Certified Microprocessors Professional

Certified Microprocessors Professional

Why should you take this Certification?

This certification will make you Internationally Certified and will help in growing your career.

This certification will help you to get Job & Freelance opportunities from thousands of companies.

Average salary given to a Certified Microprocessor Professional is around $60,000 per annum.

Exam Cost: USD 30.00 5 out of 5 based on 3534 ratings.

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What Is Microprocessor?

A microprocessor is a computer processor that combines data processing logic and control on a single integrated circuit (IC) or a small number of ICs. The arithmetic, logic, and control circuitry required to accomplish the duties of a computer's central processing unit are contained in the microprocessor. The integrated circuit can interpret and execute computer instructions as well as conduct math operations. A microprocessor is a digital integrated circuit that accepts binary data as input, processes it according to instructions stored in its memory, and outputs the results. Microprocessors use the binary number system to represent numbers and symbols, and they use both combinational and sequential digital logic.

Small computers were developed before microprocessors utilizing racks of circuit boards with many medium- and small-scale integrated circuits, mainly of the TTL type. This was merged into one or a few large-scale ICs by microprocessors. The Intel 4004 was the first commercially available microprocessor.

Microprocessor capacity has increased to the point where other types of computers are nearly obsolete, with one or more microprocessors being utilized in everything from embedded systems and handheld devices to mainframes and supercomputers.

A microprocessor is a device that can be used for a variety of tasks. Following it came a slew of specialized processing devices:

  • A digital signal processor (DSP) is an electronic device that specializes in signal processing.
  • Graphics processing units (GPUs) are processors that are meant to render images in real time.
  • Video processing and machine vision are two examples of specialized units.
  • In embedded systems, microcontrollers connect a microprocessor to peripheral devices.
  • In smartphones and tablet computers, systems on chip (SoCs) combine one or more microprocessor or microcontroller cores with additional components such as radio modems.

Main Features of Microprocessor: The qualities listed below make the microprocessor a versatile component in an instrumentation system.

  • Memory
  • Power to make decisions based on previously entered values
  • The reading's consistency
  • Interactivity and digital readout
  • Processing in Multiple Threads
  • Multiprocessing and time sharing
  • Storage, retrieval, and transmission of data
  • Controlling many pieces of equipment effectively on a time-sharing basis
  • Microprocessors are widely employed in situations where a large amount of processing is required.

 

Salary Range of An Microprocessor Professional

Depending on the experience level and the demographic area, the salary of a Microprocessor Professional varies widely.

The following is the average Microprocessor Professional Salary in USA:

Best Minds In Microprocessor$100,000
Senior Microprocessor Professionals$ 85,000
Intermediate Microprocessor Professionals$ 65,000
Microprocessor Freshers$ 50,000

 

The following is the average Microprocessor Professional Salary in India:

Best Minds In MicroprocessorINR 90,000
Senior Microprocessor ProfessionalsINR 60,000
Intermediate Microprocessor ProfessionalsINR 35,000
Microprocessor FreshersINR 20,000

 

What Is Microprocessor Certification?

Microprocessor Certification assesses a person's knowledge of the microprocessor as well as their understanding of digital concepts. A variety of certifying authorities, ranging from government agencies to commercial enterprises and organisations, offer the Microprocessor certification. Certifications are normally obtained by the completion of an online or offline exam.

All certificates have their own set of benefits, such as international recognition, career opportunities, freelancing, and so on. So, Microprocessor certification is an online exam that evaluates a Professional's skills and knowledge in order to match them with the suitable opportunities.

 

Why should you take this Online Microprocessor Certification?

The online Microprocessor certification from Loopskill will assist you in becoming a certified Professional. You can take this exam and by scoring 70% you will become an internationally certified Microprocessor Professional. This certification will help you in three different ways:

  • You can demonstrate your Microprocessor certification to potential employers and can stand out of the crowd.
  • You can apply for great jobs using loopskill website or app; moreover, our partners companies will contact you directly for full-time or part-time opportunities depending on your skills & requirements.
  • Loopskill is not just a platform to get certified or to find full time jobs; here being a certified Professional you can also do freelancing for the clients around the globe. You will be approached by the clients who need your help in building some web based platform or some app based platform.

The loopskill’s online Microprocessor certification is created to help people in exploring and achieving their full potential so they can get connected to the best opportunities around the globe.

 

Advantages & Disadvantages of Microprocessor

Microprocessor Advantages

  • The current CPU is capable of incredible speed (Trillions and Trillions of Instructions per Second)
  • Microprocessors are capable of working with perfect precision. (If and only if the input is inappropriate or erroneous, the output is inaccurate (GIGO) Garbage In Garbage Out.)
  • They are compact and modest in size.
  • Modern processors are less expensive.
  • Multicore processors are now available on the market, which are significantly quicker and less expensive.
  • Modern processors are designed with Artificial Intelligence and cutting-edge technology, so they produce less heat and energy, and we don't need to take any special precautions to keep them cool.
  • GUI (Graphical User Interface) is a feature integrated into processors that allows users to freely use the mouse and other pointing devices and gadgets.

Microprocessor Disadvantages

  • Because the processor lacks its own IQ, it is destined to make mistakes when given inaccurate or incomplete data by the user.
  • With the wrong electric current and supply, the processor might be easily damaged.
  • Single-core processors are extremely slow, making it impossible to work with heavy software and programs.
  • The manufacturing of this type of processor is a time-consuming procedure.
  • Floating point operations are not supported by the majority of microprocessors.
  • They necessitate the use of machine language.

 

Important Topics to Learn & Master in Microprocessor

8051 Microcontroller Course Contents

  • Introduction to Embedded System
  • History & need of Embedded System
  • Basic components of Embedded System
  • Hardware Classification of Embedded System
  • Programming Language Classification of Embedded System
  • Advantage & Disadvantage of Low level & High level programming language of Embedded System

Microprocessor & Microcontroller Classification

  • Braod Cast
  • Difference between Microprocessor & Microcontroller
  • Classification based on architecture
  • Classification based on Instruction Set
  • Type of Microcontroller
  • Memory Classification

Introduction to 8051 Microcontroller

  • Introduction of ATMEL 8051 family
  • Block diagram description of AT89C51
  • Special feature of AT89c51
  • Pin description of AT89c51

Intel 8051 Architecture

  • Introduction to 8-bit microcontroller 8051
  • Inbuilt features of 8051
  • Block diagram explanation, pin descriptions
  • Bit addressable and byte addressable registers
  • About some imp SFRs like PSWA and stack operations
  • Addressing modes and assembler directives
  • Different addressing modes with examples and assignments and lab demonstrations with examples of addressing modes Instruction sets
  • Explanations about 4 different instruction sets and with assignments
  • Serial communication concepts with programming
  • Interrupt programming and embedded c concepts how to use KEIL with C concepts
  • Timer programming concepts in mode 1 and mode 2 with assignments

Intel 8051 C Pin Configuration Diagram

  • Description of RAM
  • Description of CPU Registers
  • Function of SFR

Interfacing of LED

  • Introduction of LED’s
  • Interfacing Circuit Description of LED’s
  • Programming of LED’s interfacing

Interfacing Of Seven Segment Display

  • Types of 7 Segment Display
  • Interfacing Circuit Description of 7 Segment Display
  • Programming of 7 Segment Display Interfacing

Interfacing of LCD

  • Introduction to 16 x 2 LCD
  • Commands of 16 x 2 LCD
  • Interfacing Circuit Description of 16 x 2 LCD
  • Programming of 16 x 2 LCD

Interfacing Of Switches & Keyboard Matrix

  • Introduction to Switches & Keyboard Matrix
  • Interfacing Circuit of Switches & Keyboard Matrix
  • Programming of Keyboard Matrix & Switches
  • Controlling of LED’s by using Switches
  • Key board Matrix & LCD Interfacing Program

Interfacing of Motors

  • Introduction to Motors
  • Types of Motors used in Embedded System
  • Programming & Controlling of Motors in Embedded System

Timers & Counter Programming

  • Introduction to Timer & Counter
  • Difference between Timer and Counter
  • Description of SFR associated with Timer & Counter
  • Programming of Timer & Counter

Serial Communication Programming

  • Introduction to Serial Communication
  • Types of Serial Communication
  • Description of SFR associated with Serial Communication
  • Introduction & Interfacing of UART
  • Programming of UART

Interrupt Driven Programming

  • Types of Interrupts
  • Programming of Software & Hardware Interrupts

Interfacing of ADC

  • Introduction to ADC
  • Interfacing circuit of ADC
  • Working & Interfacing of Temperature Sensor (DS1621 & LM35)

Interfacing of External Memory

  • Introduction to External Memory Interfacing
  • Introduction to I2C Protocol
  • Using I2C library to read/write External Memory

Introduction of Embedded C

  • Introduction to Embedded C
  • Different between C & Embedded C
  • Data type of Embedded C
  • Operators of Embedded C
  • Statements & loops of Embedded C

Programming Embedded Systems in C

  • Introduction
  • What is an embedded System?
  • Which processor should you use?
  • Which programming language should you?
  • Which operating system should you use?
  • How do you develop embedded software?

Hello, Embedded World

  • Introduction
  • Installing the Keil software and loading the project
  • Configuring the simulator
  • Building the target
  • Running the simulation
  • Dissecting the program
  • Aside: Building the hardware

Adding Structure to Your Code

  • Introduction
  • Object-oriented programming with C
  • The Project Header (Main .H)
  • The Port Header (Port .H)
  • Example: Restructuring the ‘Hello Embedded World’ example
  • Example: Restructuring the goat-counting example
  • Further examples

Programming & Interfacing Using Embedded C

  • Programming of Timer & Counter
  • Programming of Serial Port
  • Programming of Interrupt
  • LCD Interfacing
  • Motor Interfacing
  • Key board Matrix Interfacing

Motor Interfacing

  • DC motor interfacing using UL2803 with controllers
  • Stepper motor interfacing using UL2003 with controllers
  • Servo motor interfacing with controllers

Sensors

  • Introduction to sensors
  • IR sensors module
  • Ultrasonic sensors
  • Photoelectric sensors
  • Sensor Categories
  • Binary Sensor
  • Analog versus Digital Sensors
  • Shaft Encoder
  • A/D Converter
  • Position Sensitive Device
  • Compass
  • Gyroscope, Accelerometer, Inclinometer
  • Digital Camera

Actuators

  • DC Motors
  • H-Bridge
  • Pulse Width Modulation
  • Stepper Motors
  • Servos
  • References

Multitasking

  • Cooperative Multitasking
  • Synchronization
  • Scheduling
  • Interrupts and Timer-Activated Tasks

Wireless Communication

  • Communication Model
  • Messages
  • Fault-Tolerant Self-Configuration
  • User Interface and Remote Control
  • Sample Application Program

 

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Certified Microprocessors Professional Certified Microprocessors Professional
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