Madhurig: Created page with "{| border=1 ||'''Visual Cue''' ||'''Narration''' |- ||'''Slide Number 1''' '''Title Slide''' || Hello everyone. Welcome to this tutorial on '''Transient Response of circuits..."

2015-11-10T11:27:54Z

Created page with "{| border=1 ||'''Visual Cue''' ||'''Narration''' |- ||'''Slide Number 1''' '''Title Slide''' || Hello everyone. Welcome to this tutorial on '''Transient Response of circuits..."

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{| border=1
||'''Visual Cue'''
||'''Narration'''
|-
||'''Slide Number 1'''

'''Title Slide'''
|| Hello everyone.

Welcome to this tutorial on '''Transient Response of circuits'''.
|-
|| '''Slide Number 2'''

'''Learning Objectives'''

* Transient response of RC, RL and LCR circuits

* Under damped discharge of LCR circuit

* RC integration and Differentiation.
|| In this tutorial we will study:

* Transient response of RC, RL and LCR circuits

* Under damped discharge of LCR circuit

* RC integration and Differentiation.
|-
|| '''Slide Number 3'''

'''System Requirement'''

* '''ExpEYES''' v 3.1.0

* '''Ubuntu Linux '''OS v. 14.10.

|| Here I am using,

* '''ExpEYES''' version 3.1.0

* '''Ubuntu Linux''' OS version 14.10.
|-
|| '''Slide Number 4'''

'''Pre-requisties'''

You should be familiar with:

'''ExpEYES '''interface.

For relevant tutorials, visit our website.

'''www.spoken-tutorial.org'''.
|| To follow this tutorial, you should be familiar with:

'''ExpEYES Junior''' interface.

If not, for relevant tutorials, please visit our website.
|-
||
||Let's first define '''transient Response''' of a circuit.
|-
|| '''Slide Number 5'''

'''Transient Response'''

'''Transient Response''' is, how a circuit responds to stored energy in capacitors or inductors.

Stored energy in a capacitor or an inductor, can be dissipated by a resistor.
|| '''Transient Response''' is, how a circuit responds to stored energy in capacitors or inductors.

The stored energy in a capacitor or an inductor, can be dissipated by a resistor.
|-
|| '''Slide Number 6'''

'''Transient Response of RC'''

Demonstrate transient Response of RC circuit.
||Now we will demonstrate '''transient Response''' of '''RC circuit'''.
|-
|| '''Slide Number 7'''

'''Transient Response''' of '''RC'''

Plot '''Step up''' and '''Step down''' voltage curves of '''RC''' circuit.

Measure '''RC''' in '''milli seconds'''.
|| In this experiment we will,

* Plot '''Step up''' and '''Step down''' voltage curves of '''RC''' circuit.

* Measure '''RC''' in '''milli seconds'''.
|-
|| Show the picture.

Point to the circuit diagram.
|| To perform this experiment, '''OD1''' is connected to '''A1''' through '''1K''' resistor.

'''1uF(one micro farad)''' capacitor is connected between '''A1''' and ground('''GND''').

This is the circuit diagram.
|-
||
|| Let's see the result on the '''Plot window'''.

|-
|| Point to the '''Plot window''',

click on '''EXPERIMENTS''' button.

Select '''RC Circuit'''.
|| On the''' Plot window''',

click on '''EXPERIMENTS''' button.

Select '''RC Circuit'''.

|-
|| Point to the windows.
|| '''Transient response of RC Circuit''' and '''Schematic''' windows open.

'''Schematic''' window shows '''RC Circuit Transient'''.
|-
|| Click on '''0 to 5V STEP''' button.

Point to the curve.
|| On the '''Transient response of RC Circuit''' window, click on '''0 to 5V STEP''' button.

'''Step up''' voltage curve is displayed.
|-
|| Click on '''5 to 0V STEP''' button.

Point to the curve.
|| Then click on '''5 to 0V STEP''' button.

'''Step down''' voltage curve is displayed.
|-
|| Click on '''Calculate RC''' button.

Point to the value.
|| Click on '''Calculate RC''' button.

'''RC =1.14 msec''' is displayed.
|-
|| Click on '''Clear''' button.
|| Click on '''Clear''' button to clear the window.
|-
|| Click on '''CC Charge''' button.

Point to the trace.
|| Click on '''CC Charge''' button.

A horizontal trace is seen at ''4.5 volts''.
|-
|| '''Slide Number 8'''

'''Charging of capacitor'''

* Charging of capacitor with constant current.

* Measure '''RC''' in milli Seconds.
|| Next we will show:

* Charging of capacitor with constant current and

* Measure '''RC''' in milli seconds.
|-
|| Show the picture.

Show the circuit diagram.
|| In the circuit we will connect '''1K''' resistor to '''CCS''' instead of '''OD1'''.

This is the circuit diagram.
|-
|| Click on '''CLEAR '''button.
|| Click on '''CLEAR '''button to clear the window.
|-
|| Click on '''CC Charge''' button.

Point to the curve.
|| Click on '''CC Charge''' button.

Voltage across the capacitor rises '''ex-ponentially'''.
|-
|| Click on '''Calculate RC''' button.

Point to the value.
|| Click on '''Calculate RC''' button.

Value of '''RC<nowiki>=</nowiki> 5.81 mSec''' is displayed.
|-
|| '''Slide Number 9'''

'''Transient Response of RL'''

Demonstrate transient Response of RL.
|| Now we will demonstrate '''transient Response''' of '''RL circuit'''.
|-
|| '''Slide Number 10'''

'''Transient Response of RL'''

Plot '''Step up''' and '''Step down''' voltage curves of '''RL''' circuit.

Measure '''R/L'''.
|| In this experiment we will,

* Plot''' Step up''' and '''Step down '''voltage curves of '''RL''' and

* Measure ''' R/L'''.
|-
|| Show the picture.
|| In this experiment '''IN1''' is connected to '''OD1'''.

'''OD1''' is connected to '''A1 '''through '''1K''' resistor.

'''A1''' is connected to '''GND''' through a coil.

|-
|| Show the circuit diagram.
|| This is the circuit diagram.
|-
||
|| Let's see the result on the '''Plot window'''.
|-
|| Point to the '''Plot window''',

click on '''EXPERIMENTS''' button.

Select '''RL Circuit'''.
|| On the''' Plot window''', click on '''EXPERIMENTS''' button.

Select '''RL Circuit'''.
|-
|| Point to the windows.
|| '''Transient response of RL Circuit''' and '''Schematic''' windows open.

'''Schematic''' window shows '''RL Circuit Transient'''.
|-
|| Click on''' 0 to 5V STEP''' button.

Point to the curve.
|| On the '''Transient response of RL Circuit''' window, click on '''0 to 5V STEP''' button.

'''Step up''' voltage curve is displayed.
|-
|| Click on '''5 to 0V STEP ''' button.

Point to the curve.
|| Click on '''5 to 0V STEP''' button.

'''Step down''' voltage curve is displayed.
|-
|| Click on '''Calculate R/L''' button.

Point to the values.
|| Click on '''Calculate R/L''' button to display the values.

'''L/R''' value is '''=0.083mSec(milli second)'''.

'''Rind''' value is '''<nowiki>=529 Ohm</nowiki>'''.

Inductor value is '''<nowiki>=</nowiki>127.6mH(milli henry)'''.

Here '''R''' is resistance '''L''' is inductance and '''Rind''' is resistance of the inductor.
|-
|| '''Slide Number 11'''

'''Assignment'''

Plot voltage curves of '''RL''' circuit using two coils connected in series.
|| As an assignment,

Plot voltage curves of '''RL''' circuit using two coils connected in series.
|-
|| '''Slide Number 12'''

'''LCR Circuit'''

Show '''under damped discharge''' of '''LCR '''circuit.
|| Now we will show '''under damped discharge''' of '''LCR '''circuit.
|-
|| Show the picture.

Show the circuit diagram.
|| In this experiment, '''OD1''' is connected to '''A1''' through a coil.

'''A1''' is connected to '''GND''' through '''0.1uF'''(0.1 micro farad) capacitance.

This is the circuit diagram.
|-
||
|| Let's see the result on the '''Plot window'''.
|-
|| Point to the '''Plot window,'''

click on '''EXPERIMENTS''' button.

Select '''RC Circuit'''.
|| On the''' Plot window, '''click on '''EXPERIMENTS''' button.

Select '''RLC Discharge'''.

|-
|| Point to the windows.
|| '''EYES Junior: RLC Discharge''' and '''Schematic''' windows open.

'''Schematic''' window shows '''RLC Circuit Transient.'''
|-
|| Click on''' 0 to 5V STEP '''button.

Point to the curve.
|| On the '''EYES Junior: RLC Discharge''' window, click on '''5->0V STEP''' button.

'''Step down''' voltage curve is displayed.
|-
|| Move the '''mS/div''' slider, click on '''5->0V STEP''' button.

Point to the curve.
|| Move the '''mS/div''' slider and click on '''5->0V STEP''' button.

'''Under damped discharge''' curve is displayed.
|-
|| Click on '''FIT''' button.

Point to the values.
|| Click on '''FIT''' button to display the values.

'''Resonant Frequency <nowiki>=1.38</nowiki> KHz''' and '''Damping <nowiki>= 0.300 </nowiki>'''
|-
|| '''Slide Number 13'''

'''Assignment'''

Plot Over damped discharge of '''LCR circuit''' using 2K resistor.
|| As an assignment,

Plot over damped discharge of '''LCR circuit''' using a '''2K''' resistor.

This is the circuit diagram.
|-
|| '''Slide Number 14'''

'''RC Integration'''

'''Demonstrate RC integration'''
|| Now we will demonstrate '''RC integration'''.

|-
||'''Slide Number 15'''

'''RC Integration'''

Transform a square wave to a triangular wave.
|| In this experiment we will transform,

* a square wave into a triangular wave.
|-
|| Show the picture.

Point to the circuit diagram.
|| Here '''SQR2''' is connected to '''A1''' through '''1K''' resistor.

This is the circuit diagram.
|-
||
|| Let's see the result on the '''Plot window'''.

|-
|| Set '''SQR2''' to ''1000 Hz''.
|| On the '''Plot window''' set '''SQR2''' to ''1000 Hz''.

Click on '''SQR2''' check box.

|-
|| Move the '''frequency slider'''.
|| Move the '''frequency slider'''.

|-
|| Move the '''mSec/div '''slider.
|| Move the '''mSec/div '''slider to adjust the wave.

A square wave is generated.
|-
|| Show the picture.

Point to the circuit diagram.
|| In the same connection,

Connect '''A1''' to '''GND''' through '''1uF(one micro farad)''' capacitor.

This is the circuit diagram.

|-
|| Point to the wave.
|| A triangular wave is generated.

A square wave is transformed to a triangular wave when '''RC''' is integrated.
|-
|| Click on '''XMG''' button.
|| Click on '''XMG''' button to show the '''Grace''' plot of the triangular wave.
|-
||'''Slide Number 16'''

'''RC Differentiation'''.

Demonstrate '''RC Differentiation'''.
|| Now we will demonstrate '''RC differentiation'''.
|-
||'''Slide Number 17'''

'''RC Differentiation'''.

Transform a square wave to a narrow spikes wave.
|| In this experiment we will transform a square wave to a narrow spikes wave.
|-
|| Show the picture.

Point to the circuit diagram.
|| In this experiment '''SQR2''' is connected to''' A1''' through '''1uF(one micro farad)''' capacitor.

This is the circuit diagram.
|-
||
|| Let's see the result on the '''Plot window'''.
|-
||
|| A square wave is generated.
|-
|| Show the picture.

Point to the circuit diagram.
|| In the same connection,

Connect''' A1''' to '''GND''' through 1K Resistor

This is the circuit diagram .

|-
|| Set '''SQR2''' to ''100 Hz''.
|| On the '''Plot window''' Set '''SQR2''' to ''100 Hz''.
|-
|| Move the '''mSec/div''' slider.

Point to the waves.
|| Move the '''mSec/div''' slider to adjust the waves.

A narrow spikes wave is generated.

A square wave is transformed to a '''narrow spikes '''wave when '''RC '''is differentiated.
|-
|| Click on '''XMG''' button.
|| Click on '''XMG''' button to show the '''Grace''' plot.
|-
||
|| Let's summarize.
|-
|| '''Slide Number 18'''

'''Summary'''

We have studied,

* Transient response of RC, RL and LCR circuits.

* Under damped discharge of LCR circuit

* RC integration and Differentiation.
|| In this tutorial we have studied,

* Transient response of RC, RL and LCR circuits.

* Under damped discharge of LCR circuit

* RC integration and Differentiation.
|-
|| '''Slide Number 19'''

'''Acknowledgement '''

Watch the video available at

http://spoken-tutorial.org

/What is a Spoken Tutorial

It summarises the Spoken Tutorial

project.

If you do not have good bandwidth,

you can download and watch it.
||
* This video summarises the Spoken Tutorial project

* If you do not have good bandwidth, you can download and watch it.
|-
|| '''Slide Number 20'''

The Spoken Tutorial Project Team

Conducts workshops using spoken

tutorials

Gives certificates to those who pass

an online test

For more details, please write to

'''contact@spoken-tutorial.org'''
|| * We conduct workshops using Spoken Tutorials and give certificates.
* Please contact us.
|-
|| '''Slide number 21'''

Spoken Tutorial Project is a part of

the Talk to a Teacher project

It is supported by the National

Mission on Education through ICT,

MHRD, Government of India

More information on this Mission is

available at''' '''

'''http://spoken-tutorial.org '''

'''/NMEICT-Intro '''

|| The Spoken Tutorial Project is funded by '''NMEICT, MHRD''' '''Government of '''India
|-
||
|| This tutorial is contributed by Kaushik Datta and Madhuri Ganapathi.

Thank you for joining.

|}

ExpEYES/C3/Transient-Response-of-Circuits/English - Revision history

Madhurig: Created page with "{| border=1 ||'''Visual Cue''' ||'''Narration''' |- ||'''Slide Number 1''' '''Title Slide''' || Hello everyone. Welcome to this tutorial on '''Transient Response of circuits..."