Difference between revisions of "ExpEYES/C3/Transient-Response-of-Circuits/English-timed"
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| In this tutorial, we will study: | | In this tutorial, we will study: | ||
| − | + | '''Transient response''' of '''RC, RL''' and '''LCR circuit'''s | |
| − | + | '''Underdamped discharge''' of '''LCR circuit''' | |
| − | + | '''RC integration''' and '''Differentiation'''. | |
|- | |- | ||
| Line 21: | Line 21: | ||
| Here, I am using: | | Here, I am using: | ||
| − | + | '''ExpEYES''' version 3.1.0 | |
| − | + | '''Ubuntu Linux OS''' version 14.10. | |
|- | |- | ||
| Line 31: | Line 31: | ||
|- | |- | ||
| 00:44 | | 00:44 | ||
| − | |Let's first define '''transient Response''' of a circuit. | + | |Let's first define '''transient Response''' of a '''circuit'''. |
|- | |- | ||
|00:49 | |00:49 | ||
| − | |'''Transient Response''' is- how a circuit responds to stored energy in capacitors or inductors. | + | |'''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. | + | The stored energy in a '''capacitor''' or an '''inductor''' can be dissipated by a '''resistor'''. |
|- | |- | ||
| Line 46: | Line 46: | ||
| In this experiment, we will: | | In this experiment, we will: | ||
| − | + | Plot '''Step up''' and '''Step down''' '''voltage curve'''s of '''RC''' circuit. | |
| − | + | Measure '''RC''' in '''milli seconds'''. | |
|- | |- | ||
| Line 56: | Line 56: | ||
|- | |- | ||
|01:24 | |01:24 | ||
| − | |'''1uF(one micro farad)''' '''capacitor''' is connected between '''A1''' and ground('''GND'''). | + | |'''1uF (one micro farad)''' '''capacitor''' is connected between '''A1''' and ground ('''GND'''). |
| − | This is the circuit diagram. | + | This is the '''circuit diagram'''. |
|- | |- | ||
| Line 75: | Line 75: | ||
|01:52 | |01:52 | ||
|On the '''Transient response of RC Circuit''' window, click on '''0 to 5V STEP''' button. | |On the '''Transient response of RC Circuit''' window, click on '''0 to 5V STEP''' button. | ||
| − | '''Step up | + | ''''Step up' voltage curve''' is displayed. |
|- | |- | ||
| Line 83: | Line 83: | ||
|- | |- | ||
|02:11 | |02:11 | ||
| − | |Click on '''Calculate RC''' button. '''RC =1.14 msec''' is displayed. | + | |Click on '''Calculate RC''' button. '''RC = 1.14 msec''' is displayed. |
|- | |- | ||
| Line 95: | Line 95: | ||
|- | |- | ||
|02:31 | |02:31 | ||
| − | | Next we will show: | + | | Next, we will show: |
| − | + | Charging of capacitor with constant current and | |
| − | + | Measure '''RC''' in '''milli seconds'''. | |
|- | |- | ||
| Line 111: | Line 111: | ||
|- | |- | ||
|02:55 | |02:55 | ||
| − | | Click on '''CC Charge''' button. Voltage across the capacitor rises exponentially. | + | | Click on '''CC Charge''' button. '''Voltage''' across the '''capacitor''' rises exponentially. |
|- | |- | ||
| Line 123: | Line 123: | ||
|- | |- | ||
|03:17 | |03:17 | ||
| − | |In this experiment we will: | + | |In this experiment, we will: |
| + | Plot''' Step up''' and '''Step down '''voltage curves of '''RL''' and | ||
| − | + | Measure ''' R/L'''. | |
| − | + | ||
| − | + | ||
|- | |- | ||
| Line 134: | Line 133: | ||
'''IN1''' is connected to '''OD1'''. | '''IN1''' is connected to '''OD1'''. | ||
| − | '''OD1''' is connected to '''A1 '''through '''1K''' resistor. | + | '''OD1''' is connected to '''A1''' through '''1K''' resistor. |
'''A1''' is connected to '''GND''' through a coil. | '''A1''' is connected to '''GND''' through a coil. | ||
| Line 158: | Line 157: | ||
|04:02 | |04:02 | ||
| On the '''Transient response of RL Circuit''' window, click on '''0 to 5V STEP''' button. | | On the '''Transient response of RL Circuit''' window, click on '''0 to 5V STEP''' button. | ||
| − | '''Step up | + | ''''Step up' voltage curve''' is displayed. |
|- | |- | ||
| Line 170: | Line 169: | ||
|- | |- | ||
|04:26 | |04:26 | ||
| − | |'''L/R''' value is '''=0.083mSec(milli second)'''. | + | |'''L/R''' value is '''= 0.083mSec (milli second)'''. |
'''Rind''' value is '''=529 Ohm'''. | '''Rind''' value is '''=529 Ohm'''. | ||
|- | |- | ||
|04:35 | |04:35 | ||
| − | |Inductor value | + | |Inductor value i s '''=127.6mH(milli henry)'''. |
| − | Here | + | Here- 'R' is '''resistance''', 'L' is '''inductance''' and 'Rind' is '''resistance''' of the '''inductor'''. |
|- | |- | ||
|04:50 | |04:50 | ||
| − | | As an assignment, plot voltage curves of '''RL''' | + | | As an assignment, plot voltage curves of '''RL circuit''' using two coils connected in series. |
|- | |- | ||
|04:57 | |04:57 | ||
| − | | Now, we will show ''' | + | | Now, we will show '''underdamped discharge''' of '''LCR '''circuit. |
|- | |- | ||
| Line 192: | Line 191: | ||
|- | |- | ||
|05:07 | |05:07 | ||
| − | |'''A1''' is connected to '''GND''' through '''0.1uF'''(0.1 micro farad) capacitance. This is the circuit diagram. | + | |'''A1''' is connected to '''GND''' through '''0.1uF''' (0.1 micro farad) capacitance. This is the circuit diagram. |
|- | |- | ||
| Line 204: | Line 203: | ||
|- | |- | ||
|05:25 | |05:25 | ||
| − | | '''EYES Junior: RLC Discharge''' and '''Schematic''' windows open. '''Schematic''' window shows '''RLC Circuit Transient.''' | + | | '''EYES Junior: RLC Discharge''' window and '''Schematic''' windows open. '''Schematic''' window shows '''RLC Circuit Transient.''' |
|- | |- | ||
| Line 212: | Line 211: | ||
|- | |- | ||
|05:45 | |05:45 | ||
| − | | Move the '''mS/div''' slider and click on '''5->0V STEP''' button. ''' | + | | Move the '''mS/div''' slider and click on '''5->0V STEP''' button. '''Underdamped discharge curve''' is displayed. |
|- | |- | ||
|05:55 | |05:55 | ||
|Click on '''FIT''' button to display the values. | |Click on '''FIT''' button to display the values. | ||
| − | '''Resonant Frequency=1.38 KHz''' and '''Damping = 0.300'''. | + | '''Resonant Frequency = 1.38 KHz''' and '''Damping = 0.300'''. |
|- | |- | ||
|06:08 | |06:08 | ||
| As an assignment- | | As an assignment- | ||
| − | Plot | + | Plot '''overdamped discharge''' of '''LCR circuit''' using a '''2K''' resistor. This is the circuit diagram. |
|- | |- | ||
|06:18 | |06:18 | ||
| − | |Now we will demonstrate '''RC integration'''. | + | |Now ,we will demonstrate '''RC integration'''. |
|- | |- | ||
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|- | |- | ||
|06:28 | |06:28 | ||
| − | | Here '''SQR2''' is connected to '''A1''' through '''1K''' resistor. This is the circuit diagram. | + | | Here, '''SQR2''' is connected to '''A1''' through '''1K''' resistor. This is the circuit diagram. |
|- | |- | ||
| Line 242: | Line 241: | ||
|- | |- | ||
|06:38 | |06:38 | ||
| − | |On the '''Plot window''', set '''SQR2''' to ''1000 Hz''. Click on '''SQR2''' check box. | + | |On the '''Plot window''', set '''SQR2''' to ''1000 Hz''. Click on '''SQR2''' check-box. |
|- | |- | ||
| Line 254: | Line 253: | ||
|- | |- | ||
|06:56 | |06:56 | ||
| − | | In the same connection, connect '''A1''' to '''GND''' through '''1uF(one micro farad)''' capacitor. This is the circuit diagram. | + | | In the same connection, connect '''A1''' to '''GND''' through '''1uF (one micro farad)''' capacitor. This is the circuit diagram. |
|- | |- | ||
| Line 266: | Line 265: | ||
|- | |- | ||
|07:20 | |07:20 | ||
| − | |Now we will demonstrate '''RC differentiation'''. | + | |Now, we will demonstrate '''RC differentiation'''. |
|- | |- | ||
| Line 272: | Line 271: | ||
| In this experiment we will transform a square wave to a narrow spikes wave. | | In this experiment we will transform a square wave to a narrow spikes wave. | ||
| − | |- | + | |- |
|07:31 | |07:31 | ||
| − | | In this experiment, '''SQR2''' is connected to''' A1''' through '''1uF(one micro farad)''' capacitor. This is the circuit diagram. | + | | In this experiment, '''SQR2''' is connected to''' A1''' through '''1uF (one micro farad)''' capacitor. This is the circuit diagram. |
|- | |- | ||
| Line 285: | Line 284: | ||
|- | |- | ||
| − | |07: | + | |07:46 |
| − | |In the same connection, connect''' A1''' to '''GND''' through 1K Resistor. This is the circuit diagram. | + | |In the same connection, connect''' A1''' to '''GND''' through '''1K Resistor'''. This is the circuit diagram. |
|- | |- | ||
| Line 310: | Line 309: | ||
|- | |- | ||
|08:21 | |08:21 | ||
| − | | In this tutorial we have studied: | + | | In this tutorial, we have studied: |
| − | + | Transient response of RC, RL and LCR circuits | |
| − | + | ||
| − | + | '''Underdamped discharge''' of '''LCR circuit''' | |
| − | + | '''RC integration''' and '''Differentiation'''. | |
|- | |- | ||
|08:36 | |08:36 | ||
| − | |This video summarizes the Spoken Tutorial project. If you do not have good bandwidth, you can download and watch it. | + | |This video summarizes the '''Spoken Tutorial''' project. If you do not have good bandwidth, you can download and watch it. |
|- | |- | ||
| Line 328: | Line 326: | ||
|- | |- | ||
|08:51 | |08:51 | ||
| − | |The Spoken Tutorial | + | |The Spoken Tutorial project is funded by NMEICT, MHRD, Government of India. |
|- | |- | ||
|08:57 | |08:57 | ||
| − | |This tutorial is contributed by Kaushik Datta and Madhuri Ganapathi. | + | |This tutorial is contributed by Kaushik Datta and Madhuri Ganapathi.Thank you for joining. |
| − | Thank you for joining. | + | |
|} | |} | ||
Latest revision as of 18:07, 20 February 2017
| Time | Narration |
| 00:01 | Hello everyone. Welcome to this tutorial on Transient Response of circuits. |
| 00:08 | In this tutorial, we will study:
Transient response of RC, RL and LCR circuits Underdamped discharge of LCR circuit RC integration and Differentiation. |
| 00:24 | Here, I am using:
ExpEYES version 3.1.0 Ubuntu Linux OS version 14.10. |
| 00:33 | To follow this tutorial, you should be familiar with ExpEYES Junior interface. If not, for relevant tutorials, please visit our website. |
| 00:44 | Let's first define transient Response of a circuit. |
| 00:49 | 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. |
| 01:03 | Now we will demonstrate transient Response of RC circuit. |
| 01:07 | In this experiment, we will:
Plot Step up and Step down voltage curves of RC circuit. Measure RC in milli seconds. |
| 01:18 | To perform this experiment, OD1 is connected to A1 through 1K resistor. |
| 01:24 | 1uF (one micro farad) capacitor is connected between A1 and ground (GND).
This is the circuit diagram. |
| 01:34 | Let's see the result on the Plot window. |
| 01:36 | On the Plot window, click on EXPERIMENTS button. Select RC Circuit. |
| 01:43 | Transient response of RC Circuit and Schematic windows open.
Schematic window shows RC Circuit Transient. |
| 01:52 | On the Transient response of RC Circuit window, click on 0 to 5V STEP button.
'Step up' voltage curve is displayed. |
| 02:03 | Then click on 5 to 0V STEP button. Step down voltage curve is displayed. |
| 02:11 | Click on Calculate RC button. RC = 1.14 msec is displayed. |
| 02:20 | Click on Clear button to clear the window. |
| 02:24 | Click on CC Charge button. A horizontal trace is seen at 4.5 volts. |
| 02:31 | Next, we will show:
Charging of capacitor with constant current and Measure RC in milli seconds. |
| 02:41 | In the circuit, we will connect 1K resistor to CCS instead of OD1. This is the circuit diagram. |
| 02:51 | Click on CLEAR button to clear the window. |
| 02:55 | Click on CC Charge button. Voltage across the capacitor rises exponentially. |
| 03:03 | Click on Calculate RC button. Value of RC= 5.81 mSec is displayed. |
| 03:12 | Now we will demonstrate transient Response of RL circuit. |
| 03:17 | In this experiment, we will:
Plot Step up and Step down voltage curves of RL and Measure R/L. |
| 03:26 | In this experiment,
IN1 is connected to OD1. OD1 is connected to A1 through 1K resistor. A1 is connected to GND through a coil. |
| 03:38 | This is the circuit diagram. |
| 03:41 | Let's see the result on the Plot window. |
| 03:44 | On the Plot window, click on EXPERIMENTS button. Select RL Circuit. |
| 03:51 | Transient response of RL Circuit and Schematic windows open.
Schematic window shows RL Circuit Transient. |
| 04:02 | On the Transient response of RL Circuit window, click on 0 to 5V STEP button.
'Step up' voltage curve is displayed. |
| 04:12 | Click on 5 to 0V STEP button. Step down voltage curve is displayed. |
| 04:20 | Click on Calculate R/L button to display the values. |
| 04:26 | L/R value is = 0.083mSec (milli second).
Rind value is =529 Ohm. |
| 04:35 | Inductor value i s =127.6mH(milli henry).
Here- 'R' is resistance, 'L' is inductance and 'Rind' is resistance of the inductor. |
| 04:50 | As an assignment, plot voltage curves of RL circuit using two coils connected in series. |
| 04:57 | Now, we will show underdamped discharge of LCR circuit. |
| 05:02 | In this experiment, OD1 is connected to A1 through a coil. |
| 05:07 | A1 is connected to GND through 0.1uF (0.1 micro farad) capacitance. This is the circuit diagram. |
| 05:15 | Let's see the result on the Plot window. |
| 05:18 | On the Plot window, click on EXPERIMENTS button. Select RLC Discharge. |
| 05:25 | EYES Junior: RLC Discharge window and Schematic windows open. Schematic window shows RLC Circuit Transient. |
| 05:35 | On the EYES Junior: RLC Discharge window, click on 5->0V STEP button. Step down voltage curve is displayed. |
| 05:45 | Move the mS/div slider and click on 5->0V STEP button. Underdamped discharge curve is displayed. |
| 05:55 | Click on FIT button to display the values.
Resonant Frequency = 1.38 KHz and Damping = 0.300. |
| 06:08 | As an assignment-
Plot overdamped discharge of LCR circuit using a 2K resistor. This is the circuit diagram. |
| 06:18 | Now ,we will demonstrate RC integration. |
| 06:21 | In this experiment, we will transform a square wave into a triangular wave. |
| 06:28 | Here, SQR2 is connected to A1 through 1K resistor. This is the circuit diagram. |
| 06:34 | Let's see the result on the Plot window. |
| 06:38 | On the Plot window, set SQR2 to 1000 Hz. Click on SQR2 check-box. |
| 06:45 | Move the frequency slider. |
| 06:48 | Move the mSec/div slider to adjust the wave. A square wave is generated. |
| 06:56 | In the same connection, connect A1 to GND through 1uF (one micro farad) capacitor. This is the circuit diagram. |
| 07:05 | A triangular wave is generated. A square wave is transformed to a triangular wave when RC is integrated. |
| 07:14 | Click on XMG button to show the Grace plot of the triangular wave. |
| 07:20 | Now, we will demonstrate RC differentiation. |
| 07:24 | In this experiment we will transform a square wave to a narrow spikes wave. |
| 07:31 | In this experiment, SQR2 is connected to A1 through 1uF (one micro farad) capacitor. This is the circuit diagram. |
| 07:40 | Let's see the result on the Plot window. |
| 07:43 | A square wave is generated. |
| 07:46 | In the same connection, connect A1 to GND through 1K Resistor. This is the circuit diagram. |
| 07:55 | On the Plot window, set SQR2 to 100 Hz. |
| 08:00 | Move the mSec/div slider to adjust the waves. A narrow spikes wave is generated. |
| 08:08 | A square wave is transformed to a narrow spikes wave when RC is differentiated. |
| 08:15 | Click on XMG button to show the Grace plot. |
| 08:19 | Let's summarize. |
| 08:21 | In this tutorial, we have studied:
Transient response of RC, RL and LCR circuits Underdamped discharge of LCR circuit RC integration and Differentiation. |
| 08:36 | This video summarizes the Spoken Tutorial project. If you do not have good bandwidth, you can download and watch it. |
| 08:44 | We conduct workshops using Spoken Tutorials and give certificates. Please contact us. |
| 08:51 | The Spoken Tutorial project is funded by NMEICT, MHRD, Government of India. |
| 08:57 | This tutorial is contributed by Kaushik Datta and Madhuri Ganapathi.Thank you for joining. |
