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Digital Integrated Circuits

Digital Integrated Circuits. Instructor: Prof. Amitava Dasgupta, Department of Electrical Engineering, IIT Madras. This course shall discuss the entire domain of digital circuits with an emphasis of high speed integrated digital circuits. In order to understand or appreciate the working of these digital circuits, it is very important to have a basic understanding of semiconductor devices, how this device works, and how these devices are modeled. Topics covered in this course include semiconductors, diode and BJT model parameter extraction, standard TTL circuits, Schottky transistor logic, I2L technology, ECL basic operation, and semiconductor memories. (from nptel.ac.in)

Lecture 11 - Advanced TTL Circuits


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Lecture 01 - Semiconductors
Lecture 02 - Modeling of PN Junction Diodes
Lecture 03 - Modeling of Bipolar Junction Transistors (BJTs)
Lecture 04 - Diode and BJT Model Parameter Extraction
Lecture 05 - BJT Inverters: DC and Switching Characteristics
Lecture 06 - Schottky Transistor
Lecture 07 - Specifications of Logic Circuits
Lecture 08 - Qualitative Discussion on TTL Circuits
Lecture 09 - Standard TTL Circuits
Lecture 10 - Schottky (74S..) and Low Power Schottky (74LS..) TTL Circuits
Lecture 11 - Advanced TTL Circuits
Lecture 12 - I2L Technology: Half Adder Realization
Lecture 13 - Edge Triggered D-F/F and Decoder Realization using I2L
Lecture 14 - I2L Condition for Proper Operation: Noise Margin
Lecture 15 - I2L Propagation Delay Self Aligned Technology
Lecture 16 - Schottky Transistor Logic; Heterojunction I2L
Lecture 17 - Stacked I2L; I2L-TTL Interfacing
Lecture 18 - ECL Basic Operation
Lecture 19 - Quantitative Analysis of ECL 10k Series Gates
Lecture 20 - ECL 100k Series; Stacked ECL Gates; D-F/F
Lecture 21 - Emitter Function Logic; Low Power ECL; Current Mirror Control Logic
Lecture 22 - Polyemitter Bipolar Transistor in ECL; Propagation Delay
Lecture 23 - Heterojunction Bipolar Transistor based ECL; ECL Gate Array; MOSFET Characteristics
Lecture 24 - nMOS Logic Circuits
Lecture 25 - nMOS Logic Circuits (cont.), Introduction to CMOS
Lecture 26 - CMOS Inverter
Lecture 27 - CMOS NAND, NOR and Other Gates: Clocked CMOS
Lecture 28 - Dynamic CMOS; Transmission Gates; Realization of MUX, Decoder, D-F/F
Lecture 29 - BiCMOS Gates
Lecture 30 - BiCMOS Driver; BiCMOS 32-bit Adder
Lecture 31 - BiCMOS 32-bit Adder (cont.); Realization of Semiconductor Memories
Lecture 32 - Semiconductor Memories; ECL RAM
Lecture 33 - CMOS RAM
Lecture 34 - BiCMOS RAM
Lecture 35 - DRAM-CMOS and BiCMOS
Lecture 36 - ROM - EPROM, EEPROM and Flash EPROM
Lecture 37 - GaAs MESFET Characteristics and Equivalent Circuits
Lecture 38 - Direct Coupled FET Logic; Superbuffer FET Logic
Lecture 39 - Buffered FET Logic; Schottky Diode FET Logic
Lecture 40 - Transmission Line Effects