ coding. Text Books/Reference Books: 1. B. P. Lathi, Modern Digital and Analog Communication System Oxford University Press 3rd Edition. 2. Taub Schilling, Principles of Communication Systems TMH, 2nd Edition. 3. Simon Haykin. Communication Systems John Wiley Sons Inc, 4th Edition 4. W. Tomasi, Electronic Communication Systems Pearson Education, 5th Edition EL-315 Computer Architecture L T P Credits 3 1 0 4 UNIT I Overview of Digital Fundamentals, Register Transfer and Micro operation: Register Transfer Language, Register Transfer, Bus and Memory Transfer, Arithmetic Micro operations, Logic Micro operations, Shift Micro operations. Computer Organization and Design: Instruction Codes, Computer Registers, General Register Organization, Stack Organization, Instruction Formats, Addressing Modes, Timing Control, Instruction Cycle, Memory Reference Instructions, Input-Output and Interrupt related instruction cycle. Design of ALU, Design of Control UNIT and microprogramming. UNIT II Input Output Organization: Peripheral devices, Input Output interface, Asynchronous Data Transfer, Modes of Data Transfer, Priority Interrupt, Direct Memory Access, Input Output Processor. UNIT III Memory: Memory hierarchy, Main Memory, Auxiliary Memory, Associative Memory, Cache Memory, Virtual Memory, Memory Management Hardware, Quantitative evaluation of performance gain using memory, cache miss/ hits. UNIT IV Computer Arithmetic: Introduction, Addition and Subtraction, Multiplication Algorithms, Division Algorithms, Floating Point Arithmetic Operation, Decimal Arithmetic UNIT. Decimal Arithmetic Operations. UNIT V Introduction to pipelining and parallel processing, Case study:8086 architecture and programming. Text books: 1. Computer System and Architecture by PHI, Mano M. 2. Computer Systems Organization and Architecture by Carpinelli Pearson Education. 3. Computer Architecture and Organization by Hayes. J. P. TMH. 4. Computer Organization Design by Pal Chaudhuri, P PHI. 5. Computer Organization Architecture, by Stallings, W PHI. 6. Parallel Processing and Architecture, by K. Hwang and F. Briggs McGraw Hill, 1984. 7. Computer Architecture: A Quantitative Approach by D. Patterson and J. Hennessy, Second Edition Morgan. EL-316 Power Electronics and Electrical Drives Lab L T P Credits 0 0 2 2 Laboratory Practical Based on course work corresponding Power Electronics and Electrical Drives (EL 311, EL301) EL-317 Digital Signal Processing Lab / Electrical Machine - III Lab Credits 0 0 2 2 Laboratory Practical Based on course work corresponding EL-304 EL-318 Minor Project-II L T P Credits 0 0 0 4 EEE-25 EL-319 Industrial Training L T P Credits 0 0 0 2 EL-401 Control System II Credits 3 1 0 4 UNIT I Introduction to Design. The design problem, preliminary considerations of classical design, realization of basic compensators, cascade compensation in time domain cascade compensation in frequency domain, tuning of PID Controllers UNIT II State Space Techniques. Concept of state and state variables, various types of state models, state transition matrix and its evaluation, solution of state equations, concepts of controllability and observability, design of control system using pole placement, observer design. UNIT III Sampled Data Systems and Digital Control. Difference between continuous, discrete and digital signals, sampling theorem, z-transform and inverse z-transformation, applications in the modeling of sampled data control system, signal reconstruction using ZOH and higher order hold circuits, design of digital controllers using bilinear transforms, ZOH equivalence and pole-zero mapping techniques, stability studies for sampled data systems. UNIT IV Non-Linear Systems. Introduction to various types of non - linearities and their transfer characteristics, concept of phase-plane and describing function methods, limit cycle, concept of stability and various methods for study of stability of non-linear systems, Lyapunovs theorem for stability UNIT V Recent Advances in Control Systems. Advanced topics relevant to control systems theory and practice Text Books/Reference Books: 1. Introduction to Feedback Control, Li Qiu and Kemin Zhou, Penguin Books Ltd,2010. 2. Modern Control Engineering, K. Ogata, Prentice-Hall, 5th edition,2010. 3. Control Systems Engineering, Nagrath Gopal, New Age International, 2009. 4. Digital Control System, Kuo B. C. Oxford University Press, 2nd edition, 2012 5. Digital Control Engineering, M. Sami Fadali and Antonio Visioli, Academic Press Inc, 2nd Revised edition, 2012. 6. Linear Control System Analysis Design, D Azzo Houpis, CRC Press,5th edition, 2003. EL-402 Non-Conventional Energy System L T P Credits 3 1 0 4 UNIT I Introduction. Various non-conventional energy resources Introduction, availability, classification, relative merits and demerits. Solar Cells: Theory of solar cells. solar cell materials, solar cell array, solar cell power plant, limitations. Solar Thermal Energy: Solar radiation, flat plate collectors and their materials, applications and performance, focusing of collectors and their materials, applications and performance solar thermal power plants, thermal energy storage for solar heating and cooling, limitations. UNIT II Geothermal Energy: Resources of geothermal energy, thermodynamics of geo-thermal energy conversion - electrical conversion, non-electrical conversion, environmental considerations. Magneto-hydrodynamics (MHD): - Principle of working of MHD Power plant, performance and limitations. Fuel Cells: Principle of working of various types of fuel cells and their working, performance and limitations. UNIT III Thermo-electrical and thermionic Conversions: Principle of working, performance and limitations. Wind Energy: Wind power and its sources, site selection, criterion, momentum theory, classification of rotors, concentrations and augments, wind characteristics. Performance and limitations of energy conversion systems. UNIT IV Bio-mass:-Availability of bio-mass and its conversion theory. Ocean Thermal Energy Conversion (OTEC): Availability, theory and working principle, performance and limitations. Wave and Tidal Wave: Principle of working, performance and limitations. Waste Recycling Plants. Text Books/Reference Books: 1. Raja et. al, Introduction to Non-Conventional Energy Resources Scitech Publications. 2. John Twideu and Tony Weir, Renewal Energy Resources BSP Publications, 2006. 3. M. V.R. Koteswara Rao, Energy Resources: Conventional Non-Conventional BSP Publications,2006. 4. D. S. Chauhan, Non-conventional Energy Resources New Age International. 5. C. S. Solanki, Renewal Energy Technologies: A Practical Guide for Beginners PHI Learning EEE-26 Elective - I L T P Credits 3 1 0 4 Elective-I EL 403-1 Flexible AC Transmission Systems EL 403-2 SCADA and Energy Management systems EL 403-3 Microwave Engineering EL 403-4 HVDC transmission systems EL 403-5 Power System Dynamics and Stability EL 403-6 Design of power apparatus and system EL 403-7 Process Control System EL 403-8 Robotics and Mechatronics EL-403-1 Flexible AC Transmission System L T P Credits 3 1 0 4 UNIT I Introduction. Reactive power control in power systems, transmission system compensation, static series and shunt compensation UNIT II Voltage Sourced Converters Concept of voltage sourced converters, multi level and PWM converters, transformer connections for 12 pulse operation, 24 and 48 pulse operations UNIT III Static Shunt Compensators - SVC and STATCOM. Objectives of shunt compensation, methods of controllable VAR generation, SVC and STATCOM characteristics, comparison between SVC and STATCOM, steady state and dynamic models of SVC and STATCOM, applications principles UNIT IV Static Series Compensators TCSC and SSSC. Objectives of series compensation, improvement of transient stability and power oscillation damping, sub-synchronous oscillation damping, steady state and dynamic models of TCSC and SSSC, SSR mitigation with TCSC and SSSC, application principles UNIT V Combined Compensators UPFC, IPFC and GUPFC. Basic operating principles of UPFC, independent real and reactive power control capability, control schemes for P and Q control, steady state and dynamic modeling of UPFC, IPFC and GUPFC operating characteristics and control structure, application principles. Text Books/Reference Books: 1. Understanding FACTS, N. G. Hingorani and L. Gyugyi, IEEE Press, 2000. 2. Power Electronic Control in Electrical Power Systems, E. Acha, Penguin Books Ltd,2008 3. Power System Stability and Control, Prabha Kundur, Tata McGraw-Hill Publishing Company,2006. 4. Facts Controllers In Power Transmission and Distribution, K. R. Padiyar, New Age publishers, 2013 5. Thyristor-Based FACTS Controllers for Electrical Transmission Systems, R. Mohan Mathur, Rajiv K. Varma, Wiley-IEEE Press, 1st edition, 2002. 6. HVDC and FACTS Controllers: Applications of Static Converters in Power Systems, Vijay K. Sood, Springer, 2004. 7. Introduction to FACTS Controllers: Theory, Modeling, and Applications, Kalyan K. Sen, Mey Ling Sen, Wiley - IEEE Press, 1st edition,2009. EL-403-2 SCADA and Energy Management Systems L T P Credits 3 1 0 4 UNIT I General Theory. Purpose and necessity, general structure, data acquisition, transmission and monitoring, general power system hierarchical structure, overview of the methods of data acquisition systems, commonly acquired data, transducers, RTUs, data concentrators, various communication channels, cables, telephone lines, power line carrier, microwaves, fiber - optical channels and satellites. UNIT II Supervisory and Control Functions. Data acquisitions, status indications, measured values, energy values, monitoring alarm and event application processing. Control function: ON/OFF control of lines, transformers, capacitors and applications in process industry, valve, opening, closing etc. Regulatory functions: set points and feed back loops, time tagged data, disturbance data collection and analysis, calculation and report preparation. UNIT III MAN - Machine Communication. Operator consoles and VDUs, displays, operator dialogues, alarm and event loggers, mimic diagrams, report and printing facilities. UNIT IV Data bases - SCADA, EMS and network data bases. SCADA system structure - local system, communication system and central system, Configuration - non-redundant single processor, redundant dual processor, multi control centers, system configuration. Performance considerations: real time operation system requirements, modularization of software programming languages. UNIT V Energy Management Center. Functions performed at a centralized management center, production control and load management, economic dispatch, distributed centers and power pool management. EEE-27 Text Books/Reference Books: 1. Power System Control Technology, Torsten Cegrell, Prentice Hall International, 1986 2. Scada: Supervisory Control And Data Acquisition, Stuart A. Boyer, The Instrumentation, Systems and Automation Society, 4th edition, 2009. 3. Computer-Based Industrial Control, Krishna Kant, PHI Learning,2nd edition, 2013. 4. Instrument Engineers Handbook, Volume 3: Process Software and Digital Networks, Bela G. Liptak, CRC Press, 4th edition, 2011. 5. Data Communications and Networking, Behrouz Forouzan, McGraw-Hill,5th edition, 2012. EL-403-3 Microwave Engineering L T P Credits 3 1 0 4 UNIT I Microwave Network Theory and Passive Devices. S-matrix representation of multiport networks, properties of S-parameters and shifting reference planes, microwave cavities. Microwave hybrid circuits: waveguide tees, hybrid rings, waveguide corners bends and twists, directional couplers, circulators, isolators, matched load and terminations, co-axial line to waveguide adapters, coupling loops, coupling aperture, short circuit plunger, attenuators, phase shifters, waveguide discontinuities, windows, irises and tuning screws. UNIT II Microwave Vacuum Tube Devices. Conventional vaccum devices, Klystrons, multi cavity Klystron amplifiers, reflex Klystron amplifies, Helix Travelling Wave Tubes (TWT), coupled cavity TWT, magnetron oscillators, forward wave and backward wave amplifiers, principles of operation, performance characteristics and application. UNIT III Microwave Semiconductor Diodes. Microwave IMPATT devices, TRAPATT diodes BARITE diodes, transfer electron devices (Gunn diodes), tunnel diodes, Schottky barrier diodes, principles of operation, characteristics and applications. UNIT IV Microwave Transistors. Microwave bi-polar transistors, Hetero junction transistors, JFETs Metal Semiconductor FETs, high electron mobility transistors, MODFETs, MOS transistors and memory devices, charge coupled devices, principles of operation, characteristics and applications. UNIT V Strip lines and Monolithic Microwave Integrated Circuits. Micro-strip lines, parallel strip lines, co-planar and shielded strip lines, MMIC materials, growth, MOSFET fabrication, thin film formation and hybrid IC fabrication. UNIT VI icrowave Measurements. Tunable detector, slotted line carriage, VSWR meter, spectrum analyser, network analyser, power measurements, insertion loss and attenuation measurements, VSWR measurements, impedance and frequency measurements, dielectric constant measurements and other passive components measurements. Text Books/Reference Books: 1. Microwave Devices and Circuits by S. Y. Liao, Prentice Hall, 3rd edition,1996. 2. Microwave Engineering, Sisir Das and Annapurna Das, McGraw-Hill, 2nd edition, 2010 3. Microwave Engineering, David M. Pozar, Wiley, 4th edition, 2011. 4. Microwave Engineering: Passive Circuits, Peter A. Rizzi, Prentice Hall, 1st edition, 1987. 5. Microwaves, K. C. Gupta, New Age International, 2nd edition,2013. EL 403-4 HVDC Transmission Systems L T P Credits 3 1 0 4 UNIT I DC Power Transmission Technology. Introduction - comparison of AC and DC transmission application of DC transmission-description of DC transmission system planning for HVDC transmission-modern trends in DC transmission UNIT II: Analysis of HVDC Converter Pulse number, choice of converter configuration-simplified analysis of Graetz circuit - converter bridge characterstics-characterstics of twelve pulse converter detailed analysis of converters. UNIT III HVDC Converter and System Control. General principles of DC link control-converter control characteristics-system control hierarchy firing angle control-current and extinction angle control-starting and stopping of DC link power control higher level controllers-telecommunication requirements. UNIT IV Harmonics and Filters. Introduction-generation of harmonics-design of AC filters-DC filters-carrier frequency and RI noise. UNIT V Simulations of HVDC Systems. Introduction system simulation: Philosophy and tools-HVDC system simulation - modeling of HVDC systems for digital dynamic simulation. Text Books/Reference Books: 1. HVDC power transmission system, Padiyar, K.R. Wiley Eastern Limited, 1st edition.1990 2. Direct Current Transmission, Edward Wilson Kimbark, Wiley Interscience, 1971. 3. Extra high Voltage AC transmission Engineering, Rakosh Das Begamudre, New Age International, 1990 EEE-28 4. High Voltage Direct Current Transmission, Arillaga, J, Peter Pregrinus, London,1983. EL 403-5 Power System Dynamics Stability L T P Credits 3 1 0 4 UNIT I The Stability Problem. Origin of the stability problem, definition of stability terms, power angle diagrams. UNIT II Steady State Stability. The steady state power limits of simple systems with synchronous loads-analytical and graphical methods, methods of improving steady state stability limits, elementary aspects of dynamic stability. UNIT III Transient Stability. Review of the laws of mechanics, swing equation for a single machine connected to an infinite bus, net-work reduction techniques, equal areas criterion of stability, solution of wing equation by numerical methods (step by step solution), Runge kutta method. Critical clearing angle and time, analysis of two finite machine system and multimachine systems, effect of grounding on stability, methods of improving the transient stability, role of AVR. UNIT IV Small Signal Stability Synchronising and damping torques, modes of oscillations, significance of rotor mode eigenvalues, participation factors, power oscillation damping, supplementary control, Power system stabilisers, role of FACTS devices UNIT V Voltage Stability. Voltage Stability, P-V Curves methods of improving stability, Reactive Power Flow, Reactive Power Transmission, HVDC Operations, Introduction to FACTS devices, and Enhancement of stability by application of FACTS devices. Text Books/Reference Books: 1. Power System Stability and Control, Prabha Kundur, Tata McGraw-Hill Publishing Company,2006. 2. Power System Dynamics And Stability, Peter W. Sauer, M. A. Pai, Prentice Hall,1st edition,1997 3. Power System Dynamics Stability And Control, Padiyar K R, BS Publications,2003 4. Understanding FACTS, N. G. Hingorani and L. Gyugyi, IEEE Press, 2000. 5. Facts Controllers In Power Transmission and Distribution, K. R. Padiyar, New Age publishers, 2013 6. Thyristor-Based FACTS Controllers for Electrical Transmission Systems, R. Mohan Mathur, Rajiv K. Varma, Wiley-IEEE Press, 1st edition, 2002. 7. Power Systems Analysis, Hadi Saadat, McGraw-Hill Higher Education, 2nd edition, 2004 EL-403-6 Design of Power Apparatus Systems L T P Credits 3 1 0 4 UNIT I Factors in Design. Specifications for machines, out-put equation, limitations in design, electric and magnetic loadings, space factor, winding factor and their effects on machine performance, mechanical and high speed problems. UNIT II Design of Poly phase Asynchronous Machines. Details of construction, stator design, output equation, separation of D and L, specific loadings, leakage reactance, rotor design, slip ring and squirrel cage motors, harmonic effects and slot combination, magnetizing current and losses, prediction of characteristics. UNIT III Design of Synchronous Machines. Details of construction, generators, salient and non salient pole machines, specific loadings and output equation, stator design, harmonics and reduction, armature reaction, design of field winding, short circuit ratio, voltage regulation, efficiency, differences in design between salient and non salient pole machine. UNIT IV Design of Transformers. Design of single and three phase transformers, output equation, specific loadings, electro mechanical stresses on windings, no load current, temperature rise. UNIT V Thermal aspects of Design. Generation, flow and dissipation of heat losses, thermal capacity, temperature rise curves, ratings of machines, cooling media, ventilation, types of cooling, standard enclosures. Text Books/Reference Books: 1. Performance and Design of Alternating Current Machines, M. G. Say, CBS Publishers, New Delhi, 2008. 2. Design of Rotating Electrical Machines, Juha Pyrhonen, Tapani Jokinen, Valeria Hrabovcova, Wiley, 1st edition, 2009. 3. The Induction Machines Design Handbook, Ion Boldea, Syed A. Nasar, CRC Press, 2nd edition, 2009. 4. Design and Testing of Electrical Machines, M. V. Deshpande, PHI Learning, 2009. 5 A Course in Electrical Machine. Design, A. K.Sawhney and A. Chakraborty, Dhanpat Rai Co,6th Reprint,2013. 6. Principles Of Electrical Machine Design, R. K. Agarwal. S. K. Kataria Sons. 2010. EL-403 7 Process Control System L T P Credits 3 0 0 3 UNIT I Process Models: static models, dynamic models, step response method two parameter model, three parameter model, four parameter model, models for oscillatory systems, EEE-29 method of moments, disturbance model - measuring noise characteristics. UNIT II Controller principles: Process characteristics process equation. process load, Process lag, self regulation. control system parameters - error, variable range, control parameter range, control lag. dead time, cycling, controller modes. discontinuous two position. multi position, floating control, Control paradigms. cascade control, feedforward control UNIT III Tuning of Controllers: criteria for controller tuning specified decay ratio, minimum integral of absolute error (IAE), Minimum integral of time and absolute error (ITAE) closed loop response method ultimate method, damped, oscillation method process reaction curve and open loop tuning. UNIT IV Programmable Logic controllers: ISA logic symbols, ladder diagram, relay sequence. programmable controllers - function diagram, operation, programming. Text Books/Reference Books: 1. Process control Instrument Technology Curtis D. Johnson (John Willy Sons) 2. Process Control Instrumentation engineers handbook B. G. Liptak 3. Process Control Instrumentation Anderson 4. PID controllers A. J Astrom, Tom hagglund (ISA) publication 5. Fuzzy Sets, Uncertainty Information G. J Klir, T. A Folger (PHI) 6. Neural Networks Fuzzy sets B. Kosko 7. principles Of Measurement systems by John. P. Bently Pearson education. Low Prize Education 8. Process control - Modeling, Design simulation by B. Wayne Bequette, Prentice Hall of India Pvt. Ltd, Delhi. EE-403-8 Robotics Mechatronics L T P Credits 3 1 0 4 UNIT I Basic Components of Robotic systems. Kinematics of manipulators, selection of coordinate frames, transformations. UNIT II Kinematics and Manipulator Dynamics. Position, velocity and force control, computed torque control, linear and nonlinear controller design of robot. UNIT III Mechatronics and its Scope. Definitions, functions of mechatronic systems, classification of sensors and transducers-displacement, position and proximity, velocity, force, pressure and level. UNIT IV Actuation Systems. Linear actuators, fast acting actuators, application of solenoid actuators, directional, pressure, process control valve, mechanical actuation systems, electrical actuation systems and mechanical switches. UNIT V System Interfacing with Instrumentation and Control System. Mechatronic system, input and output signals of mechatronics system, signal conditioning, filtering and data acquisition system, microprocessor control, microcontroller and programmable logic control system. Text Books/Reference Books: 1. Robotics and Automation Handbook, Thomas R. Kurfess, CRC Press, 2004 2. Embedded Robotics: Mobile Robot Design and Applications with Embedded Systems, Thomas Brunl, Springer, 3rd edition, 2008. 3. Mechatronic Systems: Fundamentals Rolf Isermann, Springer, 2005. 4. Mechatronics, W. Bolton, Pearson Education, 4th edition, 2011. 5. Mechatronics, HMT Limited Bangalore (Indian Machine Tool Company), Tata McGraw-Hill Publishing Company, 2000. 6. Mechatronics: An Introduction, Robert H. Bishop, CRC Press, 2005 7. Sensors and Actuators in Mechatronics: Design and Applications, Andrzej M. Pawlak, CRC Press, 2012 Open Elective I L T P Credits 3 1 0 4 Elective-I EL404-1 Automotive Systems EL 404-2 Intelligent Instrumentation EL 404-3 Advanced Analog Circuit Design El 404-4 Restructured Power System EL 404-5 Intellectual Property Rights and Entrepreneurship EL-404-6 Biomedical Instrumentation EL 404-7 Advanced Control System EL 404-8 Instrumentation EL 404-1 Automotive Systems L T P Credits 3 1 0 4 UNIT I Thermo dynamic Engine Cycles. Spark-ignited(SI) engine, diesel engine, seiliger process, gas turbine, sterling engine, engine management systems, emission of IC engine, knock control of SI engine, intermittent fuel injection, injection time calculation, 4 stroke cycle of diesel engine, charge EEE-30 exchange, air-fuel ratio, fuel evaporation, cylinder dynamics, cylinder balancing, diagnostics. UNIT II Driveline. Driveline modelling, stationary and dynamic gear shift, driveline control, driveline speed control, transmission - torque control, torque converter, sensor locations, gear shift controller, anti-jerking control, lateral vehicle motion, bicycle model, yaw rate and slip angle, steering control, longitudinal vehicle dynamics, aerodynamic drag force, rolling resistance, calculation of effective tire radius, wheel dynamics, cruise control, anti-lock brake systems, deceleration threshold based algorithms. UNIT III Stability Control. Differential braking systems, independent all wheel drive torque distribution, traditional four wheel drive systems, torque transfer between left and right wheels, active control of torque transfer to all wheels, full, half and quarter car suspension models, dependent and independent suspensions UNIT IV Vehicular Power Electronic Systems. Multi-converter vehicular dynamics and control, constant power loads and their characteristics, concept of negative impedance instability, negative impedance instability in the single PWM DC/DC Converters, stability of PWM DC/DC converters driving several loads, stability condition in a DC vehicular distribution system, negative impedance stabilizing control for PWM DC/DC converters with constant power and resistive loads, effects of constant power loads in AC vehicular systems, vehicular AC distribution system, negative impedance instability condition, hybrid (DC and AC) vehicular systems with constant power loads, electric and hybrid-electric propulsion systems, modeling of hybrid vehicles, dynamic modeling of electric motors, dynamic modeling of batteries, supercapacitors, dynamic modeling of supercapacitors, electric power links, torque couplers, power split devices. UNIT V Hybrid Electric Vehicle. Hybrid definition, engine downsizing, electric vehicle, plug-in hybrid, series hybrid, parallel hybrid, series and parallel hybrid, regenerative braking, brake cooling, aerodynamic drag, and regenerative braking and coasting, time and stopping distance, regenerative braking integrated with conventional hydraulic system, directional stability. Text Books/Reference Books: 1. Vehicle Dynamics and Control, Rajesh Rajamani, Springer, 2nd edition. 2012 2. Automotive Control Systems: For Engine, Driveline, and Vehicle, Uwe Kiencke, Lars Nielsen, Springer, 2nd edition, 2005. 3. Vehicular Electric Power Systems: Land, Sea, Air, and Space Vehicles: Land, Sea, Air and Space Vehicles, John M. Miller, Dekker,2007 4. Vehicle Propulsion Systems: Introduction to Modeling and Optimization, Lino Guzzella, Antonio Sciarretta, Springer, 2nd edition, 2007 EL-404 -2 Intelligent Instrumentation L T P Credits 3 1 0 4 UNIT I Introduction to Intelligent Instrumentation. Historical Perspective, current status, software based instruments. UNIT II Virtual Instrumentation. Introduction to graphical programming, data flow graphical programming techniques, advantage of VI techniques, VIs and sub-VIs loops and charts. arrays, clusters and graphs, case and sequence structures, formula nodes, string and file I/O, Code Interface Nodes and DLL links. UNIT III Data Acquisition Methods. Analog and digital IO, counters, timers, basic ADC designs, interfacing methods of DAQ hardware, software structure, use of simple and intermediate Vis, use of data sockets for networked communication and controls. UNIT IV PC Hardware Review and Instrumentation Buses. Structure, timing, interrupts, DMA, operating system, ISA, PCI, USB, PCMCIA buses. IEEE488.1 488.2 serial interfacing - RS232C, RS422, RS423, RS485 USB, VXI, SCXI, PXI. UNIT V Communication Link. PLCC microwave, telephone line, satellite, fibre optic channels. Text Books/Reference Books: 1. Intelligent Instrumentation: Microprocessor Applications in Measurement and Control, George C. Barney, Prentice Hall, 2nd edition, 1988 2. Measurement and Instrumentation: Theory and Application, Alan S Morris, Reza Langari, Butterworth - Heinemann, 1st edition, 2011 3. PC Interfacing for Laboratory Data Acquisition and Process Control, S. Gupta, J. P. Gupta, Instrument Society of America, 1989 4. LabVIEW Graphical Programming, Gary W. Johnson, Richard Jennings, McGraw-Hill Professional, 4th edition,2006 EEE-31 EL-404 -3 Advanced Analog Circuit Design L T P Credits 3 1 0 4 UNIT I Introduction. Difference in design considerations for discrete and integrated electronic circuits passive and components available in biopolar and MOS technology brief review of integrated NPN, PNP, lateral PNP, MOSFETS structures, characteristics models. UNIT II Basic building blocks of Bipolar and MOS analog ICS. Differential amplifier, current sources, current mirrors and current repeaters, voltage references, active loads, level shifters, output stages, voltage to current converters, differential to single ended converters. UNIT III IC Op-Amp Architectures. Bipolar op-amp (IC 741) and its DC and small signal ac analysis (voltage gain Zin, Z0 GBP and slew rate), MOS op-amp architectures. IC analog multipliers: Translinear Circuit Principle, Gilbert multiplier cell, (Transconductance multiplier), two and four quadrant multipliers. UNIT IV Novel Amplifier Architectures IC operational transconductance amplifier (OTA), Integrated Norton amplifiers, Current feedback amplifiers, operational transresistance amplifiers (OTRA), current conveyors and their different variants etc. Recent trends in Analog Circuit design. Text Books/Reference Books: 1. Microelectronic Circuits: Theory and Applications, Adel S. Sedra, Kenneth C. Smith, Oxford University Press, 6th edition, 2013 2. Applications and Design with Analog Integrated Circuits, Jacob J. Michael, Prentice-Hall, 2nd edition,1996 3. Design with Operational Amplifiers And Analog Integrated Circuits, Sergio Franco, Tata McGraw-Hill Publishing Company, 3rd edition, 2002 4. Design Of Analog CMOS Integrated Circuits, Behzad Razavi, Tata Mcgraw-Hill Publishing Company, 2002. 5. Analog Integrated Circuit Design, David A Johns (Author), Kenneth W Martin, Wiley, 2011. 6. Entrepreneurship and New Venture Creation, V Sharma, A. Sahay, Excel Books, 1st edition, 2012 EL-404-4 Restructured Power Systems L T P Credits 3 1 0 4 UNIT I Fundamentals of restructured system, market architecture, load elasticity, social welfare maximization. UNIT II OPF: Role in vertically integrated systems and in restructured markets, congestion management, optimal bidding, risk assessment and hedging, transmission pricing and tracing of power. UNIT III Ancillary services, standard market design, distributed generation in restructured markets, developments in India, UNIT IV IT applications in restructured markets, working of restructured power systems, PJM. Text Books/Reference Books: 1 Understanding Electric Utilities and Deregulation, L. Philipson and H. Lee Willis, Marcel Dekker, 1998. 2 Operation of restructured Power Systems, Kankar Bhattacharya. Math Bollen and J. E. Daadler, Kluwer, 2001. 3 Restructured Electrical Power Systems, M. Shahidepour and M. Alomoush, Marcel Dekker, 2001. 4 Restructured Power Systems: Engineering and Economics, A. Kumar David, F. S. Wen, Springer-Verlag New York Inc. 2007 5 Restructured Power Systems, S.A. Khaparde, A. R. Abhyankar, Alpha Science International Ltd,2013 6 Restructured Electric Power Systems: Analysis of Electricity Markets with Equilibrium Models, Xiao-Ping Zhang, Wiley-IEEE Press, 1st edition, 2011 EL-404-5 Intellectual Property Rights and Entrepreneurship L T P Credits 3 1 0 4 UNIT I Basic Principles and acquisition of Intellectual Property Rights. Philosophical aspects of intellectual property laws, basic principles of patent law, patent application procedure, drafting of a patent specification, understanding copyright law, basic principles of trade mark, basic principles of design rights, international background of intellectual property. UNIT II Ownership and Enforcement of Intellectual Property Rights. Patent objectives, rights, assignments, defenses in case of infringement. UNIT III Entrepreneurship. Entrepreneurial perspective, start - up strategies, business idea evaluation, business plan writing, introduction to entrepreneurial finance and venture capital, managing growth and delivering innovative products, entrepreneurial opportUNIT ies, technologies, business models and personalities, benefit and /or negative impact to creating the new business (risk tolerances, comfort in low data situations, ability to sell), (judgment, ability to coordinate with many), (scope, risk, return expectation). EEE-32 Text Books/Reference Books: 1. Intellectual Property Rights, Prabuddha Ganguli, Tata Mcgraw Hill,2013 2. Intellectual Property Rights: Creation, Development, and Protection (Strategic Management), OConnor, Business Expert Press, 2012 3. Intellectual Property Rights: Text and Cases, R. Radhakrishnan and S. Balasubramanian, Excel Books,2008 4. Intellectual Property Rights: Basic Concepts, M. M. S. Karki, Atlantic,2009. 5. Intellectual Property Rights: A Primer, Anita Rao, Bhanoji V. Rao, Eastern Book Co, 2010 EL-404-6 Biomedical Instrumentation L T P Credits 3 1 0 4 UNIT I Introduction to Bio-Medical Instrumentation Systems. Specifications of bio-medical instrumentation system, man-instrumentation system components, problems encountered in measuring a living system, basics of anatomy and physiology of the body. Bioelectric potentials: resting and action potentials, propagation of action potential, The physiological potentials ECG, EEG, EMG, ERG, EOG and evoked responses UNIT II Electrodes and Transducers. Electrode theory, bio - potential electrodes, surface electrodes, needle electrodes, microelectrodes, bio-medical transducer. Cardiovascular Measurements: Electrocardiography, ECG amplifiers, electrodes and leads, ECG recorders, single channel, three channel, vector cardiographs, ECG System for Stresses testing, Holter recording, blood pressure measurement, heart sound measurement, pacemakers and defibrillators. UNIT III Patient Care Monitoring. Elements of intensive care monitoring, displays, diagnosis, calibration and reparability of patient monitoring equipment. Respiratory system Measurements: physiology of respiratory system, measurement of breathing mechanism, spirometer, respiratory therapy equipments, inhalators, ventilators and respirators, humidifiers, nebulizers and aspirators. UNIT IV Nervous System Measurements Physiology of nervous system, Neuronal communication, Neuronal firing measurements. Ophthalmology Instruments: Electroretinogram, Electrooculogram, Ophthalmoscope, Tonometer for eye pressure measurement. Diagnostic techniques: ultrasonic diagnosis, eco-cardiography, eco - encephalography, ophthalmic scans, X-ray and radio-isotope diagnosis and therapy, CAT-Scan, emission computerized tomography, MRI. UNIT V Bio-Telemetry. Components of a bio-telemetry system, implantable UNIT s, telemetry for ECG measurements during exercise, for Emergency patient monitoring. prosthetic devices and therapies: hearing aides, myo-electric arm, dia - thermy, laser applications in medicine. Text Books/Reference Books: 1. Bioinstrumentation, John G. Webster, John Wiley Sons,2008. 2. Biomedical Instrumentation and Measurements, Cromwell Leslie, Weibell Fred J. Pfeiffer Eric A, Prentice - Hall, 2nd edition, 1990 3. Introduction to Biomedical Equipment Technology, Joseph J. Carr, John M. Brown, Pearson Education, 2002. 4. Analysis and Application of Analog Electronic Circuits to Biomedical Instrumentation, Robert B. Northrop, CRC Press, 2nd edition, 2012 5. Biomedical Instrumentation: Technology and Applications, R. S. Khandpur, McGraw-Hill Professional,2004 6. Biomedical Electronics and Instrumentation, S K Venkata Ram, Galgotia Publications Pvt Ltd, 2000 7. A Textbook of Medical Instruments, S. Ananthi, New Age International Pvt Ltd Publishers,2006 EL-404-7 Advanced Control Systems L T P Credits 3 1 0 4 UNIT I Non-Linear Systems. Types of non-linearity, typical examples, equivalent linearization describing functions, phase plane analysis, limit cycle, concept of stability and various methods for study of stability of non-linear systems UNIT II Non-Linear System control. Various notions of stability, stability techniques of Lyapunov and Popov, nonlinear controller design using feedback linearization and back stepping method, introduction to variable structure control systems. UNIT III Classification of Adaptive control : Auto tuning and Self Tuning Regulators (STR), Model Reference Adaptive control (MRAC), types of STR and MRAC, different approaches to self-tuning regulators, stochastic adaptive control, gain scheduling. UNIT IV Application of Adaptive control. Recent trends in self - tuning, stability, convergence and robustness studies, model updating, general purpose adaptive regulator, applications to process control. EEE-33 UNIT V Identification. On line identification using recursive least squares, minimum variance algorithm, stochastic approximation and maximum likelihood method, simultaneous state and parameter estimation, extended Kalman filter, two stage identification methods, nonlinear identification, model reference adaptive control. Text Books/Reference Books: 1. Adaptive Control: Stability, Convergence and Robustness, Shankar Sastry and Marc Bodson, Dover Publications Inc. 2011 2. Adaptive Control, Karl J. Astrom and Bjoran Wittenmark, Pearson Education. 2nd edition ,2003. 3. Adaptive Control Systems: Techniques and Applications, V. V.Chalam, CRC Press, 1987 4. System Identification: Theory for the User, Lennart Ljung, Prentice Hall, 2nd edition,1998 5. Filtering and System Identification: A Least Squares Approach, Michel Verhaegen, Vincent Verdult, Cambridge University Press, 2012 6. Nonlinear System Identification: From Classical Approaches to Neural Networks and Fuzzy Models, Oliver Nelles, Springer, 2000 EL-314 Instrumentation L T P Credits 3 1 0 4 UNIT I Transducers-I. Definition, advantages of electrical transducers, classification, characteristics, factors affecting the choice of transducers, strain gauges, resistance thermometer, thermistors, thermocouples, LVDT, RVDT UNIT II Transducers-II. Capacitive, piezoelectric, Hall effect and opto electronic transducers. measurement of motion, force, pressure, temperature flow and liquid level. UNIT III Telemetry. General telemetry system, land line radio frequency telemetering system, transmission channels and media, receiver transmitter. Data Acquisition System: A/D and D/A converters, analog data acquisition system, digital data acquisition system, modern digital data acquisition system and signal conditioning. UNIT IV Display Devices and Recorders. Display devices, storage oscilloscope, DSO, spectrum analyzer, digital recorders. Recent Developments: Introduction to virtual and intelligent instrumentation, fibre optic transducers, smart sensors, smart transmitters, process instrumentation diagrams. UNIT V Programmable Logic Controllers. Evolution of PLC - sequential and programmable controllers, architecture and programming of PLC, relay logic and ladder logic, functional blocks, communication networks for PLC, field bus, profi - bus, mod-bus etc. Text Books/Reference Books: 1. Electronic Instrumentation and Measurement Techniques, W. D. Cooper and A. D. Helfrick, Prentice Hall International. 2. Measurement Systems Application and Design Ernest Doebelin, McGraw - Hill Higher Education, 5th edition, 2003 3. Instrumentation, Measurement and Analysis, B. C. Nakra K. Chaudhry, Tata Mc Graw Hill, 2nd Edition. 4. Advanced Measurements and Instrumentation, A. K. Sawhney, Dhanpat Rai Sons,2010 5. Process Control Instrumentation Technology, Curtis D. Johnson, Pearson, 6th edition, 1999. 6. Programmable Logic Controllers, Frank D. Petruzella McGraw-Hill Higher Education, 4th edition, 2010. EL-405 Microcontroller Embedded System Lab L T P Credits 0 0 3 3 Laboratory Practical Based on course work corresponding to Microcontroller Embedded Systems (EL-313) EL-406 Elective I lab L T P Credits 0 0 3 3 Laboratory Practical EL-407 Industrial Training L T P Credits 0 0 0 4 EL-408 Major Project(part-I) L T P Credits 0 0 0 4 EL-411 Utilization of Electrical Energy L T P Credits 3 1 0 4 UNIT I Illumination Essentials. Nature of light, visibility spectrum curve, luminous flux, solid angle, luminous intensity, illumination, luminous efficiency, depreciation factor, coefficient of utilization, space to height ratio, reflection factor, glare, shadow, lux. laws of illumination, construction and working of incandescent and discharge lamps, their characteristics, mercury vapour lamp, fluorescent lamp, metal halide lamp, neon lamp, street lighting, flood lighting, monument lighting and decorative lighting, light characteristics. LED lighting Design of Illumination Systems: equivalent circuit to an LED, voltage drop versus color and current. LED drivers - voltage source/ current source, linear power supplies, DC-DC power converters, power factor corrected converters, design and selection of components, magnetics transformers, magnetic saturation, EMI an EEE-34 EMC issues, thermal considerations, heat sinks, safety issues, calculation of number of light points for interior and exterior illumination, design problems, illumination levels, illumination for automobile systems. UNIT II Electric Heating. Advantages of electrical heating Heating methods Resistance heating direct and indirect resistance heating, eletctric ovens, their temperature range, properties of resistance heating elements, domestic water heaters and other heating appliances and thermostat control circuit Induction heating principle of core type and coreless induction furnace Electric arc heating direct and indirect arc heating, construction, working and applications of arc furnace Dielectric heating, applications in various industrial fields Infra-red heating and its applications, microwave heating. UNIT III Electric Welding. Spot welding, projection seam and butt welding and welding equipments used, principle of arc production, electric arc welding, characteristics of arc carbon arc, metal arc, hydrogen arc welding method of and their applications. power supply for welding, coated electrodes, comparison between AC and DC arc welding, high frequency welding, welding control circuits, welding of aluminium and copper introduction to TIG, MIG welding. UNIT IV Electrolytic Processes. Need of electro-deposition laws of electrolysis, process of electro-deposition - clearing, operation, deposition of metals, polishing, buffing equipment and accessories for electroplating factors affecting electro-deposition. principle of galvanizing and its applications, anodising and its applications, electroplating on non-conducting materials, manufacture of chemicals by electrolytic process, electrolysis for water purification. UNIT V Refrigeration and Air Conditioning and Water Coolers. Principle of air conditioning, vapour pressure, refrigeration cycle, eco-friendly refrigerants, description of electrical circuit used in a) refrigerator, b) air-conditioner, and c) water cooler, variable speed drive for compressors, high speed compressors, insta-chill, Peltier effect, thermoelectric cooling, sterling engines, solar concentrator heating and cooling, Text Books/Reference Books: 1. Utilization of Electric Energy in SI UNIT s, E. O. Taylor, Universities Press,1981 2. Generation Distribution and Utilization of Electrical Energy. C. L. Wadhwa, New Age International Publishers, 2010 3. Art and Science of Utilization of Electrical Energy by H Partap, Dhanpat Rai Sons. EL-412, ELECTIVE - II L T P Credits 3 1 0 4 Elective-II EL 412-1 Distributed Generation System EL 412-2 Switched Mode Power Supplies EL 412-3 Power Quality and Energy Conservation EL 412-4 Power System Operation and Control EL 412-5 Smart Grid EL 412-6 Non linear and Adaptive control EL 412-7 Power System Planning EL 412-8 Digital Image Processing EL 412-9 Electrical Storage Systems EL 412-10 Microwave Integrated Circuit EL-412-1 Distributed Generation Systems L T P Credits 3 1 0 4 UNIT I Distributed Generation. Electricity generation in transition, distributed generation with fossil fuels, concentrating solar power (CSP) technologies, biomass for electricity, micro - hydropower systems, fuel cells and wind energy based generation, asynchronous generators. UNIT II Control of Wind Energy Systems. Overview of wind turbine control systems, typical grid-connected turbine operation, supervisory control overview and implementation, dynamic control theory and implementation, Solar Photovoltaic Power System: solar commercial power plants, Energy Storage: various batteries and their equivalent electrical circuit, performance characteristics, battery charging, battery management, flywheel, compressed air and superconducting coil. UNIT III Stand-Alone System. PV stand-alone, wind stand-alone, hybrid system, hybrid with diesel, hybrid with fuel cell, mode controller, load sharing, system sizing, power and energy estimates, battery sizing, PV array sizing, wind farm sizing. UNIT IV Grid-Connected System. Interface requirements, synchronizing with grid, inrush current, synchronous operation, load transient, safety, operating limit, voltage regulation, stability limit, energy storage and load scheduling, utility resource planning tool, Electrical Performance: voltage current and power relations, component design for maximum efficiency, electrical system model, static bus impedance and voltage regulation, dynamic bus impedance and ripple, harmonics, quality of power, harmonic distortion, EEE-35 voltage transients and sags, voltage flickers, renewable capacity limit, system stiffness, interfacing standards, lightning protection. Economics of Distributed Resources UNIT V UPS Battery Energy Storage Systems. Uninterruptible power supplies, applications of ups systems, distributed approach, centralized approach, power factor correction in ups systems, battery energy storage systems, grid synchronization, storage power conditioning modes, wind and solar power systems. Text Books/Reference Books: 1. Integration of Distributed Generation in the Power System, Math H. Bollen, Fainan Hassan, Wiley-Blackwell, 2011. 2. Distributed Generation, Nick Jenkins, G. Strbac, J. B. Ekanayake, Institution of Engineering and Technology, 2009 3. Wind and Solar Power Systems: Design, Analysis, and Operation, Mukund R. Patel, CRC Press, 2nd edition, 2005 4. Renewable and Efficient Electric Power Systems, Gilbert M. Masters, Wiley-Blackwell, 2nd edition, 2013 5. Power Quality: Mitigation Technologies in a Distributed Environment, Antonio Moreno-Muoz, Springer,1st edition, 2010. 6. Variable Speed Generators, Boldea Ion, CRC Press, 2012. EL-412-2 Switched Mode Power Supplies L T P Credits 3 1 0 4 UNIT I Introduction. Classification of Power Supplies, Basic Functions of Voltage Regulators, Power Relationships in DC DC Converters, Topologies of PWM DCDC Converters. UNIT II Buck, Boost PWM DCDC Converter. Analysis of PWM Buck, Boost Buck-Boost Converter. Design of Buck, Boost Buck-Boost Converters. Power Losses and Efficiency of Buck, Boost Buck-Boost Converters. UNIT III Flyback and Forward PWM DCDC Converter. Introduction, Transformers, DC Analysis of PWM Flyback and Forward Converter, Boundary between CCM and DCM, Ripple Voltage in Converter, Power Losses and Efficiency of Converter, Multiple-output Converters, Bidirectional Converter. UNIT IV Half, Full-bridge Push-Pull PWM DCDC Converter. Introduction, DC Analysis of PWM Half, Full-bridge Push Pull Converter, Boundary between CCM and DCM, Ripple Voltage in Converters, Power Losses and Efficiency of Converters, Phase-controlled Full-bridge Converter, Comparison of PWM DCDC Converters. UNIT V Soft-switching DCDC Converters. Introduction, Zero - voltage-switching DCDC Converters, Buck ZVS Quasi - resonant DCDC Converter, Multi resonant Converters. Text Books/Reference Books: 1. Pulse-width Modulated DCDC Power Converters, Marian K. Kazimierczuk, John Wiley Sons, 2008. 2. Switch-Mode Power Supplies Spice Simulations and Practical Designs, Christophe Basso, Mc-Graw Hill, 2008 3. Switching Power Supply Design, Abraham Pressman, Keith Billings and Taylor Morey, Mc Graw Hill, 2009 4. Switch-Mode Power Supply Simulation: Designing with SPICE, Steven M. Sandler, McGraw-Hill, 2005 5. Switch-Mode Power Converters: Design and Analysis, Keng C. Wu, Elsevier Science Publishing, 2005 6. Switch Mode Power Conversion, K. Kit Sum, Marcel Dekker, 1984 EL 412-3 Power Quality and Energy Conservation L T P Credits 3 1 0 4 UNIT I Overview of Power Quality. Classification of power quality issues, characterization of electric power quality, power acceptability curves power quality problems: poor load power factor, non linear and unbalanced loads, dc offset in loads, notching in load voltage, disturbance in supply voltage, flicker, transient phenomenon, voltage fluctuations, sags/swells, voltage unbalance, power quality indices, distortion index, C-message index, IT product, IEEE guides and recommended practices. UNIT II Measurement and Analysis Methods. Voltage, current, power and energy measurements, power factor measurement and definitions, event recorders, measurement error, analysis in the periodic steady state, time domain method, frequency domain methods, Fourier and Hartley transform, Welsh Transform, Wavelet Transform, time domain methods, Instantaneous Reactive Power Theory, Synchronous Frame Theory, Synchronous Detection Method, instantaneous symmetrical components, Instantaneous real and reactive powers UNIT III Harmonics Voltage Fluctuations. Sources and effect of harmonics and inter harmonics, current injection methods, harmonic power flow studies using Newton-Raphson method, application of power flow studies, voltage fluctuations, flicker and impulses, high frequency issues, common mode and transverse mode noise, flicker calculations, effect of EEE-36 voltage fluctuations and impulses, occurrence and causes of voltage unbalance, standardization, decomposition into symmetrical components. UNIT IV Power Quality Improvement. Utility - Customer interface, harmonic filter: passive, active and hybrid filter, phase multiplication methods and transformer connections, network reconfiguring devices, load compensation using DSTATCOM, voltage regulation using DSTATCOM, uninterruptible power sources, BESS, protecting sensitive loads using DVR, UPQC. UNIT V Energy Audit and Conservation. Energy audit concepts, need and types of energy audit, mass and energy balances, energy management (audit) approach, energy audit instruments bench marking, energy performance, matching energy use to requirement, energy conservation act duties and responsibilities of energy manager and auditors. some case study examples. Text Books/Reference Books: 1. Power Quality Enhancement Using Custom Power Devices, Arindam Ghosh, Gerard Ledwich, Springer, 2002. 2. Power Quality: VAR Compensation in Power Systems R. Sastry Vedam, Mulukutla S. Sarma, CRC Press, 2008 3. Power System Quality Assessment J. Arrillaga, N. R.Watson, S. Chen, Wiley India Pvt Ltd, 2011 4. Understanding Power Quality Problems: Voltage Sags and Interruptions, Math H. J. Bollen, Wiley India Pvt Ltd, 2011 5. Power Quality: Mitigation Technologies in a Distributed Environment, A Moreno Munoz, Springer India Private Limited 2007 6. Power Quality, C. Sankaran, CRC Press, 2001 7. Electric Power Quality, Surajit Chattopadhyay, Madhuchhanda Mitra, Samarjit Sengupta, Springer, 2011 8. Handbook on Energy Audit and Environment Management, Y.P. Abbi, Shashank Jain, The Energy and Resources Institute, TERI, 2009 EL-412-4 Power System Operation Control L T P Credits 3 1 0 4 UNIT I Load Frequency Control. Concept of load frequency control, load frequency control of single area system, effect of governor droop and load damping, block diagram representation of single area system, steady-state frequency error, dynamic response, supplementary control of generating UNIT s (PI control), concept of control area, load frequency control of two area system, tie line control, concept of area control error, block diagram representation of two area system, static and dynamic response. UNIT II Power System Stability: Stability and stability limit, steady state stability study, derivation of swing equation, transient stability studies by equal area criterion and step-by-step method, factors affecting steady state and transient stability and methods of improvement. UNIT III Reactive Power Control: Schematic diagram and block diagram representation, different types of excitation systems, regulating transformers and tap changing, reactive power control, introduction and use of FACTS Controllers. UNIT IV Power System State Estimation State estimation: detection and identification, linear and non-linear models, use of Phasor Measurement UNIT. Text Books/Reference Books: 1. Power Generation, Operation and Control, A. J. Wood and B. F. Wollenberg, John Wiley and Sons, 2011. 2. Power System Analysis, A. R. Bergen and V. Vittal, Pearson, 2006. 3. Power System Stability and Control, P. Kundur, TMH,2006 4. Power System Analysis, J. Grainger and W. D. Stevenson, TMH, 2006. 5. Electric Energy Systems Theory An Introduction, Olle. I. Elgerd, Tata McGraw Hill Publishing Company Ltd, New Delhi, Second Edition, 2003. 6. Flexible AC Transmission Systems, N. G. Hingorani and L. Gyugyi, Wiley India, 2010. 7. Operation and Control in Power Systems, P. S.R. Murthy, BS Publications, Hyderabad. EL -412-5 Smart Grid L T P Credits 3 1 0 4 UNIT I Introduction: Structure and Fundamental Problems of Electrical Power Systems, Principles of Electrical Power Control, Classical Power Theory Instantaneous Power Theory Power, Flow Control, Distributed Generation and Energy Storage Benefits to Grids, Solutions of Control in Smart Power Systems, Damping of the System Oscillations, Power Quality Control, Fully Integrated Power System-The Smart Grid, Smart Electrical Energy Networks Concept - Microgrids Picogrids. UNIT II Distributed Generation and Microgrid. Active distribution network, Microgrid configuration, Interconnection of Microgrids, Technical and economical advantages and challenges of Microgrid, Distribution system issues of EEE-37 Microgrid, Power quality, Operational issues of a Microgrid, Dynamic interactions of Microgrid with main grid, Ride through, Grid Synchronization, syncrophasors. UNIT III Distributed Energy Resources. Variable and Adjustable Speed Generation Systems (SEIG DFIG), Wind energy conversion systems (WECS), Grid Integration of Wind Energy Systems, Power Curves of WECs, Grid Coupling, Reactive Power Requirements, Power Fluctuations, Harmonics and Flicker, Offshore Wind Energy systems, Grid Integration of Photovoltaics and Fuel Cells, Grid Interfacing and Islanding Detection, Dynamics of Small-scale hydroelectric power generation, Other renewable energy sources, Dynamics of Storage Systems, Special cases-Superconducting Magnet Energy Storage Supercapacitors, Application of Energy Storage Devices. UNIT IV icrogrid and Active Distribution Network Management System. Network management needs of Microgrid, Microsource generation control, Domestic process control, Energy storage, Regulation and load shifting, Microsource controller, Integrated Communications Architecture, Energy Management, Demand-side Management, Dynamic Energy Management, Decentralized Operation, Protection co - ordination. UNIT V Protection issues for Microgrids. Different islanding scenarios, Major protection issues of stand-alone Microgrid, Single generator and Generator operating in parallel with other generators on an isolated network, Microgrid distribution system protection, Protection of Microsources, Overcurrent protection of the generator intertie, Negative sequence overcurrent protection, Directional control, Earth fault overcurrent protection, Distribution transformer protection, Under/overvoltage protection, Under/ overfrequency protection, Reverse power relay, Unbalanced loading, Loss of mains protection, Rate of change of frequency, Vector shift, Neutral grounding requirements. UNIT VI ower Electronic Interfaces: Overview of Power converter and Controls, PWM Rectifiers, Two level and Multi - level Converters, Neutral Point Clamped Voltage Source Converter(VSC), Space Vector PWM, Z-source Converters, Operation Principle of the Voltage Z-inverter, Three-level and Four-wire Inverters with Z-source, Grid-Imposed Frequency VSC System - Control in dq-frames, D-STATCOM, SSSC, UPFC, Back-to-Back HVDC Conversion System, Interconnection with a Hosting Grid Parallel Operation, Integration and Interconnection Concerns, Voltage and Current Control of a 3-Phase 4 Wire distributed Interface Converters in Islanded Mode. UNIT VII Power Quality and Reliability issues of Distributed Generation(DG): Power quality disturbances Transients, Voltage sags and swells, Over-voltages and under-voltages, Outage, Harmonic distortion, Voltage notching, Flicker, Electrical noise, Power quality sensitive loads, Existing power quality improvement technologies - Preventive(Alternative power supplies) technologies, Curative(Power-conditioning technologies), Load compensation, Voltage regulation, Harmonic Filtration and Balancing of the Voltage in Three-wire Systems, Dynamic Voltage Restorer, Primary Secondary DG system with power quality support, Soft grid-connected DG, DG with intermittent solar PV, DG with intermittent wind generator, Controllers with Energy-storage Systems, Ultra-high reliability scheme using dual link DC bus, Issues of premium power in DG integration. UNIT VIII SCADA and Active Distribution Networks: Overview of Existing Distributed Network operator (DNO) SCADA systems, Control of DNO SCADA systems (Centralised Distributed), Requirement of Communication in Microgrids, SCADA in Microgrids, SCADA communication infrastructure, Distributed control system (DCS), Microgrid Control, Sub - station communication standardisation, smart appliances, smart transformers, Online Condition monitoring, SCADA communication and control architecture, Automated Meter Reading, Communication devices and Media, operational issues of Serial Communication, Broadband Powerline Communiation, Optical Wireless Communication. 1. Microgrids and Active Distribution Network S. Chowdhary, P. Crossley, IET 2009 2. Embedded Generation-Nick Jenkins, Nicolas Jenkins 3. Power Electronics in Smart Electrical Energy Networks - R. Strzelecki, G. Benesek ( Springer) 4. Voltage Sourced Converters in Power Systems: Modeling, Control, and Applications - Amirnaser Yazdani Reza Iravani, John Wiley Sons, Inc (2010) EL-412-6 Non-Linear and Adaptive L T P Credits 3 1 0 4 UNIT I Non-Linear Systems: - Types of non-linearity, typical examples, equivalent linearization describing functions, phase plane analysis, limit cycle, concept of stability and various methods for study of stability of non-linear systems UNIT II Non-Linear System control :- Various notions of stability. Stability techniques of Lyapunov and Popov. Nonlinear controller design using feedback linearization and back stepping method. Introduction to variable structure control systems. EEE-38 UNIT III Classification of Adaptive control:- Introduction-users - Auto tuning-Self Tuning Regulators (STR)-Model Reference Adaptive control (MRAC)-Types of STR and MRAC-Different approaches to self-Tuning regulators-Stochastic Adaptive control-Gain scheduling. UNIT IV Application of Adaptive control:- Recent trends in Self - tuning-Stability-Convergence and Robustness studies-Model Updating General Purpose Adaptive regulator-Applications to process control. UNIT V: Identification. On line identification using recursive least squares, minimum variance algorithm, stochastic approximation and maximum likelihood method. Simultaneous state and parameter estimation extended kalman filter, two stage identification methods. Nonlinear identification, Model reference adaptive control. Text Books/Reference Books: 1. Karl J. Astrom and Bjoran Wittenmark, Adaptive Control, Pearson Education. Singapore, second Edition ,2003. 2. TCHA Hsia, System Identification LexingtonHooks 1974 EL-412-7 Power System Planning L T P Credits 3 1 0 4 Introduction - Power planning, power system development and growth, power sources, planning tools, Electricity regulations. Electricity Forecasting. Generation Planning. Transmission and distribution network planning. New operation and planning policies. Allocation of reserve. Demand side bidding. Pricing schemes. Competitive electricity markets. Environment effects. Technology and Innovation (Modern Trends). Text Books/Reference Books: 1. Sullivan-Power System Planning. 2. Pabla, A. S. Electric Power System Planning, Macmillan, India. EL-412-8 Digital Image Processing L T P Credits 3 1 0 4 UNIT I Introduction. Digital image fundamentals, digital image through scanner, digital camera, concept of gray levels, gray level to binary image conversion, sampling and quantization, relationship between pixels, imaging geometry. UNIT II Image Transforms. 2-D FFT, properties, Walsh transform, Hadamard transform, discrete cosine transform, Haar transform, Slant transform, Hotelling transform. UNIT III Image Processing Image enhancement, point processing, histogram processing, spatial filtering, enhancement in frequency domain, image smoothing, image sharpening. Colour image processing: Pseudo colour image processing, full colour image processing. UNIT IV Image Restoration and Segmentation Image restoration degradation model, algebraic approach to restoration, inverse filtering, least mean square filters, constrained least squares restoration, interactive restoration. Image segmentation: detection of discontinuities, edge linking and boundary detection, thresholding, region oriented segmentation. UNIT V Image Compression. Image compression redundancies and their removal methods, fidelity criteria, image compression models, source encoder and decoder, error free compression, lossy compression. Text Books/Reference Books: 1. Digital Image processing, R. C. Gonzalez, R. E. Woods, Addison Wesley, 2nd edition, 2002. 2. Digital Image Processing, William K. Pratt, John Wiley, 3rd edition, 2004. 3. Fundamentals of Electronic Image Processing, Weeks Jr. PHI. 4. Fundamentals of Digital Image Processing, A. K.Jain, PHI. EE 412-9 Electrical Storage Systems L T P Credits 3 1 0 4 UNIT I Battery. Introduction, energy storage parameters, leadacid batteries constructional features, battery chargedischarge cycles operating limits and parameters, maintenance, sizing, types, applications, performance measurement, charging and discharging of a battery, storage density, energy density, and safety issues in lead-acid, nickel-cadmium, zinc manganese dioxide batteries, modern batteries as zinc-air, nickel hydride, lithium battery, flow batteries. UNIT II Valve Regulated Lead Acid Batteries. The valve-regulated battery, valve-regulated battery, heat management in leadacid batteries, heat generation, heat dissipation, lead alloys for valve-regulated leadacid batteries, hardening mechanism in leadcalcium alloys, aluminum addition, formation of structure of positive and negative active masses, manufacture of leadacid battery plates, soaking and formation phenomena, positive-plate additives to enhance formation and battery performance, modeling the effects of additives, conductive additive, negative-plate additives, function of the separator in the VRLA battery, characteristics of absorptive glass materials, separator properties and function, separator materials, applications EEE-39 in automotive applications, telecommunications and UPS Applications, remote-area power-supply systems(RAPS), recovery and recycling of leadacid batteries UNIT III Ultra Capacitors / Super Capacitors. Introduction, double - layer ultra capacitors, high-energy ultra capacitors, rating, size and applications, super capacitors, basic components of super capacitors, several types of electrodes and electrolytes, electrode materials, high surface area activated carbons, metal oxide, conducting polymers, types of electrolyte, disadvantages, advantages of super capacitors, comparison with battery systems, applications in public transport vehicles, private vehicles, and consumer electronics, aspects of energy density, power density, price, and market. UNIT IV Fuel Cell. Fuel cells for direct energy conversion by electro chemical means, focus on the maximum intrinsic efficiency of an electrochemical converter, physical interpretation of the Carnot efficiency factor, electro chemical energy convertors, power outputs, types of fuel cells, hydrogen oxygen cells, hydrogen air cell, hydrocarbon air cell, alkaline fuel cell, and phosphoric and fuel cell, detailed analysis of the advantages and drawbacks. Other Storages: pumped hydroelectric energy storage, storage capabilities of pumped systems, compressed air energy storage, storage heat. energy storage as an economic resource, flywheels, advanced performance of flywheels, applications of flywheels, design strategies, superconducting magnetic storage system, SMES system capabilities. developments in SMES systems. UNIT V Power Electronics for Charging Control. Battery management systems, battery data acquisition, battery state-of-charge, control of charge and discharge, multiple battery systems, thermal management of batteries, safety management of batteries, charging techniques for VRLA batteries, constant-voltage charging, constant-current charging, constant voltageconstant current combinations, taper-current charging, pulsed-current charging, charging of VRLA products, oxygen cycle and saturation effects, overcharge processes, ac-dc and dc-dc converters, isolated converters, multi pulse converters, multilevel converters, P2 cell, resonant converters, protection circuits, charger design and calculation of losses. Text Books/Reference Books: 1. Valve-regulated LeadAcid Batteries, D. A.J. Rand, P. T. Moseley, J. Garche and C. D. Parker, Elesevier, 2004 2. Energy Storage Systems in Electronics-New Trends in Electrochemical Technology, Tetsuya Osaka, Madhav Datta, CRC Press, 2000 3. Industrial Applications of Batteries from Cars to Aerospace and Energy Storage, M. Broussely, G. Pistoia, Elsevier, 2007. 4. Lithium Batteries Science and Technology, G. A. Nazri and G. Pistoia. Kluwer Academic Publishers, 2004. 5. Fuel Cell Systems Explained, James Larminie, Andrew Dicks, Wiley-Blackwell, 2nd edition, 2003 EE-412-10 Microwave Integrated Circuits L T P Credits 3 1 0 4 UNIT I Active RF Component Modeling. Diode models, transistor models, large and small signal BJT and FET models, measurement of active devices, S-parameter device characterization. UNIT II Amplifier Design. Unilateral and non-unilateral design, one stage and multistage design low noise amplifiers high power amplifiers, balanced amplifiers feedback. design examples, small-signal distributed amplifiers. Oscillator Design: Resonators, dielectric resonators, YIG resonators, varactor resonators, resonator measurements, two-port oscillator design, low-noise design, non-linear oscillator models. UNIT III Mixer Design. Diode mixer theory, single diode mixers, single-balanced mixers, double balanced mixers, FET mixer theory, balanced FET mixers, spectral mixer circuits, image rejection mixer, single side band modulator performance, simple sub harmonically pumped mixer circuit configuration. UNIT IV Filter Design. Filter design by the insertion loss method, filter scaling and transformations, low pass and high-pass filters using transmission line stubs, stepped-impedance low-pass filters, band pass filters using transmission line resonators. UNIT V MIC Design. Integrated microwave workstation approach, nonlinear tools, filed drivers design, designing non-linear circuits using the harmonic balanced method. programmable microwave tuning system, introduction to MMIC considering layout effects, microwave integrated circuit components. Text Books/Reference Books: 1. Microwave circuits design using linear and nonlinear techniques, George. D.Vandeling, Anthony M. Pavis and Ulrich L. Rohde, John Wiley and Sons 1990. 2. Microwave Circuits and analysis and amplifier design, Samuel T. Liao, PHI, 1987. 3. Microwave and RF Design of Wireless Systems, Davis M. Pozar, John Wiley and Sons. 4. RF Circuit Design, Ludwig and Bretchko, Pearson Education. EEE-40 EL-413 Open Elective - II L T P Credits 3 1 0 4 Open Elective II EL 413-1 Database Management System EL 413-2 Operating System Design EL 413-3 Nuclear Engineering and Pulse Power System EL 413-4 Active Passive Networks Synthesis EL 413-5 Computer Control of Processes EL 413-6 Power Plant Engineering EL 413-7 Artificial Intelligence and Expert Systems EL 413-8 Digital System Design EL 413-9 Filter Design EL 413-10 VLSI Design EL 413-11 Antenna and Wave Propagation EL-413-1 Data Base Management Systems L T P Credits 3 1 0 4 UNIT I Introduction. An overview of database management system, database system vs file system, database system concept and architecture, data model schema and instances, data independence and database language and interfaces, data definitions language, DML, overall database structure. UNIT II Data Modeling using the Entity Relationship Model ER model concepts, notation for ER diagram, mapping constraints, keys, concepts of super key, candidate key, primary key, generalization, aggregation, reduction of ER diagrams to tables, extended ER model, relationship of higher degree. Relational data Model and Language:Relational data model concepts, integrity constraints, entity integrity, referential integrity, keys constraints, domain constraints, relational algebra, relational calculus, tuple and domain calculus. UNIT III Introduction to SQL Characteristics of SQL, advantage of SQL, SQL data type and literals, types of SQL commands, SQL operators and their procedure, tables, views and indexes, queries and sub queries, aggregate functions, insert, update and delete operations, joins, unions, intersection, minus, cursors, triggers, procedures in SQL/PL SQL UNIT IV Data Base Design Normalization Functional dependencies, normal forms, first, second, third normal forms, BCNF, inclusion dependence, loss less join decompositions, normalization using FD, MVD, and JDs, alternative approaches to database design. Transaction Processing Concept: Transaction system, testing of serializability, serializability of schedules, conflict view serializable schedule, recoverability, recovery from transaction failures, log based recovery, checkpoints, deadlock handling. Distributed Database: distributed data storage, concurrency control, directory system. UNIT V Concurrency Control Techniques. Concurrency control, locking techniques for concurrency control, time stamping protocols for concurrency control, validation based protocol, multiple granularity, multi version schemes, recovery with concurrent transaction, case study of Oracle. Text Books/Reference Books: 1. An Introduction to Database Systems, C. J. Date, A. Kannan, S. Swamynathan, Pearson Education,8th edition, 2012 2. Database System Concepts, Abraham Silberschatz, Henry F. Korth, S. Sudarshan, Mc Graw-Hill Higher Education, 6th edition, 2010 3. Fundamentals of Database Systems, Ramez Elmasri, Shamkant Navathe, Addison Wesley, 6th edition, 2010 4. Database Management Systems, A Leon, Tata McGraw Hill Education,2008 5. Database Management System, Arun Majumdar, Pritimoy Bhattacharyya, Mc Graw-Hill Education, 2001 6. Database Management Systems, Raghu Ramakrishnan, Johannes Gehrke, McGraw-Hill Higher Education, 3rd edition, 2002. EL-413-2 Operating System Design L T P Credits 3 1 0 4 UNIT I Operating System An Overview Introduction to OS Mainframe systems Desktop systems Multiprocessor systems Distributed systems Clustered systems Real time systems Handheld systems. Computer system operation I/O structure Storage structure storage hierarchy Hardware protection Network structure. System components Operating system services System calls System programs System structure Virtual machines System design and implementation System generation. UNIT II Process Management Process concept Process scheduling Operating on processes cooperating processes inter process communication communication in client server systems. Threads Overview Multithreading models Threading issues, Basics concepts Scheduling criteria Scheduling algorithms Multiple processor scheduling real time scheduling process scheduling models. The critical section problem Synchronization hardware - Semaphores Classic problems of synchronization critical regions Monitors - Atomic transactions. System model Deadlock characterization Methods for handling deadlocks Deadlock prevention Deadlock avoidance Deadlock detection Recovery from dead lock. EEE-41 UNIT III Storage Management Background swipping contiguous memory allocation Paging Segmentation Segmentation with paging. Background Demand paging Process creation Page replacement allocation of frames Thrashing. File concept: Access methods Directory structure File system mounting File sharing Protection. File system structure - file system implementation Directory implementation Allocation methods free space management Efficiency and performance Recovery. UNIT IV I/O Systems. I/O hardware - Application I/O interface Kernel I/O subsystem Transforming I/O to hardware operations Streams Performance. Disk structure Disk scheduling Disk management Swap-space management RAID structure Disk attachment Stable - Storage implementation Tertiary storage structure. UNIT V Distributed Systems. Background Topology Network types Communication communication protocols Robustness Design issues. Naming and transparency Remote file access Stateful versus stateless service File replication. Event ordering Mutual exclusion Atomicity Concurrency control Deadlock handling Election algorithms Reaching agreement. Text Books/Reference Books: 1. Operating System Concepts, Abraham Silberschatz, Peter Baer Galvin, Greg Gagne, John Wiley Sons,8th edition, 2009 2. Operating Systems, Harvey M. Deitel, Paul J. Deitel, David R. Choffnes, Prentice Hall, 3rd edition, 2003 3. Modern Operating Systems, Tanenbaum Andrew S, Prentice-Hall, 3rd edition, 2009 4. Operating Systems: Internals and Design Principles, William Stallings, Pearson Education, 6th edition,2009 EL-413-3 Nuclear Engineering and Pulse power System L T P Credits 3 1 0 4 UNIT I Introduction to Nuclear Physics, Basics atomic structure, mass energy equivalence, Interaction of radiation with matter, nuclear reactions fission and fusion, Energy released in reactions, Particle Accelerators, Electrical Magnetic Forces, High Voltage Machines, Linear Accelerators, Cyclotron, Betatron, Synchrotron, Collider, Spallation, Isotope sepaerators, Gasseous Diffusion laser isotope seperators, Mass Spactrography, Seperation of Deuterium, Neutron detectors, Scintilation Detector, Solid state Detectors. UNIT II Heat generation and heat removal from the reactor, steam - cycles, types of Thermal Reactors: Boiling Water, Pressurized water reactors, CANDU, High temperature gas cooled reactor, superheat in water reactor Fast Breeder Reactors, Nuclear power plant layout, Graphite Reactors, Magnox reactor, RBMK, High temperature gas reactor, Breeder Reactor, Isotope Production and Consumption, Fast Breeder reactors, Integral fast reactors, Gas Cooled fast reactor, Lead cooled fast reactor, Molten salt reactor, Sodium colled fast reactor, Supercritical water cooled reactor, Breeding Uranium resources, Fusion reactors, Comparison of Fusion reactors, Magnetic and Inertial confinement machines, Other Fusion concepts. UNIT III Nuclear power station operation, Primary Reactor Coolant Pump, High-pressure injection pump, Filling pump, Residual heat removal pump, auxiliary feed water pump, Moisture separator drain pump, Condensate booster, Feed water pump, Sodium Pump, Instrumentation and control, Irradiation effects, effects of temperature, Fuel cycles, instability, reactor control, start up and shunt down, reactor safety, reactor power level measurement, safety circuits, Radiation Shielding. UNIT IV Pulse Discharge Capacitors, Marx Generators, Classical Marx Generators, LC Marx Generator, Pulse Transformers, Generators with Tesla transformers, Autotransformers, Line pulse transformers, Transformers using long lines, Basic Pulsed-Power Energy Transfer Stage, Inductive Energy Storage, Power and Voltage Multiplication, Rotors and Homopolar Generators, Gas Switches, Magnetic switches, Summery, Mechanical Interrupters, Superconducting Opening Switches, Plasma Opening Switches, Voltage adding, Blumlein generators, cumulative Pulse Lines, Single Pulse Generators, KALIF, PBFA 2 and the Z - Machine. Repetitive Generators, RHEPP, Generators. UNIT V Semiconductor closing switches, Microsecond thyristors. Nanosecond thyristors. Picosecond thyristors Laser - activated thyristors. Semiconductor Opening Switches(SOS), Operation of SOS diodes, SOS-diode-based nanosecond pulse devices, Pulse power generators in circuits with magnetic elements, Properties of magnetic elements in pulsed fields, Generation of nanosecond high-power pulses, Magnetic generators using SOS diodes, Long lines with nonlinear parameters, Formation of electromagnetic shock waves due to induction drag, Generation of nanosecond high-power pulses with the use of electromagnetic shock waves. UNIT VI Large cross section electron beams(LCSB), cathodes of LCSB diodes, Multipoint cathodes, Liquid-metal cathodes, Metal-dielectric cathodes, Explosive electron emission from a triple junction, Metal-dielectric cathode designs. Physical processes in LCSB diodes, Nanosecond beams LCSB of microsecond and longer duration, Designs of LCSB EEE-42 accelerators, Annular Electron Beams(AEB), Principle of operation of diodes, Device of electron guns for MICDs The cathode plasma in a magnetic field. Formation of electron beams. Dense Electron Beam their focusing, diode operation, Diodes with plane-parallel electrodes, Blade - cathode diodes, Focusing of electron beams, High-power x-ray pulses, high-power pulsed gas lasers, generation of high-power pulsed microwaves, generation of ultrawideband radiation pulses Text Book: 1. Raymond Murray, Nuclear Energy: an introduction to the concepts, systems, applications, Butterworth Heinmann, 2009 2. Gennady A. Mesyats, Pulsed Power, Springer, 2005 Text Books/Reference Books: 1. Samuel Glasstone Alexander Sesonske, Nuclear Reactor Engineering: Reactor Systems Engineering, Chapman Hall, 1994 2. Ronald Allen Knief, Nuclear engineering: theory and technology of commercial nuclear power, Taylor Francis, 1992 3. J. Kenneth Shultis Richard E. Faw, Fundamentals of Nuclear Science and Engineering, CRC Press, 2008 4. Janet Wood, Nuclear power, IET,2007 5. Hansjoachim Bluhm, Pulsed Power Systems: Principles and Applications, Springer,2006 EE-413-4 Active and Passive Network Synthesis L T P Credits 3 1 0 4 UNIT I Network Functions. Network function for one port and two port, calculation of network functions for Ladder networks and general networks, poles and zero of network functions, restrictions on pole and zeros locations for driving point functions and for transfer functions. time domain behavior from poles and zero plot, stability of achieve. UNIT II Networks. Elements of reliability theory, sensitivity and stability, positive real function elementary synthesis procedures. UNIT III Synthesis of One Port Networks with Two Kinds of Elements. Properties of L - C immittance functions, synthesis of L-C Driving point impedances, properties of R-C impedances and R-L, admittances properties of R-L impedances and R-C admittances, synthesis of certain R-L-C functions. UNIT IV Passive Network Synthesis Positive real function, driving point and transfer impedance function, necessary conditions for driving point and transfer function L-C network, synthesis of dissipative network, two terminal R-L and R-C networks. UNIT V: Active Networks State variable theory, operation of amplifier circuits, active RC synthesis, stability of active network, filter design. Text Books/Reference Books: 1. Active Integrated Circuit Synthesis, Robert W. Newcomb, Prentice Hall, 1969 2. Network Analysis and Synthesis, Franklin F. Kuo, Wiley India Pvt Ltd,2nd edition, 2006 3. Fundamentals of Network Analysis Synthesis, Behrouz Peikari, Jaico Publishing House, 1st edition, 2006 EL-413-5 Computer Control of Processes Credits 3 1 0 4 UNIT I Introduction to Process Control. Introduction to process control, basic control action ON /OFF, P, PI, PID, floating control and electronic controller, tuning, line diagram from process plant to computer system, loose coupled system and tight coupled system, communication media and bus. UNIT II Protocol and Architectures. Evolution of data networks, network architecture, Protocols, layered approach, OSI model, DoD model, hierarchical approach, local network technology, bus/tree topology, ring topology, medium access protocols, details of IEEE 802, X.25, datagram, HDLC standards. UNIT III Signals from Process Instrumentation. Signal conditioning for the control of computer, signal transmission, time division multiplexing, signal termination, impedance matching filtering, numerical filtering, correction for non-linearities, computer control system, CPU, relationship of word length to performance, peripheral devices. UNIT IV Programmable Logic Controllers. Evolution of PLC, sequential and programmable controllers, architecture, programming of PLC, relay logic and ladder logic, functional blocks, communication networks for PLC, field bus such as profi-bus, mod-bus etc. UNIT V: Distributed Control Systems: Evolution of DCS, architecture, local control UNIT. operator interface, engineering interface. Text Books/Reference Books: 1. Instrument Engineers Handbook Process Control, Liptak, Elsevier, 2010 2. Industrial Electronics: Applications for Programmable Controllers, Instrumentation Process Control, and Electrical Machines Motor, Thomas E. Kissell, Prentice Hall, 2nd edition, 1999 3. Computer - Based Industrial Control, Kant Krishna, PHI, 2nd edition 2010 EEE-43 4. Instrumentation for Process Measurement and Control, Norman A. Anderson, CRC Press, 3rd edition, 1997 5. Programmable Logic Controllers, Frank D. Petruzella, McGraw-Hill Higher Education,4th edition, 2010 6. Data Communications and Networking, Behrouz Forouzan, McGraw-Hill,5th edition, 2012. EL-413-6 Power Plant Engineering L T P Credits 3 1 0 4 UNIT I Introduction. Thermodynamic equilibrium, cyclic process, enthalpy, zero, first and second laws of thermodynamics, Carnot cycle, concept of entropy, properties of steam, processes involving steam in closed and open systems, enthalpy. Vapour pressure cycles: Rankine cycle, reheat cycle, regenerative cycle UNIT II Steam Turbine. Classification, impulse and reaction turbines their velocity diagrams and related calculations, work done and efficiencies, re-heat factor, staging, bleeding and governing of turbines. Gas Turbine: Classification, Brayton cycle, working principle of gas turbine, gas turbine cycle with intercooling, reheat and regeneration, stage and polytrophic efficiencies. UNIT III Compressors. Classification, single and multistage reciprocating compressors, isothermal and volumetric efficiencies, centrifugal and axial flow compressors, surging, choking and stalling. I. C. Engines: Otto, Diesel and dual cycles, introduction to 2-stroke and 4-stroke SI and CI engines, indicator diagram and power measurement. UNIT IV Impact of Jet. Introduction to hydrodynamic thrust of jet on a fixed and moving surface (flat and curve), effect of inclination of jet with the surface. Hydraulic Turbines: Classification, heads and efficiencies, construction, working, work done and efficiency of impulse and reaction turbines. UNIT V Centrifugal Pump. Classification, construction, working, work-done, efficiencies, cavitations and priming, jet pump. Reciprocating Pump: classification, construction, working, work-done, slip and coefficient of discharge. Text Books/Reference Books: 1. Applied Thermodynamics, Onkar Singh, New Age International, 2006. 2. A Text Book of Hydraulic Machines, R. K.Rajput, S. Chand Co. 2008. 3. Thermal Engineering, P. L. Ballany, Khanna Publishers, 2003. 4. A Text Book of Fluid Mechanics and Hydraulic Machines, R. K. Bansal, Laxmi Publications, 2006. 5. Power Plant Engineering, Gautam S, Vikas Publishing House, 2012. EL 413-7 Artificial Intelligence and Expert Systems L T P Credits 3 1 0 4 UNIT I Introduction Approaches to intelligent control, architecture for intelligent control, symbolic reasoning system, rule based systems - the AI approach, knowledge representation, expert systems, artificial neural networks (ANN): concept of ANN and its basic mathematical model, McCulloch-Pitts neuron model, simple perception, Adaline and Madaline feed forward multilayer perceptron, learning and training the neural network, data processing: scaling, Fourier transformation, principal-component analysis and wavelet transformations, Hopfield network, self-organizing network and recurrent network, neural network based controller. UNIT II Genetic Algorithm. Basic concept of Genetic algorithm and detail algorithm steps, adjustment of free parameters, solution of typical control problems using genetic algorithm, concept on some other search techniques like tabu search and ant-colony search techniques for solving optimization problems UNIT III Fuzzy Logic System. Introduction to crisp sets and fuzzy sets, basic fuzzy set operation and approximate reasoning, introduction to fuzzy logic modeling and control, fuzzification, inferencing and defuzzification, fuzzy knowledge and rule bases, fuzzy modeling and control schemes for nonlinear systems, self-organizing fuzzy logic control, fuzzy logic control for nonlinear time-delay systems. UNIT IV Applications. GA application to power system optimization problem, case studies: identification and control of linear and nonlinear dynamic systems using Matlab - neural network toolbox, stability Analysis of neural network interconnection system, implementation of fuzzy logic controller using Matlab - fuzzy logic toolbox, stability analysis of fuzzy control systems. UNIT V Expert System. Need for expertise in decision models and expert systems, expert systems fundamentals, knowledge engineering, knowledge representation and inferencing, building expert systems, integrating expert systems and DSSs, strategies for implementing and maintaining management support systems, case studies, laboratory and filed projects. Text Books/Reference Books: 1. Introduction to Artificial Neural Systems, Jacek M. Zurada, Jaico Publishing House, 1997 EEE-44 2. Neural Networks, Fuzzy Logic and Genetic Algorithms Sudarshan K. Valluru, T.N. Rao, Jaico, 2009 3. C Neural Networks, FuzzyLogic, Valluru B. Rao, Hayagriva V. Rao BPB Publications, 1996. 4. Artificial Intelligence application in Power System, M. E. E1. Hawary, Wiley-Blackwell. 1998 5. Artificial Neural Networks, Yegnanarayana B, PHI, 1998 6. Fuzzy Logic: With Engineering Applications, Timothy J. Ross, Wiley India Pvt Ltd,2nd edition, 2007 7. Genetic Algorithms in search, Optimization and Machine Learning, David E. Goldberg, Pearson Education India, 1st edition, 2008 8. Expert Systems: Principles and Programming, Riley, Vikas-Thomson Learning, 2002. EL 413-8 Digital System Design L T P Credits 3 1 0 4 UNIT I Overview of Digital System Design with Verilog HDL. Evolution of CAD, emergence of HDLs, importance of HDLs, typical HDL-based design flow, hierarchical modeling concepts. UNIT II Gate-Level Modeling Modeling using basic Verilog gate primitives, description of and/or and buf/not type gates, rise, fall and turn-off delays, min, max, and typical delays. Dataflow Modeling: continuous assignments, delay specification, expressions, operators, operands, operator types. Behavioral Modeling: Structured procedures, initial and always, blocking and non blocking statements, delay control, generate statement, event control, conditional statements, multi way branching, loops, sequential and parallel blocks, test vectors/test benches. UNIT III Tasks and Functions. Differences between tasks and functions, declaration, invocation, automatic tasks and functions. Useful Modeling Techniques: procedural continuous assignments, overriding parameters, conditional compilation and execution, useful system tasks, timing and delays, switch-level modeling, basics of user-defined primitives and PLI. UNIT IV Logic Synthesis with Verilog HDL. Introduction to logic synthesis, impact of logic synthesis, Verilog HDL constructs and operators for logic synthesis, synthesis design flow, verification of synthesized circuits, design partitioning. UNIT V Types of memory. SRAM, flash memory, PLA, PAL, PROM, EPROM, EEPROM, CPLDs, FPGAs: Design, Architecture and applications. Text Books/Reference Books: 1. Verilog HDL: A Guide to Digital Design and Synthesis, Samir Palnitkar, 2nd edition, Prentice-Hall. 2. Verilog Digital System Design: Register Transfer Level Synthesis, Testbench, and Verification, Zainalabedin Navabi, McGraw Hill Professional. 3. Advanced Digital Design with the Verilog HDL, Michael D. Ciletti, Prentice Hall, 2nd edition, 2010 4. Digital Logic and Computer Design, M. Morris Mano, PHI, 2002. 5. Fundamentals of Digital Circuits, A. Anand Kumar, PHI, 2006. 6. Digital Design Principles and Practice, John F. Wakerly, 3rd edition, Pearson Education. EL 413-9 Filter Design L T P Credits 3 1 0 4 UNIT I Basic Concepts. Nature of filter specification, filter design process, ideal low magnitude approximation, frequency transformation. UNIT II Passive Filter with Lumped Elements. General two port reactance network, filter circuits, design of ladder networks. UNIT III Active Building Blocks For Analog Filter Design. Ideal and real operational amplifiers, transconductance amplifiers, current feedback amplifiers, transresistance and other amplifier topologies, characteristic and their usages in realization of summers, integrators, gyrators and immittance converters. UNIT IV Biquad Filters Using Active Building Blocks. Single amplifier biquad, biquads using composite amplifiers, G/C based biquads, two-integrator loop topologies. UNIT V Higher Order Filters. Cascade and multiple loop feedback realization, LC ladder simulation by single flow graph and element substitution. Transconductance C (Gm-C) based filters, switched capacitor filters. Text Books/Reference Books: 1. Design of Analog Filter Passive Active RC and switched capacitor, R. Schaumann, M. S. Ghausi and Keneth Laker, PHI, 1990. 2. Design of Analog Filters R. Schaumann Mac. E.VanValkenberg, Oxford University Press, 2001. EEE-45 EL 413-10 VLSI Design L T P Credits 0 0 3 3 UNIT I Introduction and Basic Electrical Properties. Introduction to IC Technology MOS, PMOS, NMOS, CMOS and Bi CMOS technologies, oxidation, lithography, diffusion, ion implantation, metallisation, encapsulation, probe testing, integrated resistors and capacitors, basic electrical properties of MOS and BiCMOS Circuits:Ids-Vds relationships, MOS transistor threshold voltage, gm, gds, figure of merit o, pass transistor, NMOS inverter, various pull ups, CMOS inverter analysis and design, Bi-CMOS inverters. UNIT II VLSI Circuit Design Processes. VLSI design flow, MOS layers, stick diagrams, design rules and layout, 2 m CMOS design rules for wires, contacts and transistors layout diagrams for NMOS and CMOS inverters and gates, scaling of MOS circuits, limitations of scaling. Gate Level Design. logic Gates and other complex gates, switch logic, alternate gate circuits, basic circuit concepts, sheet resistance and its concept to MOS, area capacitance UNIT s, calculations, s - t - delays, driving large capacitive loads, wiring capacitances, fan-in and fan-out, choice of layers UNIT III Subsystem Design. Subsystem design, shifters, adders, ALUs, multipliers, parity generators, comparators, zero/ one detectors, counters, high density memory elements. Semiconductor Integrated Circuit Design. PLAs, FPGAs, CPLDs, standard cells, programmable array logic, design approach. UNIT IV VHDL Synthesis. VHDL synthesis, circuit design flow, circuit synthesis, simulation, layout, design capture tools, design verification tools, test principles. UNIT V CMOS Testing. CMOS testing, need for testing, test principles, design strategies for test, chip-level test techniques, system - level test techniques, layout design for improved testability. Text Books/Reference Books: 1. Essentials of VLSI Circuits and Systems, Pucknell Douglas A, Eshraghian Kamran, Eshraghian Sholeh, PHI, 1st edition, 2005. 2. Principles of CMOS VLSI Design: A Systems Perspective, Neil H. E. West, Kamran Eshraghian, Addison Wesley, 2nd edition, 1993 3. Chip Design for Submicron VLSI: CMOS Layout Simulation, Cengage Learning,2006 4. Introduction to VLSI Circuits and Systems, John. P. Uyemura, JohnWiley, 2003. 5. Digital Integrated Circuits, John M. Rabaey, PHI, 1997. 6. Modern VLSI Design, Wayne Wolf, Pearson Education, 3rd edition, 1997. EL 413-11 Antenna and Wave Propagation L T P Credits 0 0 0 10 UNIT I Antenna Principles. Potential functions electromagnetic field, current elements, radiation from monopole half wave dipole, power radiated by current element, radiation resistance, network theorems directional properties of dipole antenna, antenna gain, effective area, antenna terminal impedance, practical antennas and methods of excitation, antenna temperature and signal to noise ratio. UNIT II Antenna Arrays. Two element array, horizontal patterns in broadcast arrays, linear arrays, multiplication of patterns, effect of the earth on vertical patterns, binomial array. UNIT III Wave Propagation. Modes of propagation, plane earth reflection, space wave and surface wave, reflection and refraction waves by the ionosphere, tropospheric wave, ionosphere wave propagation, virtual height. MUF critical frequency, skip distance, duct propagation, space wave. UNIT IV Practical Antennas. VLF and LF transmitting antennas, effect of antenna height, field of short dipole, electric field of small loop antenna, directivity of circular loop antenna with uniform current, directivity of circular loop antenna with uniform current, Yagi-Uda array: square corner Yagi - Uda hybrid, circular polarization, rhombic antenna weight and leg length, parabolic reflectors properties, comparison with corner reflectors, horn antenna: length and aperture, introduction to turstile antenna, effect of ground on antenna performance. UNIT V Broadband Antenna. Frequency independent concept, Rumseys principle, frequency independent planar log spiral antenna, frequency independent conical spiral antenna. Text Books/Reference Books: 1. Antennas for All Applications, John D. Kraus, Ronald J. Marhefka, TMH, 3rd edition, 2003. 2. Electromagnetic Waves and Radiating Systems. E. C. Jordan and K. G. Balmain, PHI, 2nd edition,2000. 3. Antenna Theory, C.A. Balanis, John Wiley Sons, 2nd edition, 2001. 4. Antennas, John D. Kraus, McGraw-Hill, 2nd edition, 1988. 5. Electronic and Radio Engineering, F. E. Terman, McGraw - Hill, 4th edition, 1955. EEE-46 EL-414 Utilization of Electrical Energy Lab L T P Credits 0 0 3 3 Laboratory Practical Based on course work of corresponding theory EL-415 Elective II Lab L T P Credits 0 0 3 3 Laboratory Practical Based on course work of corresponding theory EL-416 Major Project(part-II) L T P Credits 0 0 0 10 EL-417 Seminar/ Report L T P Credits 0 0 0 2 related
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