Saxion University of Applied Sciences Hardware components and V-model Lesson 2 J.S.D. Stokkink.

Slides:

Advertisements

Similar presentations

Chapter 3 Ohm’s Law.

Advertisements

Alternating-Current Circuits

Basic Elements of Electrical Circuits Resistor Inductor Capacitor Voltage source Current source.

Interactive Engineering Workshop Eng. Mageda Al-Moubarak Eng. Fadia El-ssa.

Lesson 14 – Capacitors & Inductors. Learning Objectives Define capacitance and state its symbol and unit of measurement. Predict the capacitance of a.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley Chapter 36. AC Circuits Today, a “grid” of AC electrical distribution systems.

Circuits Current, Voltage and Resistance 1 TOP Current Batteries Basic Circuit Elements Resistors.

Circuit elements Resistors Resistance The electrical resistance of a circuit component or device is defined as the ratio of the voltage applied to the.

Potentiometers and Rheostats

Copyright © 2009 Pearson Education, Inc. Lecture 10 – AC Circuits.

EKT214 - ANALOG ELECTRONIC CIRCUIT II

If current is disrupted through one element (e.g. the light goes out) If current is disrupted through one element (e.g. the light goes out) then they.

Resistors Resistors are used to limit current or divide voltage, and in some cases, generate heat Resistors are used to limit current or divide voltage,

Resistors & Colour Coding

Resistors Resistors can be either fixed or variable in value Resistors can be either fixed or variable in value Fixed resistors come in a variety of different.

A resistor is a device that limits, or resist curent.

Fall 2008 Physics 121 Practice Problem Solutions 13 Electromagnetic Oscillations AC Circuits Contents: 121P13 - 2P, 3P, 9P, 33P, 34P, 36P, 49P, 51P, 60P,

Current, Resistance, and Simple Circuits.  A capacitor is a device used to store electrical energy.  There are two different ways to arrange circuit.

OSCILLATION SUPPRESSION COMPONENT INVESTIGATION: CAPACITANCE AS A FUNCTION OF TEMPERATURE AND VOLTAGE MICHAEL GURR ME304 FALL 2012.

Chapter 6 Voltage Regulators - Part 2-.

Electricity Current Electricity.

Saxion University of Applied Sciences Hardware components and V-model Lesson 3 J.S.D. Stokkink.

Solve for Z ABCDE HKMNP STVX WYZ =. Chapter 22 Current Electricity.

Resistors Resistors can be either fixed or variable in value

An electric potential difference exists between battery terminals. The maximum potential difference is called the electromotive force (emf) of the battery.

Physics Chapter 20: Circuits and Circuit Elements.

Circuit Test Mini-Review. For the following circuit: 20 Ω50 Ω 120 V.

DC Review OppositionFlowPowerReaction

Lecture 17 AC circuits RLC circuits Transformer Maxwell.

Linear variable differential transducer (LVDT). The linear variable differential transducer (LVDT) is a type of electrical transformer used for measuring.

RESISTANCE OF A SYSTEM OF RESISTORS Resistance can be joined to each other by two ways: Electricity Combination of Resistors 1. Series combination 2. Parallel.

2 Resistors Chapter Topics Covered in Chapter 2

Module 2: Series DC Circuits. RecapRecap Do you still recall these?

Reciprocating Saw - Variable Resistors and Switches By: Ryan Kim.

Chapter 6 Voltage Regulators By En. Rosemizi Bin Abd Rahim EMT212 – Analog Electronic II.

Unit 3, Chapter 8 Integrated Science. Unit Three: Electricity and Magnetism 8.1 Ohm's Law 8.2 Work, Energy, and Power Chapter 8 Electrical Relationships.

Determine the mathematical models that capture the behavior of an electrical system 1.Elements making up an electrical system 2.First-principles modeling.

April 26 th, 2006 AC Circuits PHYS 102 Where T is the period of oscillation.

1 Summary of Circuits Theory. 2 Voltage and Current Sources Ideal Voltage Source It provides an output voltage v s which is independent of the current.

EMT212 – Analog Electronic II

Lectures 7 to 10 The Electric Current and the resistance Electric current and Ohm’s law The Electromotive Force and Internal Resistance Electrical energy.

OHM’S LAW AND ELECTRICAL POWER. OHM’S LAW “Provided the physical conditions, such as temperature, are kept constant, the resistance is constant over a.

Alternating Current Circuits. AC Sources  : angular frequency of AC voltage  V max : the maximum output voltage of AC source.

Chapter 18 Electric Circuits Chapter Opening 18.1 Electric circuits and electric current 18.2 Electrical energy and voltage 18.3 Resistance and Ohm’s law.

I Example: A 12 V battery with 2  internal resistance is connected to a 4  resistor. Calculate (a) the rate at which chemical energy is converted to.

Ohm’s Law. Ohm’s Law states that the voltage v across a resistor is directly proportional to the current flowing through it.

Glencoe Physics Chapter 23 ”Circuits and Circuit Elements"

6.2 ELECTRONICS. CAPACITOR An electrical device used to store electrical charge.

A Requirement for Superposition. Objective of Lecture Introduce the property of linearity Chapter 4.2.

TECHNOLOGIES ESO 4 UNIT 1: ELECTRICITY AND ELECTRONICS ANALOGIC ELECTRONICS (PART 1)

CHAPTER 1 – DET Introduction to electric circuit

Chapter 6: Voltage Regulator

Lab 2: Experiment 4 Kirchoff’s Laws Circuits to be Constructed Circuit from Lab ManualCircuit from Instructions.

END BASIC ELECTRICAL THEORY Basic Electricity. 1 THE ATOM AND ITS STRUCTURE.

Control Devices/Electrical Conditioners

ECE 3301 General Electrical Engineering

FM TRANSMITTER 2 KM RANGE FOR YAGI ANTENNA

Inductance Resistance offered by an inductor in an circuit is called inductance. The unit of inductance is Henry. It is denoted by L.

ME375 Handouts - Spring 2002ME375-Fall 2002

RESISTORS A resistor is used to reduce the flow of electricity in an electric circuit. Resistorscome in fixed or variable types.

Capacitors and Inductors

Last day to vote!!! New maximum is extended to 30 points

Unit – I Basic Circuits Analysis

Resistance AIM: Understand resistance, calculate resistor values and know the characteristics of different types of resistors PRIOR KNOWLEDGE: Understand.

Potential Dividers Electric Circuits ☞.

An AC voltage source drives a sinusoidal current through two resistors. The amplitude of the sinusoidal voltage across the top resistor is 4 V. The amplitude.

Amateur Extra Q & A Study Pool

Current Directions and

Resistors and Ohm’s Law Experiment No

Lecture 2 Electrical and Electronics Circuits. After you study, and apply ideas in this Lecture, you will: Understand differences among resistance, capacitance,

Presentation transcript:

Saxion University of Applied Sciences Hardware components and V-model Lesson 2 J.S.D. Stokkink

Saxion University of Applied Sciences 2 Hardware & V-model Lesson contents  Resistors  Capacitors  Inductors

Saxion University of Applied Sciences 3 Hardware & V-model Resistors

Saxion University of Applied Sciences 4 Hardware & V-model Resistors

Saxion University of Applied Sciences 5 Hardware & V-model Resistor values Resistor has the unit Ohm Ω

Saxion University of Applied Sciences 6 Hardware & V-model Resistors (prefix)

Saxion University of Applied Sciences 7 Hardware & V-model

Saxion University of Applied Sciences 8 Hardware & V-model Resistors SMD (Surface Mounted Devices)

Saxion University of Applied Sciences 9 Hardware & V-model Resistors series E12 serie : 12 values, also available E24, E48, E96 and E192

Saxion University of Applied Sciences 10 Hardware & V-model

Saxion University of Applied Sciences 11 Hardware & V-model Resistor array

Saxion University of Applied Sciences 12 Hardware & V-model Variable Resistors

Saxion University of Applied Sciences 13 Hardware & V-model Variable Resistors

Saxion University of Applied Sciences 14 Hardware & V-model Resistors

Saxion University of Applied Sciences 15 Hardware & V-model Variable Resistors Linear -logarithmic A linear potentiometer has a resistive element of constant cross-section, resulting in a device where the resistance between the contact (wiper) and one end terminal is proportional to the distance between them A logarithmic potentiometer has a resistive element that either 'tapers' in from one end to the other, or is made from a material whose resistivity varies from one end to the other. This results in a device where output voltage is a logarithmic function of the slider position.

Saxion University of Applied Sciences 16 Hardware & V-model Power  Resistors are rated by the value of their resistance and the Electrical Power  in Watts, (W) that they can safely dissipate based mainly upon their size. Every resistor has a maximum power rating which is determined by its physical size as generally, the greater its surface area the more power it can dissipate safely into the ambient air or into a heatsink.

Saxion University of Applied Sciences 17 Hardware & V-model Capacitor

Saxion University of Applied Sciences 18 Hardware & V-model Capacitor

Saxion University of Applied Sciences 19 Hardware & V-model Capacitor

Saxion University of Applied Sciences 20 Hardware & V-model Capacitor

Saxion University of Applied Sciences 21 Hardware & V-model Inductions