Basic Concept of Digital-Logic-Design(DLD) and its applications
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Aug 17, 2024
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Basic Concept of Digital-Logic-Design(DLD) and its applications.
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Digital Logic Design In this video, It will delve into the fascinating world of digital logic design, exploring its fundamentals, circuitry components and applications. Dr.Irshad Ahmed
Boolean Algebra and Logic Gates AND Gate The AND gate is a fundamental logic gate that outputs true only when all its inputs are true. It is the building block of many complex circuits. NOR Gate The NOR gate is a logic gate that outputs true only when all its inputs are false. It has many practical applications, such as in digital memory circuits. NOT Gate The NOT gate is a logic gate that inverts the input signal. It is often used in combination with other logic gates to create complex functions. XOR Gate The XOR gate is a logic gate that outputs true only when its two inputs differ in their logic value. It is used in various applications, such as in computing and cryptography.
Combinational Logic Circuits 1 Decoder The decoder is a combinational logic circuit that converts binary code into a set of outputs. It is widely used in digital electronics, such as in memory chips and microprocessors. 2 Multiplexer The multiplexer is a combinational logic circuit that selects one of several input signals and forwards the selected signal to the output. It is an essential component of many communication systems, such as telephony and data networks. 3 Comparator The comparator is a combinational logic circuit that compares two binary values and outputs a signal indicating their relationship (greater, less, or equal). It is widely used in digital signal processing, control systems, and scientific calculations.
Sequential Logic Circuits S-R Latch The S-R (set-reset) latch is a sequential logic circuit that stores a single binary digit (bit) and allows its value to be set or reset through input signals. It is used in various applications, such as in flip-flops and memory cells. D Flip-Flop The D flip-flop is a sequential logic circuit that stores a single bit and latches its value on the rising edge of a clock signal. It is extensively used in digital systems, such as in microprocessors, data storage devices, and communication protocols. Counter The counter is a sequential logic circuit that counts the number of pulses applied to its inputs and outputs a binary code representing the count value. It is a crucial component of many digital systems, such as in clocks, timers, and frequency dividers.
Memory Elements and Registers Random Access Memory (RAM) RAM is a memory element that can store digital data and retrieve it rapidly. It is regularly used in computers, telecommunication systems, and embedded devices. Flip-Flop A flip-flop is a memory element that can store a binary digit (bit) using feedback from its output to its input. It is a fundamental building block of many sequential logic circuits. Register A register is a group of flip-flops that can store multiple bits and operate on them as a unit. Registers are extensively used in microprocessors, data communication protocols, and digital signal processing.
Microprocessors and Microcontrollers 1 Functionality Microprocessors and microcontrollers are programmable digital devices that can perform computation, control, and communication tasks autonomously or under human supervision. 2 Differences A microprocessor is a general-purpose computing device that requires external memory and input/output components. A microcontroller is a specialized device that integrates memory, input/output, and other peripherals into a single chip. 3 Applications Microprocessors and microcontrollers are used in a vast range of applications, such as in computers, mobile devices, cars, drones, appliances, industrial controllers, and entertainment systems.
Applications of Digital Logic Design Telecommunications Digital logic design is essential for the development of communication systems, such as telephones, mobile phones, modems, routers, and satellite networks. It enables efficient signal processing, switching, multiplexing, and error correction. Computing Digital logic design underpins the architecture and operation of computers, from microprocessors to high-performance clusters. It enables the execution of complex algorithms, the management of memories and devices, and the interaction with humans. Automation Digital logic design plays a central role in automation systems that control and monitor industrial processes, such as factories, power plants, and transportation networks. It enables the integration of sensors, actuators, logic controllers, and human-machine interfaces.
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