Almost there! Just a few clicks from the resource you need.
You can either checkout with the notes in your basket now, or find more notes. The choice is yours!
My Basket
computer memory
how computer memory are divide, these notes are suitable for a first year student who is learning computer or other fields related to computer
£1.50 Preview RemoveEmbedded System Design and Software - Part 2
This is Part 2 of a 2 PDF bundle which will be enough to get more than 90% in your Embedded System Design and Software exams. It is in the format of Questions and answers which will be helpful for last minute reading. It helped me a lot and got 98 in my exam. The below topics are included in the PDF's: Introduction: Embedded Systems Overview, Design Challenge-Optimizing Design Metrics, Processor Technology, IC Technology, Design Technology, Tradeoffs. Custom Single-Purpose Processors – Hardware: Custom Single-purpose Processor Design, Optimizing Custom Single-Purpose Processors. General-Purpose Processors – Software: Basic Architecture, Operation, Programmer’s View, Development Environment, Application-Specific Instruction-Set Processors (ASIPs), Selecting a Microprocessor, General Purpose Processor Design. Standard Single-Purpose Processors – Peripherals: Timers, Counters, and Watchdog Timers, UART, Pulse Width Modulators, LCD Controllers, Keypad Controllers, Stepper Motor Controllers, Analog-to-Digital Converters, Real-Time Clocks. Memory: Memory Write Ability and Storage Permanence, Common Memory Types, Composing Memory, Memory Hierarchy and Cache, Advanced RAM. Embedded software – Interrupts: Interrupt Basics, The Shared-Data Problem, Interrupt Latency. Survey of Software Architectures: Round-Robin, Round-Robin with Interrupts, Function-Queue- Scheduling Architecture, Real-Time Operating System Architecture, Selecting an architecture. Introduction to RTOS: Tasks and Task States, Tasks and Data, Re-entrancy, Semaphores and Shared Data, Semaphore Problems: Priority Inversion, Deadly Embrace Encapsulating Semaphores, RTOS and ISR, Saving Memory Space, Saving Power. By the end you will be able to: 1. To introduce the difference between embedded systems and general purpose systems. 2. To optimize hardware designs of custom single-purpose processors. 3. To compare different approaches in optimizing general-purpose processors. 4. To introduce different peripheral interfaces to embedded systems. 5. To understand the design tradeoffs made by different models of embedded systems. 6. To apply knowledge gained in software-hardware integration in team-based projects. 7. To Understand the concepts behind embedded software. 8. To design an embedded solution for a real world problem. 9. To select components to implement an embedded system. 10. To program the software for an embedded system together with its sensor and control requirements. 11. To optimize an embedded system to meet design requirements of size, speed, and/or power consumption.
£2.50 Preview Remove8-Bit analog to digital converter using successive approximation
this is a circuit design for an analog to digital converter using successive approximation. the circuit is designed using Orcad Pspice software.
£1.49 Preview RemoveIntroduction to ICT and Computer Applications
this is the first ict note it helps to develop your basic ict knowledge
£5.00 Preview RemoveC++ notes for beginners
Fully detailed notes on C++ for beginners.Easy to learn and understand the topics.
£2.50 Preview RemoveUncontrolled Rectifier
Electrical Engineering students!! The note teachers on: 1) uncontrolled rectifier topology and circuitry 2)Sketching graphs characteristics 3) Single phase & three phase half wave and full wave uncontrolled rectifiers.
£1.49 Preview Removecomputer methods in power systems
good book for electrical engineering computer methods in power system by stagg and El-abiad
£2.00 Preview RemoveRobotics Lecture 4
These notes regard a series of lectures of robotics that discusses forward kinematics, inverse kinematics, differential kinematics, and dynamics
£5.00 Preview Removee-banig simulation
three-tier architecture in e-banking. The First New Brunswick Savings (FNBS) bank has introduced e-banking to its customers. The e-banking infrastructure consists of a cluster of two server nodes linked to each other via a TP monitor, which dynamically balances the workload of each server in the cluster. The processing time at the TP monitor is 0.05 seconds. The e-banking program offers a number of services to its customers, as follows: account identification (AI), view account summary (VS), view last 15 withdrawals (VW), view last 15 deposits (VD), and view interim account report (VR). The elapsed times of services are server-node dependent. These are given in following table along with request priorities
£6.25 Preview RemoveMotor
A motor is a device that converts electrical energy into mechanical energy to perform work. It operates through the interaction of magnetic fields and current-carrying conductors, producing rotational or linear motion. Motors are essential components in various applications, from household appliances and industrial machinery to electric vehicles and robotics. They vary in types, including AC motors, DC motors, and stepper motors, each suited for specific functions based on their design and operational characteristics. Efficient and reliable, motors are fundamental to modern technology and automation. this document has one of the types of motor.
£6.88 Preview RemoveProgrammable Logic Controllers (PLCs)
Programmable Logic Controllers - Assignment 1 Operational characteristics of programmable logic controllers (PLCs). Specification of Compact, Modular and Rack Mounted PLCs. Grade received: DISTINCTION Tutor: Susan Armstrong Institute: Middlesbrough College Programme: Higher National Certificate (HNC) in Electrical and Electronic Engineering
£12.50 Preview RemoveDos and Don'ts of Turbine operation
Crisp and clear notes on, 1. Before start up, 2. During operation, 3. During Shutdown/Stand still
£6.25 Preview Remove