04:49

Programmable Logic Devices (PLDs) Explained: PLA, PAL, & CPLD Basics

03:32

FPGA Explained: A Beginner's Guide to Field Programmable Gate Arrays

04:49

DRAM Explained: Architecture, Refresh & Operation for Beginners

05:15

SRAM Explained: Static RAM Cell Design & Operation for Beginners

04:25

💻 Memory Basics Explained: RAM vs ROM, Organization & Hierarchy

05:07

Control Unit Design: FSM-Based Control for Digital Systems Explained!

04:16

Sequence Detectors: Digital Logic Design Explained for Beginners!

03:11

State Machine Implementation: From Diagrams to Digital Circuits ⚡

04:10

State Reduction in Finite State Machines (FSM): Simplify Your Designs!

04:35

🚦 State Machine Design: A Beginner's Guide to Systematic Design Process

03:47

Mealy vs Moore State Machines: Digital Logic Explained!

03:19

State Assignment: Binary Encoding Explained for Beginners

08:21

Ring Counters vs Johnson Counters: Digital Logic Explained!

03:22

🚦 State Machines Explained: A Beginner's Guide with Traffic Light Example

04:42

Counter Applications in Digital Logic: Frequency Division, Timing & Control Systems

02:47

Modulo-N Counter Design: Digital Logic Tutorial for Beginners

03:05

Up/Down Counter Design: Reversible Counter Explained for Beginners

02:33

Synchronous Counters: Understand Clocked Counters for Digital Logic Design

05:08

Universal Shift Register Explained: Bidirectional & Parallel Load

03:07

Asynchronous (Ripple) Counters Explained | Timing Analysis & Digital Logic

03:48

Shift Registers Explained: Serial In Serial Out & Parallel Load

04:01

Parallel Load Registers: Flip-Flop Based Multi-Bit Storage Explained!

06:45

Clock Signals & Timing: Digital System Synchronization Explained for Beginners

05:33

Flip-Flop Timing Parameters Explained: Setup Time, Hold Time & Propagation Delay

03:53

Flip-Flop Conversions: SR, D, JK, T - Digital Logic Explained!

03:46

T Flip-Flop Tutorial: Design, Truth Table & Frequency Division Explained!

03:49

SR Flip-Flop Explained: Edge-Triggered Logic for Beginners

03:57

Gated SR Latch: Clock-Controlled Flip-Flop Explained for Beginners!

05:13

D Flip-Flop: Data Storage, Truth Table & Applications Explained for Beginners!

04:24

JK Flip-Flop Tutorial: Operation, Truth Table & Toggle Mode Explained!

03:11

Read-Only Memory (ROM) Explained: Types, Programming & Applications

03:13

SR Latch Explained: Master Set-Reset Latches with NAND & NOR Gates

04:56

Code Converters Explained: Binary to Gray & More! | Digital Logic Design Basics

04:14

D Latch Explained: Transparent Behavior, Truth Table & Circuit Diagram 💡

03:15

Sequential Logic Explained: Digital Circuits for Beginners

03:34

Parity Generators & Checkers Explained: Error Detection Basics!

04:13

Demultiplexers Explained: From Basics to Applications (DEMUX Tutorial)

05:15

Multiplexers (MUX) Explained: Data Selectors in Digital Logic Design

03:28

BCD to 7-Segment Decoder: Digital Logic Basics Explained!

02:39

Priority Encoders Explained: From Truth Tables to Circuit Diagrams

03:53

Decoders Explained: Binary Decoder Basics for Beginners

03:36

Magnitude Comparators Explained: Binary Number Comparison for Beginners

04:23

BCD Adder Explained: Binary Coded Decimal Addition for Beginners 🧮

03:52

Subtractors Explained: Half & Full Subtractor Circuits - Digital Logic Design

04:24

Carry Look-ahead Adder (CLA): Fast Addition Explained!

03:17

Adder-Subtractor Circuits: Combined Addition & Subtraction Explained!

04:57

Ripple Carry Adder Explained: Multi-bit Binary Addition for Beginners

04:42

Karnaugh Maps (K-Map): 4-Variable Simplification for Beginners

02:32

Maxterms Explained: Mastering Product of Sums (POS) Canonical Form

04:03

Ripple Carry Adder Explained: Multi-bit Addition for Beginners

02:53

Full Adder Explained: Digital Logic for Beginners

03:06

Half Adder Explained: Truth Table, Boolean Expression & Circuit

04:25

Combinational Circuit Design: A Step-by-Step Guide for Beginners 💡

03:24

Combinational Circuit Analysis: A Beginner's Guide to Understanding Logic Circuits

05:26

NAND & NOR Logic: Multi-Level Optimization for Beginners

06:42

Quine-McCluskey Method: Boolean Function Minimization Explained!

04:33

Simplify Logic Circuits with Don't Care Conditions! 🚀

04:15

Karnaugh Maps: Simplify 5 & 6 Variable Boolean Expressions!

05:49

Karnaugh Maps (K-Maps) Explained: Boolean Algebra Simplification for Beginners

04:13

Digital vs Analog Systems: Intro to Digital Logic for Beginners