#1
January 11th, 2016, 01:20 PM
| |||
| |||
Electrical Engineering TAMU
Hello sir I want to do Electrical Engineering from Texas A&M University and I am here as I want the course curriculum so will you please provide me ??
|
#2
January 11th, 2016, 01:24 PM
| |||
| |||
Re: Electrical Engineering TAMU
Texas A&M University is a coeducational public research university located in College Station, Texas Here as per your demand I am providing you course curriculum of Electrical Engineering of this University: 119. Practice of Electrical and Computer Engineering (1-0). Credit 1. 214. Electrical Circuit Theory (3-3). Credit 4. 215. Principles of Electrical Engineering (2-2). Credit 3. 220. Introduction to Digital Design (3-3). Credit 4. 222. Discrete Structures for Computing (3-0). Credit 3. 248. Introduction to Digital Systems Design (3-3). Credit 4. 285. Directed Studies. Credit 1 to 4. 289. Special Topics Credit 1 to 4. 291. Research. Credit 1 to 4. 303. Random Signals and Systems (3-1). Credit 3. 314. Signals and Systems (3-0). Credit 3. 322. Electric and Magnetic Fields (3-1). Credit 3. 325. Electronics (3-4). Credit 4. 326. Electronic Circuits (3-3). Credit 4. 338. Electromechanical Energy Conversion (3-3). Credit 4. 350. Computer Architecture and Design (3-3). Credit 4. 351. Applied Electromagnetic Theory (3-0). Credit 3. 370. Electronic Properties of Materials (3-1). Credit 3. 403. Electrical Design Laboratory I (2-2). Credit 3. 404. Electrical Design Laboratory II (2-3). Credit 3. 405. Electrical Design Laboratory (1-6). Credit 3. 410. Introduction to Medical Imaging (3-0). Credit 3. 411. Introduction to Magnetic Resonance Imaging and Magnetic Resonance Spectroscopy (2-3). Credit 3. 412. Ultrasound Imaging (3-0). Credit 3. 414. Biosensors (2-2). Credit 3. 419. Genomic Signal Processing (3-0). Credit 3. 420. Linear Control Systems (3-0). Credit 3. 421. Digital Control Systems (3-0). Credit 3. 422. Control Engineering and Design Methodology (2-3). Credit 3. 438. Power Electronics (3-3). Credit 4. 440. Introduction to Thin Film Science and Technology (3-0). Credit 3. 441. Electronic Motor Drives (3-3). Credit 4. 442. DSP Based Electromechanical Motion Control (2-3). Credit 3. 444. Digital Signal Processing (3-0). Credit 3. 447. Digital Image Processing (3-3). Credit 4. 448. Real-Time Digital Signal Processing (2-3). Credit 3. 449. Microprocessor Systems Design (2-2). Credit 3. 450. Computer Interfacing and Communications (3-3). Credit 4. 451. Antenna Engineering (3-0). Credit 3. 453. Microwave Solid-State Circuits and Systems (3-0). Credit 3. 454. Digital Integrated Circuit Design (2-2). Credit 3. 455. Digital Communications (3-3). Credit 4. 456. Communication Theory (3-0). Credit 3. 457. Operational Amplifiers (3-3). Credit 4. 458. Active Filter Analysis and Design (3-3). Credit 4. 459. Power System Fault Analysis and Protection (3-2). Credit 4. 460. Power System Operation and Control (3-2). Credit 4. 462. Optical Communication Systems (3-0). Credit 3. 463. Magnetic Resonance Engineering (2-3). Credit 3. 464. Optical Engineering (3-0). Credit 3. 465. Experimental Optics (2-7). Credit 4. 468. Advanced Logic Design (3-3). Credit 4. 469. Advanced Computer Architecture (3-0). Credit 3. 472. Microelectronic Circuit Fabrication (3-3). Credit 4. 473. Microelectronic Device Design (3-0). Credit 3. 474. VLSI Circuit Design (3-3). Credit 4. 475. Introduction to VLSI Systems Design (3-3). Credit 4. 476. Neural Networks and Implementations (3-3). Credit 4. 478. Wireless Communications (3-0). Credit 3. 480. RF and Microwave Wireless Systems (3-0). Credit 3. 485. Directed Studies. Credit 1 to 6 each semester. To get the complete information here I am attaching an attachment: |
|