Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET

Size: px
Start display at page:

Download "Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET"

Transcription

1 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II AIM:. To Plot the Volt Ampere Characteristics of PN Junction Diode under Forward and Reverse Bias Conditions.. To find the Cut-in voltage, Static Resistance, Dynamic Resistance for Forward Bias & Reverse Bias APPARATUS: S.No Name Range / Value Quantity DC Regulated Power Supply 0 0 volts Diode N 00 Diode OA 8 Resistor K D.C Ammeters 0 00mA, 0 00 A Each D.C Volt meters 0 V, 0 0V Each Bread Board and connecting wires - Set PROCEDURE: FORWARD BIAS CHARACTERISTICS:. Connect the Circuit as per the Circuit Diagram on the bread board.. Switch on the Regulated Power Supply and slowly increase the source voltage. Increase the Diode Current in steps of ma and note down the corresponding voltage across the PN junction Diode under forward Bias condition as per table given below.. Take the readings until a Diode Current of 0mA.. Repeat the same by using Ge Diode instead of Si Diode.. Plot the graph V F versus I F on the graph Sheet in the st quadrant as in Fig.. From the graph find out the Static & Dynamic forward Bias resistance of the diode V R = F V, r ac = F. I F I F. Observe and note down the cut in Voltage of the diode. REVERSE BIAS CHARACTERISTICS:. Connect the Circuit as per the Circuit Diagram on the bread board.. Switch on the Regulated Power Supply and slowly increase the source voltage. Increase the Diode voltage in steps of.0 volts and note down the corresponding Current against the Voltage under Reverse Bias condition as per table given below.. Take readings until a Diode Voltage reaches 0.0V.

2 . Repeat the same by using Ge Diode instead of Si Diode.. Plot the graph V R versus I R on the graph Sheet in the rd quadrant as in Fig.. From the graph find out the Dynamic Reverse Bias resistance of the diode. V R = R, r ac = I R. Observe and note down the break down Voltage of the diode. TABULAR FORMS: S.No FORWARD BIAS: Voltmeter Reading V F (Volts) Ammeter Reading I F (ma) Voltmeter Reading V R (Volts) REVERSE BIAS: Ammeter Reading I R ( A) 0 RESULT : The V-I Characteristics of the PN Junction Diode are plotted for the both Forward and Reverse Bias conditions and Calculated the Cut in Voltage, Dynamic Forward and Reverse Bias resistance

3 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II CHARACTERISTICS OF ZENER DIODE & LOAD REGULATION AIM: i) To Obtain the Forward Bias and Reverse Bias characteristics of a Zener diode. ii) Find out the Zener Break down Voltage from the Characteristics. iii) To Obtain the Load Regulation Characteristics. APPARATUS: S.No Name Range / Value Quantity DC Regulated Power Supply Diode Resistor D.C Ammeters D.C Volt meters Decade Resistance Box Bread Board and connecting wires 0 0 volts ECZ. K, mA 0 V, 0 0V - - Each Each Set PROCEDURE: FORWARD BIAS CHARACTERISTICS:. Connect the Circuit as per the Circuit Diagram on the bread board.. Switch on the Regulated Power Supply and slowly increase the source voltage. Increase the Diode Current in steps of ma and note down the corresponding voltage across the Zener Diode under forward Bias condition as per table given below.. Take the readings until a Diode Current of 0mA.. Plot the graph V F versus I F on the graph Sheet in the st quadrant as in Fig.. From the graph find out the Static & Dynamic forward Bias resistance of the diode V R = F, r ac = I F V F. I F REVERSE BIAS CHARACTERISTICS:. Connect the Circuit as per the Circuit Diagram on the bread board.. Switch on the Regulated Power Supply and slowly increase the source voltage. Increase the Diode Current in steps of ma and note down the corresponding voltage across the Zener Diode under Reverse Bias condition as per table given below.. Take the readings until a Diode Current of 0mA.. Plot the graph V R versus I R on the graph Sheet in the rd quadrant as in Fig.. From the graph find out the Dynamic Reverse Bias resistance of the diode.

4 Observe and note down the break down Voltage of the diode. LOAD REGULATION CHARACTERISTICS:. Connect the Circuit as per the Circuit Diagram on the bread board.. By changing the load Resistance, kept constant I/P Voltage at V, 0 V, V as per table given below. Take the readings of O/P Voltmeter (Vo=Vz).. Now by changing the I/P Voltage, kept constant load Resistance at K, K, K as per table given below. Take the readings of O/P Voltmeter (Vo=Vz). TABULAR FORMS: FORWARD BIAS: REVERSE BIAS: S.No Voltmeter Reading V F (Volts) LOAD REGULATION: Ammeter Reading I F (ma) Voltmeter Reading V R (Volts) Ammeter Reading I R (ma) S.No R L ( ) K K K K 0K V i = V V O (V) V i = 0V V O (V) V i =V V O (V) Vi (V) R L =K V O (V) R L =K V O (V) R L =K V O (V) ZENER BREAKDOWN VOLTAGE: Draw a tangent on the reverse Bias Characteristic of the Zener Diode starting from the Knee and touching most of the points of the curve. The point where the tangent intersects the X-axis is the Zener Breakdown Voltage. RESULT: The Characteristics of the Forward and Reverse biased Zener Diode and the Zener Break Down Voltage from the Characteristics are Observed. Zener Breakdown Voltage = Volts. Forward Bias Resistance = Ohms

5 Reverse Bias Resistance = Ohms PRECAUTIONS:. Check the wires for continuity before use.. Keep the power supply at Zero volts before Start. All the contacts must be intact MODEL GRAPHS: ZENER DIODE CHARACTERISTICS: LOAD REGULATION CHARACTERISTICS:

6 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II HALF-WAVE RECTIFIER AIM: To Rectify the AC signal and then to find out Ripple factor and percentage of Regulation in Half wave rectifier with and without Capacitor filter. APPARATUS: S.No Nam e Transformer Diode Capacitors Decade Resistance Box Multimeter Bread Board and connecting wires Dual Trace CRO Range / Value 0V / 0-9V N MHz Set Quantity PROCEDURE: WITHOUT FILTER:. Connecting the circuit on bread board as per the circuit diagram. Connect the primary of the transformer to main supply i.e. 0V, 0Hz. Connect the decade resistance box and set the R L value to 00Ω. Connect the Multimeter at output terminals and vary the load resistance (DRB) from 00Ω to KΩ and note down the Vac and Vdc as per given tabular form. Disconnect load resistance ( DRB) and note down no load voltage Vdc (V no load ). Connect load resistance at KΩ and connect Channel II of CRO at output terminals and CH I of CRO at Secondary Input terminals observe and note down the Input and Output Wave form on Graph Sheet.. Calculate ripple factor V ac V dc

7 8. Calculate Percentage of Regulation, % V no load V full load 00% V no load WITH CAPACITOR FILTER:. Connecting the circuit as per the circuit Diagram and repeat the above procedure from steps to 8. TABULAR FORMS: WITHOUT FILTER: S.No Load Resistance R L (Ω) K O/P Voltage (Vo) V ac (V) V dc (V) V no load Voltage (Vdc) = V Ripple factor V ac V dc % of Regulation V NL V FL 00% V NL WITH CAPACITOR FILTER: S.No Load Resistance R L (Ω) K O/P Voltage (Vo) V ac (V) V dc (V) V no load Voltage (Vdc) = V Ripple factor V ac V dc % of Regulation V NL V FL 00% V NL MODEL GRAPHS: CIRCUIT DIAGRAMS: WITHOUT CAPACITOR FILTER AND WITH CAPACITOR FILTER:

8 WAVE SHAPES: RESULT: Observe Input and Output Wave forms and Calculate ripple factor and percentage of regulation in Half wave rectifier with and without filter. Without Filter: Ripple Factor : Regulation : With Capacitor Filter: Ripple Factor : Regulation : PRECAUTIONS:. Check the wires for continuity before use.. Keep the power supply at Zero volts before Start.. All the contacts must be intact.

9 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II FULL-WAVE RECTIFIERS AIM: To Rectify the AC signal and then to find out Ripple factor and percentage of Regulation in Full-wave rectifier center tapped circuit with and without Capacitor filter. APPARATUS: S.No Name Range / Value Quantity Transformer Diode Capacitors Decade Resistance Box Multimeter Bread Board and connecting wires Dual Trace CRO 0V / 9-0-9V N F/V, 0 f/v MHz PROCEDURE: WITHOUT FILTER:. Connecting the circuit on bread board as per the circuit diagram.. Connect the primary of the transformer to main supply i.e. 0V, 0Hz. Connect the decade resistance box and set the R L value to 00Ω. Connect the Multimeter at output terminals and vary the load resistance (DRB) from 00Ω to KΩ and note down the Vac and Vdc as per given tabular form. Disconnect load resistance ( DRB) and note down no load voltage Vdc (V no load ). Connect load resistance at KΩ and connect Channel II of CRO at output terminals and CH I of CRO at Secondary Input terminals observe and note down the Input and Output Wave form on Graph Sheet.. Calculate ripple factor V ac V dc

10 8. Calculate Percentage of Regulation, % V no load V full load 00% V no load WITH CAPACITOR FILTER:. Connecting the circuit as per the circuit Diagram and repeat the above procedure from steps to 8. TABULAR FORMS: WITHOUT FILTER: S.No Load Resistance R L (Ω) K O/P Voltage (Vo) V ac (V) V dc (V) V no load Voltage (Vdc) = V Ripple factor V ac V dc % of Regulation V NL V FL 00% V NL WITH CAPACITOR FILTER: S.No Load Resistance R L (Ω) K O/P Voltage (Vo) V ac (V) V dc (V) V no load Voltage (Vdc) = V Ripple factor V ac V dc % of Regulation V NL V FL 00% V NL MODEL GRAPHS:

11 WITHOUT FILTER AND WITH FILTER: WAVE SHAPES:

12 RESULT: Observe Input and Output Wave forms and Calculate ripple factor and percentage of regulation in Full-wave rectifier with and without filter. Without Filter: Ripple Factor : Regulation : With Capacitor Filter: Ripple Factor : Regulation : PRECAUTIONS:. Check the wires for continuity before use.. Keep the power supply at Zero volts before Start.

13 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II RIDGE RECTIFIERS AIM: To Rectify the AC signal and then to find out Ripple factor and percentage of Regulation in Full-wave Bridge rectifier circuit with and without Capacitor filter. APPARATUS: S.No Name Range / Value Quantity Transformer Diode Capacitors Decade Resistance Box Multimeter Bread Board and connecting wires Dual Trace CRO 0V / 0-9V N F/V, 0 f/v MHz PROCEDURE: WITHOUT FILTER:. Connecting the circuit on bread board as per the circuit diagram.. Connect the primary of the transformer to main supply i.e. 0V, 0Hz. Connect the decade resistance box and set the R L value to 00Ω. Connect the Multimeter at output terminals and vary the load resistance (DRB) from 00Ω to KΩ and note down the Vac and Vdc as per given tabular form. Disconnect load resistance ( DRB) and note down no load voltage Vdc (V no load ). Connect load resistance at KΩ and connect Channel II of CRO at output terminals and CH I of CRO at Secondary Input terminals observe and note down the Input and Output Wave form on Graph Sheet.. Calculate ripple factor V ac V dc

14 8. Calculate Percentage of Regulation, % V no load V full load 00% V no load WITH CAPACITOR FILTER:. Connecting the circuit as per the circuit Diagram and repeat the above procedure from steps to 8. TABULAR FORMS: WITHOUT FILTER: S.No Load Resistance R L (Ω) K O/P Voltage (Vo) V ac (V) V dc (V) V no load Voltage (Vdc) = Ripple factor V ac V dc V % of Regulation V NL V FL 00% V NL WITH CAPACITOR FILTER: S.No Load Resistance R L (Ω) K O/P Voltage (Vo) V ac (V) V dc (V) V no load Voltage (Vdc) = Ripple factor V ac V dc V % of Regulation V NL V FL 00% V NL MODEL GRAPHS:

15 CIRCUIT DIAGRAMS: WITH OUT FILTER & WITH FILTER: WAVE SHAPES:

16 RESULT: Observe Input and Output Wave forms and Calculate ripple factor and percentage of regulation in Full-wave Bridge rectifier with and without filter. Without Filter: Ripple Factor : Regulation : With Capacitor Filter: Ripple Factor : Regulation : PRECAUTIONS:. Check the wires for continuity before use.. Keep the power supply at Zero volts before Start.. All the contacts must be intact.

17 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II COMMON BASE TRANSISTOR CHARACTERISTICS AIM: To plot the Input and Output characteristics of a transistor connected in Common Base Configuration and to find the h parameters from the characteristics. APPARATUS: S.No Name Range / Value Quantity PROCEDURE: Dual Regulated D.C Power supply Transistor Resistors DC Ammeters DC Voltmeters Bread Board and connecting wires 0 0 Volts BC0 K (0-00mA) (0-V), (0-0V) - Each No Set TO FIND THE INPUT CHARACTERISTICS:. Connect the circuit as in the circuit diagram.. Keep V EE and V CC in zero volts before giving the supply. Set V CB = volt by varying V CC. and vary the V EE smoothly with fine control such that emitter current I E varies in steps of 0.mA from zero upto 0mA, and note down the corresponding voltage V EB for each step in the tabular form.. Repeat the experiment for V CB = volts and volts.. Draw a graph between V EB Vs I E against V CB = Constant. TO FIND THE OUTPUT CHARACTERISTICS: Start V EE and V CC from zero Volts. Set the I E = ma by using V EE such that, V CB changes in steps of.0 volts from zero

18 upto 0 volts, note down the corresponding collector current I C for each step in the tabular form. Repeat the experiment for I E = ma and I E = ma, tabulate the readings. Draw a graph between V CB Vs I C against I E = Constant. TABULAR FORMS: INPUT CHARACTERISTICS; S.No V CB = 0V V CB = V V CB = V V EB (V) I E (ma) V EB (V) I E (ma) V EB (V) I E (ma) OUTPUT CHARACTERISTICS; S.No I E = ma I E = ma I E = ma V CB (V) I C (ma) V CB (V) I C (ma) V CB (V) I C (ma)

19 CIRCUIT DIAGRAMS: MODEL GRAPHS;. Plot the Input characteristics by taking I E on y axis and V EB on x axis.. Plot the Output characteristics by taking I C on y axis and V CB on x axis.

20 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II CE TRANSISTOR AMPLIFIER AIM: To Find the frequency response of a Common Emitter Transistor Amplifier and to find the Bandwidth from the Response, Voltage gain, Input Resistance, output resistance. APPARATUS: S.No Name Range / Value Quantity 8 9 Regulated D.C Power supply Transistor Resistors Resistors Capacitors Potentio Meter Signal Generator Dual Trace CRO Bread Board and connecting wires 0 0 Volts BC0 K 00k,0K,.K. 0 f -- ( 0 MHz) 0MHz -- Each Set PROCEDURE:. Connect the circuit as per the Fig..,Apply Vcc of Volts DC.. Apply I/P Voltage of 0mV at KHz from the Signal Generator and observe the O/P on CRO.. Vary the frequency from 0 Hz to MHz in appropriate steps and note down the corresponding O/P Voltage Vo in a tabular form.. Calculate the Voltage Gain Av = Vo/Vs and note down in the tabular form.. Plot the frequency (f) Vs Gain (Av) on a Semi-log Graph sheet. Draw a horizontal line at 0.0 times Av and note down the cut off points and the Bandwidth is given by B.W = f f. INPUT RESISTANCE RI:. Apply I/P Voltage of 0mV at KHz from the Signal Generator and observe voltage Vi across R on CRO.. Without Disturbing the setup note Vi.. find Ii = (Vs Vi) / Rs and Ri= Vi / Ii Ohms.

21 OUTPUT RESISTANCE (R O ):. Apply I/P Voltage of 0mV at KHz from the Signal Generator and observe the o/p on CRO. Connect a Potentio meter across the O/P terminals and without disturbing Vs adjust the potentiometer such that o/p falls to V 0 /. The Resistance of the potentiometer is equal to Ro. CIRCUIT DIAGRAMS: MODEL GRAPH: TABULAR FORMS: I/P Voltage, V s = 0mV S.No Frequency (Hz) O/P Voltage, Vo (V) K K 8 K 9 K 0 0K 0K 0K 0K 00K 00K 00K 00K 8 M Voltage Gain Av =Vo/Vi Av in db = 0 log (Av)

22 RESULT: BandWidth B.W = f f = Hz Voltage Gain Av = Input Resistance Ri = ohms Output Resistance Ro = ohms PRECAUTIONS:. Check the wires for continuity before use.. Keep the power supply at Zero volts before Start. All the contacts must be intact

23 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. 8 ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II Object: To steady the diode applications in a clipping and clamping circuits. Apparatus:. Function Generator.. Oscilloscope.. DC Power Supply.. Breadboard, Diodes, Capacitors and Resistor. Theory: This experiment studies the applications of the diode in the clipping & clamping operations.. Clipping Circuits: the Figure (l) shows a biased clipper, for the diode to turn in the input voltage must be greater +V, when V m is greater than +V, the diode acts like a closed switch (ideally) & the voltage across the output equals +V, this output stays at +V as long as the input voltage exceeds +V. when the input voltage is less than +V, the diode opens and the circuit acts as a voltage divider, as usual, R L should be much greater than R, in this way, most of input voltage appears across the output. The output waveforms of Figure () summarize the circuit action. The biased clipper removes all signals above the (+V) level.. Clamping Circuits: A clamper does is adding a DC component to the signal. In Figure () the input signal is a sinewave, the clamper pushes the signal upward, so that the negative peaks fall on the 0V level. As can see, the shape of the original signal is preserved, all that happen is a vertical shift of the signal. We described an output signal for a positive dampen- On the Figure () shown

24 represents a positive clamper ideally here how it is works. On the first negative half cycle of input voltage, the diode turns on. At the negative peak, the capacitor must charge to V p with polarity shown. Slightly beyond the negative peak, the diode shunts off. Procedure: Clipping Circuit:. Connect the circuit shown in Figure ().. Ensure that the variable DC is at minimum and the source is at 0V P.P.. Observe and Sketch the input and output waveforms.. Increase the variable DC voltage to V, and notice to what voltage are the positive peaks chopped off, sketch the waveforms. Clamping Circuit:. Connect the circuit shown in Figure ().. Ensure the variable DC is at minimum.. Set the sine wave generator frequency to KHz and its output amplitude to 0V P.P.. Observe and sketch the input waveform with the variable DC at minimum, Sketch the output waveform. 0k D D 0k V V

25 KΩ D 0V P.P KHz V 0uF D 0V P.P KHz 0k D 0k 00n F D 0k Fig. Fig.

26 Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. 9 ISSUE NO. : ISSUE DATE: REV. NO. : REV. DATE : PAGE: LABORATORY Name & Code: Basic Electronics Engineering SEMESTER: I/II To familiarize with logic gate IC packages and to verify the truth tables of logic gates. Also familiarize with digital IC trainer kit. COMPONENTS REQUIRED DIGITAL IC TRAINER KIT: The equipment mainly used to test and set up digital circuits. Integrated circuits can be fitted in sockets or bread board. There are built in voltage sources and clock signals. In order to feed monopulses manually, a debouncer switch is also provided. A number of select switches are provided to obtain 0 or state voltages as digital inputs. Green and Red LEDs are provided to represent low and high states respectively to visualize the digital outputs. IC PACKAGES: 0-Hex inverter gates 00-Quad two input NAND gates 0-Quad two input NOR gates 08-Quad two input AND gates -Quad two input OR gates 8-Quad two input XOR gates PROCEDURE ) Test the IC using digital IC tester before conducting the experiment ) Verify the dual in line package pin out the IC before feeding the input ) Set up the circuit and observe the output. Enter the input and output stages in truth table corresponding to the input combinations PIN CONFIGURATION AND TRUTH TABLE. 0-Hex inverter gates. 00-Quad two input NAND gates

27 . 0-Quad two input NOR gates. 08-Quad two input AND gates. -Quad two input OR gates RESULT Familiarized the digital IC trainer kit &logic gate IC packages and verified the truth tables of logic gates.

28

ELECTRONIC DEVICES AND CIRCUITS LABORATORY MANUAL FOR II / IV B.E (EEE): I - SEMESTER

ELECTRONIC DEVICES AND CIRCUITS LABORATORY MANUAL FOR II / IV B.E (EEE): I - SEMESTER ELECTRONIC DEVICES AND CIRCUITS LABORATORY MANUAL FOR II / IV B.E (EEE): I - SEMESTER DEPT. OF ELECTRICAL AND ELECTRONICS ENGINEERING SIR C.R.REDDY COLLEGE OF ENGINEERING ELURU 534 007 ELECTRONIC DEVICES

More information

ANALOG ELECTRONIC CIRCUITS LABORATORY MANUAL (CODE: EEE - 228)

ANALOG ELECTRONIC CIRCUITS LABORATORY MANUAL (CODE: EEE - 228) ANALOG ELECTRONIC CIRCUITS LABORATORY MANUAL (CODE: EEE - 228) DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING ANIL NEERUKONDA INSTITUTE OF TECHNOLOGY & SCIENCES (Affiliated to AU, Approved by AICTE

More information

CHADALAWADA RAMANAMMA ENGINEERING COLLEGE (AUTONOMOUS) Chadalawada Nagar, Renigunta Road, Tirupati

CHADALAWADA RAMANAMMA ENGINEERING COLLEGE (AUTONOMOUS) Chadalawada Nagar, Renigunta Road, Tirupati ELECTRONIC DEVICES AND CIRCUITS LABORATORY MANUAL Subject Code : 17CA04305 Regulations : R17 Class : III Semester (ECE) CHADALAWADA RAMANAMMA ENGINEERING COLLEGE (AUTONOMOUS) Chadalawada Nagar, Renigunta

More information

Shankersinh Vaghela Bapu Institute of Technology INDEX

Shankersinh Vaghela Bapu Institute of Technology INDEX Shankersinh Vaghela Bapu Institute of Technology Diploma EE Semester III 3330905: ELECTRONIC COMPONENTS AND CIRCUITS INDEX Sr. No. Title Page Date Sign Grade 1 Obtain I-V characteristic of Diode. 2 To

More information

Objective: To study and verify the functionality of a) PN junction diode in forward bias. Sl.No. Name Quantity Name Quantity 1 Diode

Objective: To study and verify the functionality of a) PN junction diode in forward bias. Sl.No. Name Quantity Name Quantity 1 Diode Experiment No: 1 Diode Characteristics Objective: To study and verify the functionality of a) PN junction diode in forward bias Components/ Equipments Required: b) Point-Contact diode in reverse bias Components

More information

Document Name: Electronic Circuits Lab. Facebook: Twitter:

Document Name: Electronic Circuits Lab.  Facebook:  Twitter: Document Name: Electronic Circuits Lab www.vidyathiplus.in Facebook: www.facebook.com/vidyarthiplus Twitter: www.twitter.com/vidyarthiplus Copyright 2011-2015 Vidyarthiplus.in (VP Group) Page 1 CIRCUIT

More information

EXPERIMENT 4 LIMITER AND CLAMPER CIRCUITS

EXPERIMENT 4 LIMITER AND CLAMPER CIRCUITS EXPERIMENT 4 LIMITER AND CLAMPER CIRCUITS 1. OBJECTIVES 1.1 To demonstrate the operation of a diode limiter. 1.2 To demonstrate the operation of a diode clamper. 2. INTRODUCTION PART A: Limiter Circuit

More information

LIC & COMMUNICATION LAB MANUAL

LIC & COMMUNICATION LAB MANUAL LIC & Communication Lab Manual LIC & COMMUNICATION LAB MANUAL FOR V SEMESTER B.E (E& ( E&C) (For private circulation only) NAME: DEPARTMENT OF ELECTRONICS & COMMUNICATION SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY

More information

Practical Manual. Deptt.of Electronics &Communication Engg. (ECE)

Practical Manual. Deptt.of Electronics &Communication Engg. (ECE) Practical Manual LAB: BASICS OF ELECTRONICS 1 ST SEM.(CSE/CV) Deptt.of Electronics &Communication Engg. (ECE) RAO PAHALD SINGH GROUP OF INSTITUTIONS BALANA(MOHINDER GARH)12302 Prepared By. Mr.SANDEEP KUMAR

More information

Federal Urdu University of Arts, Science & Technology Islamabad Pakistan SECOND SEMESTER ELECTRONICS - I

Federal Urdu University of Arts, Science & Technology Islamabad Pakistan SECOND SEMESTER ELECTRONICS - I SECOND SEMESTER ELECTRONICS - I BASIC ELECTRICAL & ELECTRONICS LAB DEPARTMENT OF ELECTRICAL ENGINEERING Prepared By: Checked By: Approved By: Engr. Yousaf Hameed Engr. M.Nasim Khan Dr.Noman Jafri Lecturer

More information

Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET REV. NO. : REV.

Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET REV. NO. : REV. Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. ISSUE NO. : ISSUE DATE: July 200 REV. NO. : REV.

More information

CIRCUIT DIAGRAM Half Wave Rectifier. Half Wave Rectifier with filter 2012/ODD/III/ECE/EC I/LM 1

CIRCUIT DIAGRAM Half Wave Rectifier. Half Wave Rectifier with filter 2012/ODD/III/ECE/EC I/LM 1 CIRCUIT DIAGRAM Half Wave Rectifier Half Wave Rectifier with filter 2012/ODD/III/ECE/EC I/LM 1 Ex.No. 1 Date: / /2012 Power supply circuit using Half Wave rectifiers AIM To Build and understand the operation

More information

SIR PADAMPAT SINGHANIA UNIVERSITY

SIR PADAMPAT SINGHANIA UNIVERSITY SIR PADAMPAT SINGHANIA UNIVERSITY SCHOOL OF ENGINEERING BHATEWAR-3360 ELECTRONIC DEVICES AND CIRCUITS LABORATORY MANUAL DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING [[ Objective: ) P-N JUNCTION

More information

Electronic & Telecommunication Engineering

Electronic & Telecommunication Engineering Department of Electronic & Telecommunication Engineering LAB MANUAL ADC B.Tech 3rd Semester KCT College of Engineering & Technology Village Fatehgarh (Distt. Sangrur) INDEX List Of Experiment To construct

More information

Shankersinh Vaghela Bapu Institute of Technology

Shankersinh Vaghela Bapu Institute of Technology Shankersinh Vaghela Bapu Institute of Technology B.E. Semester III (EC) 131101: Basic Electronics INDEX Sr. No. Title Page Date Sign Grade 1 [A] To Study the V-I characteristic of PN junction diode. [B]

More information

1. LINEAR WAVE SHAPING

1. LINEAR WAVE SHAPING Aim: 1. LINEAR WAVE SHAPING i) To design a low pass RC circuit for the given cutoff frequency and obtain its frequency response. ii) To observe the response of the designed low pass RC circuit for the

More information

Logic Gates & Training Boards

Logic Gates & Training Boards Logic Gates & Training Boards ANALOG TO DIGITAL (A/D) CONVERTOR (ELP.112.140) Objective : To study Analog to Digital & Digital to Analog convertors using R-2R network & Successive Approximation Method.

More information

GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION MARCH-2013 SCHEME OF VALUATION

GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION MARCH-2013 SCHEME OF VALUATION GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION MARCH-03 SCHEME OF VALUATION Subject Code: 0 Subject: PART - A 0. What does the arrow mark indicate

More information

FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER

FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER Exp. No #5 FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER Date: OBJECTIVE The purpose of the experiment is to analyze and plot the frequency response of a common collector amplifier. EQUIPMENT AND COMPONENTS

More information

Facility of Engineering. Biomedical Engineering Department. Medical Electronic Lab BME (317) Post-lab Forms

Facility of Engineering. Biomedical Engineering Department. Medical Electronic Lab BME (317) Post-lab Forms Facility of Engineering Biomedical Engineering Department Medical Electronic Lab BME (317) Post-lab Forms Prepared by Eng.Hala Amari Spring 2014 Facility of Engineering Biomedical Engineering Department

More information

CRO AIM:- To study the use of Cathode Ray Oscilloscope (CRO).

CRO AIM:- To study the use of Cathode Ray Oscilloscope (CRO). 1. 1 To study CRO. CRO AIM:- To study the use of Cathode Ray Oscilloscope (CRO). Apparatus: - C.R.O, Connecting probe (BNC cable). Theory:An CRO is easily the most useful instrument available for testing

More information

INDEX Configuration. 4 Input & Output Characteristics of Transistor in CE

INDEX Configuration. 4 Input & Output Characteristics of Transistor in CE INDEX S.NO NAME OF THE EXPERIMENT PAGE NO. 1 Forward and Reverse Characteristics of PN Junction Diode. 1-8 2 Zener Diode Characteristics and Zener as Voltage Regulator 9-16 3 Input & Output Characteristics

More information

EXPERIMENT 5 : DIODES AND RECTIFICATION

EXPERIMENT 5 : DIODES AND RECTIFICATION EXPERIMENT 5 : DIODES AND RECTIFICATION Component List Resistors, one of each o 2 1010W o 1 1k o 1 10k 4 1N4004 (Imax = 1A, PIV = 400V) Diodes Center tap transformer (35.6Vpp, 12.6 VRMS) 100 F Electrolytic

More information

Experiment 6: Biasing Circuitry

Experiment 6: Biasing Circuitry 1 Objective UNIVERSITY OF CALIFORNIA AT BERKELEY College of Engineering Department of Electrical Engineering and Computer Sciences EE105 Lab Experiments Experiment 6: Biasing Circuitry Setting up a biasing

More information

FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER

FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER Exp. No #6 FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER OBJECTIVE The purpose of the experiment is to analyze and plot the frequency response of a common collector amplifier. EQUIPMENT AND COMPONENTS

More information

EXPERIMENT 7: DIODE CHARACTERISTICS AND CIRCUITS 10/24/10

EXPERIMENT 7: DIODE CHARACTERISTICS AND CIRCUITS 10/24/10 DIODE CHARACTERISTICS AND CIRCUITS EXPERIMENT 7: DIODE CHARACTERISTICS AND CIRCUITS 10/24/10 In this experiment we will measure the I vs V characteristics of Si, Ge, and Zener p-n junction diodes, and

More information

Analog Electronics Laboratory

Analog Electronics Laboratory Circuit Diagram a) Center tap FWR without filter b) Center tap FWR with C filter AC Supply AC Supply D2 c) Bridge Rectifier without filter d) Bridge Rectifier with C filter AC Supply AC Supply Waveforms

More information

Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET REV. NO. : REV.

Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET REV. NO. : REV. Dev Bhoomi Institute Of Technology Department of Electronics and Communication Engineering PRACTICAL INSTRUCTION SHEET LABORATORY MANUAL EXPERIMENT NO. 1 ISSUE NO. : ISSUE DATE: July 2010 REV. NO. : REV.

More information

INC 253 Digital and electronics laboratory I

INC 253 Digital and electronics laboratory I INC 253 Digital and electronics laboratory I Laboratory 4 Wave Shaping Diode Circuits Author: ID CoAuthors: 1. ID 2. ID 3. ID Experiment Date: Report received Date: Comments For Instructor Full Marks Pre

More information

Identification, Specifications and Testing of R, L, C Components (color codes), Bread Boards

Identification, Specifications and Testing of R, L, C Components (color codes), Bread Boards Experiment 1: PART B Identification, Specifications and Testing of R, L, C Components (color codes), Bread Boards RESISTOR: Resistor is an electronic component whose function is to limit the flow of current

More information

LABORATORY MODULE. Analog Electronics. Semester 2 (2005/2006)

LABORATORY MODULE. Analog Electronics. Semester 2 (2005/2006) LABORATORY MODULE ENT 162 Analog Electronics Semester 2 (2005/2006) EXPERIMENT 1 : Introduction to Diode Name Matric No. : : PUSAT PENGAJIAN KEJURUTERAAN MEKATRONIK KOLEJ UNIVERSITI KEJURUTERAAN UTARA

More information

PESIT BANGALORE SOUTH CAMPUS BASIC ELECTRONICS

PESIT BANGALORE SOUTH CAMPUS BASIC ELECTRONICS PESIT BANGALORE SOUTH CAMPUS QUESTION BANK BASIC ELECTRONICS Sub Code: 17ELN15 / 17ELN25 IA Marks: 20 Hrs/ Week: 04 Exam Marks: 80 Total Hours: 50 Exam Hours: 03 Name of Faculty: Mr. Udoshi Basavaraj Module

More information

EXPERIMENT 5 CURRENT AND VOLTAGE CHARACTERISTICS OF BJT

EXPERIMENT 5 CURRENT AND VOLTAGE CHARACTERISTICS OF BJT EXPERIMENT 5 CURRENT AND VOLTAGE CHARACTERISTICS OF BJT 1. OBJECTIVES 1.1 To practice how to test NPN and PNP transistors using multimeter. 1.2 To demonstrate the relationship between collector current

More information

Circuit 4 Schmitt Trigger

Circuit 4 Schmitt Trigger Prerequisite Information Circuit 4 Schmitt Trigger Objective Upon completion of this procedure, you will be able to determine the functional characteristics of a typical Schmitt trigger. You will verify

More information

Unit/Standard Number. LEA Task # Alignment

Unit/Standard Number. LEA Task # Alignment 1 Secondary Competency Task List 100 SAFETY 101 Demonstrate an understanding of State and School safety regulations. 102 Practice safety techniques for electronics work. 103 Demonstrate an understanding

More information

EXPERIMENT 5 : THE DIODE

EXPERIMENT 5 : THE DIODE EXPERIMENT 5 : THE DIODE Component List Resistors, one of each o 1 10 10W o 1 1k o 1 10k 4 1N4004 (Imax = 1A, PIV = 400V) Diodes Center tap transformer (35.6Vpp, 12.6 VRMS) 100 F Electrolytic Capacitor

More information

15EEE282 Electronic Circuits and Simulation Lab - I Lab # 6

15EEE282 Electronic Circuits and Simulation Lab - I Lab # 6 Exp. No #6 FREQUENCY RESPONSE OF COMMON EMITTER AMPLIFIER OBJECTIVE The purpose of the experiment is to design a common emitter amplifier. To analyze and plot the frequency response of the amplifier with

More information

Jawaharlal Nehru Engineering College

Jawaharlal Nehru Engineering College Jawaharlal Nehru Engineering College Laboratory Manual EDC-I For Second Year Students Manual made by A.A.Sayar Author JNEC, Aurangabad 1 MGM S Jawaharlal Nehru Engineering College N-6, CIDCO, Aurangabad

More information

SKEU 3741 BASIC ELECTRONICS LAB

SKEU 3741 BASIC ELECTRONICS LAB Faculty: Subject Subject Code : SKEU 3741 FACULTY OF ELECTRICAL ENGINEERING : 2 ND YEAR ELECTRONIC DESIGN LABORATORY Review Release Date Last Amendment Procedure Number : 1 : 2013 : 2013 : PK-UTM-FKE-(0)-10

More information

Electronic devices & circuits

Electronic devices & circuits Dundigal, Quthbullapur (M), Hyderabad 43 LABORATORY MANUAL Electronic devices & circuits II B.TECH -I Semester (ECE) AY-2017-2018 DEPARTMENT OF ECE MARRI LAXMAN REDDY INSTITUTE OF TECHNOLOGY & MANAGEMENT

More information

Basic Electronic Devices and Circuits EE 111 Electrical Engineering Majmaah University 2 nd Semester 1432/1433 H. Chapter 2. Diodes and Applications

Basic Electronic Devices and Circuits EE 111 Electrical Engineering Majmaah University 2 nd Semester 1432/1433 H. Chapter 2. Diodes and Applications Basic Electronic Devices and Circuits EE 111 Electrical Engineering Majmaah University 2 nd Semester 1432/1433 H Chapter 2 Diodes and Applications 1 Diodes A diode is a semiconductor device with a single

More information

2) The larger the ripple voltage, the better the filter. 2) 3) Clamping circuits use capacitors and diodes to add a dc level to a waveform.

2) The larger the ripple voltage, the better the filter. 2) 3) Clamping circuits use capacitors and diodes to add a dc level to a waveform. TRUE/FALSE. Write 'T' if the statement is true and 'F' if the statement is false. 1) A diode conducts current when forward-biased and blocks current when reverse-biased. 1) 2) The larger the ripple voltage,

More information

Experiment 6: Biasing Circuitry

Experiment 6: Biasing Circuitry 1 Objective UNIVERSITY OF CALIFORNIA AT BERKELEY College of Engineering Department of Electrical Engineering and Computer Sciences EE105 Lab Experiments Experiment 6: Biasing Circuitry Setting up a biasing

More information

PHYS 3152 Methods of Experimental Physics I E2. Diodes and Transistors 1

PHYS 3152 Methods of Experimental Physics I E2. Diodes and Transistors 1 Part I Diodes Purpose PHYS 3152 Methods of Experimental Physics I E2. In this experiment, you will investigate the current-voltage characteristic of a semiconductor diode and examine the applications of

More information

ELECTRONIC DEVICES AND CIRCUITS (EDC) LABORATORY MANUAL

ELECTRONIC DEVICES AND CIRCUITS (EDC) LABORATORY MANUAL ELECTRONIC DEVICES AND CIRCUITS (EDC) LABORATORY MANUAL (B.E. THIRD SEMESTER - BEENE302P / BEECE302P/ BEETE302P) Prepared by Prof. S. Irfan Ali HOD PROF. M. NASIRUDDIN DEPARTMENT OF ELECTRONICS & TELECOMMUNICATION

More information

POWER ELECTRONICS LAB MANUAL

POWER ELECTRONICS LAB MANUAL JIS College of Engineering (An Autonomous Institution) Department of Electrical Engineering POWER ELECTRONICS LAB MANUAL Exp-1. Study of characteristics of an SCR AIM: To obtain the V-I characteristics

More information

ELECTRONICS DEVICE MANUAL (NEC-354)

ELECTRONICS DEVICE MANUAL (NEC-354) ELECTRONICS DEVICE MANUAL (NEC-354) DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING 27, Knowledge Park-III, Greater Noida, (U.P.) Phone : 0120-2323854-58 website :- www.dronacharya.info CONTENTS

More information

Basic Electronics Lab Manual. School of Physical Sciences National Institute of Science Education and Research Bhubaneswar

Basic Electronics Lab Manual. School of Physical Sciences National Institute of Science Education and Research Bhubaneswar Basic Electronics Lab Manual School of Physical Sciences National Institute of Science Education and Research Bhubaneswar IDENTIFICATION OF CIRCUIT COMPONENTS Breadboards: In order to temporarily construct

More information

Electronics Laboratory And Students kits For Self-Study And Distant Learning. By: Charbel T. Fahed

Electronics Laboratory And Students kits For Self-Study And Distant Learning. By: Charbel T. Fahed Electronics Laboratory And Students kits For Self-Study And Distant Learning By: Charbel T. Fahed Table of Contents I. DC and AC fundamentals 1) Color Code 2) Ohm s Law 3) Series Circuits 4) Parallel Circuits

More information

Integrators, differentiators, and simple filters

Integrators, differentiators, and simple filters BEE 233 Laboratory-4 Integrators, differentiators, and simple filters 1. Objectives Analyze and measure characteristics of circuits built with opamps. Design and test circuits with opamps. Plot gain vs.

More information

AC LAB ECE-D ecestudy.wordpress.com

AC LAB ECE-D ecestudy.wordpress.com PART B EXPERIMENT NO: 1 AIM: PULSE AMPLITUDE MODULATION (PAM) & DEMODULATION DATE: To study Pulse Amplitude modulation and demodulation process with relevant waveforms. APPARATUS: 1. Pulse amplitude modulation

More information

1. P-N JUNCTION DIODE CHARACTERISTICS ZENER DIODE CHARACTERISTICS TRANSISTOR COMMON -BASE CONFIGURATION FULL-WAVE RECTIFIER.

1. P-N JUNCTION DIODE CHARACTERISTICS ZENER DIODE CHARACTERISTICS TRANSISTOR COMMON -BASE CONFIGURATION FULL-WAVE RECTIFIER. TABLE OF CONTENTS 1. P-N JUNCTION DIODE CHARACTERISTICS... 1 2. ZENER DIODE CHARACTERISTICS... 6 3. TRANSISTOR COMMON -BASE CONFIGURATION... 11 4. TRANSISTOR CE CHARACTERSTICS... 16 6. FULL-WAVE RECTIFIER...

More information

EXPT NO: 1.A. COMMON EMITTER AMPLIFIER (Software) PRELAB:

EXPT NO: 1.A. COMMON EMITTER AMPLIFIER (Software) PRELAB: EXPT NO: 1.A COMMON EMITTER AMPLIFIER (Software) PRELAB: 1. Study the operation and working principle of CE amplifier. 2. Identify all the formulae you will need in this Lab. 3. Study the procedure of

More information

AURORA S ENGINEERING COLLEGE BHONGIR, NALGONDA DIST

AURORA S ENGINEERING COLLEGE BHONGIR, NALGONDA DIST AURORA S ENGINEERING COLLEGE BHONGIR, NALGONDA DIST. 508116. Lab manual of IC APPLICATIONS LAB 3 rd Year 1 st Sem. ECE 2014-15 DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING 1 PREFACE Integrated

More information

ELEG 309 Laboratory 4

ELEG 309 Laboratory 4 ELEG 309 Laboratory 4 BIPOLAR-TRANSISTOR BASICS April 17, 2000 1 Objectives Our overall objective is to familiarize you with the basic properties of Bipolar Junction Transistors (BJTs) in preparation for

More information

LENDI INSTITUTE OF ENGINEERING & TECHNOLOGY

LENDI INSTITUTE OF ENGINEERING & TECHNOLOGY LENDI INSTITUTE OF ENGINEERING & TECHNOLOGY (Approved by A.I.C.T.E & Affiliated to JNTU,Kakinada) Jonnada (Village), Denkada (Mandal), Vizianagaram Dist 535 005 Phone No. 08922-241111, 241112 E-Mail: lendi_2008@yahoo.com

More information

When you have completed this exercise, you will be able to determine ac operating characteristics of a

When you have completed this exercise, you will be able to determine ac operating characteristics of a When you have completed this exercise, you will be able to determine ac operating characteristics of a multimeter and an oscilloscope. A sine wave generator connected between the transistor base and ground

More information

FAMILIARISATION WITH P.E. COMPONENTS

FAMILIARISATION WITH P.E. COMPONENTS FAMILIARISATION WITH P.E. COMPONENTS A. SINGLE PHASE PAC USING TRIAC. Object : To study a) The triggering circuit of an A.C. phase angle controller using a triac. b) The performance with a resistive load.

More information

DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS

DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS EXPERIMENT : 1 TITLE : Half-Wave Rectifier & Filter OUTCOME : Upon completion of this unit, the student should be able to: i. Construct

More information

EC 6411 CIRCUITS AND SIMULATION INTEGRATED LABORATORY LABORATORY MANUAL INDEX EXPT.NO NAME OF THE EXPERIMENT PAGE NO 1 HALF WAVE AND FULL WAVE RECTIFIER 3 2 FIXED BIAS AMPLIFIER CIRCUIT USING BJT 3 BJT

More information

AIM:-To observe and draw the Forward bias V-I Characteristics of a P-N Junction diode and study of L.E.D characteristics.

AIM:-To observe and draw the Forward bias V-I Characteristics of a P-N Junction diode and study of L.E.D characteristics. KARNAL INSTITUTE OF TECHNOLOGY & MANAGEMENT KUNJPURA, KARNAL LAB MANUAL OF ------- SUBJECT CODE DATE OF ISSUE: SEMESTER: BRANCH: REV NO EXPERIMENT NO 1 P-N JUNCTION DIODE CHARACTERISTICS AIM:-To observe

More information

EE 210: CIRCUITS AND DEVICES

EE 210: CIRCUITS AND DEVICES EE 210: CIRCUITS AND DEVICES LAB #3: VOLTAGE AND CURRENT MEASUREMENTS This lab features a tutorial on the instrumentation that you will be using throughout the semester. More specifically, you will see

More information

ECE 2201 PRELAB 6 BJT COMMON EMITTER (CE) AMPLIFIER

ECE 2201 PRELAB 6 BJT COMMON EMITTER (CE) AMPLIFIER ECE 2201 PRELAB 6 BJT COMMON EMITTER (CE) AMPLIFIER Hand Analysis P1. Determine the DC bias for the BJT Common Emitter Amplifier circuit of Figure 61 (in this lab) including the voltages V B, V C and V

More information

Study of 1-phase AC to DC controlled converter (both fully controlled And half controlled)

Study of 1-phase AC to DC controlled converter (both fully controlled And half controlled) Study of 1-phase AC to DC controlled converter (both fully controlled And half controlled) Object: To study the performances of single phase half-controlled bridge Rectifier. A. In configuration A. B.

More information

Scheme I Sample. : Second : Basic. Electronics : 70. Marks. Time: 3 Hrs. 2] b) State any. e) State any. Figure Definition.

Scheme I Sample. : Second : Basic. Electronics : 70. Marks. Time: 3 Hrs. 2] b) State any. e) State any. Figure Definition. Program Name Program Code Semester Course Title Scheme I Sample Question Paper : Diploma in Electronics Program Group : DE/EJ/IE/IS/ET/EN/EX : Second : Basic Electronics : 70 22216 Time: 3 Hrs. Instructions:

More information

VTU NOTES QUESTION PAPERS NEWS RESULTS FORUMS TESTING OF DIODE CLIPPING CIRCUITS

VTU NOTES QUESTION PAPERS NEWS RESULTS FORUMS TESTING OF DIODE CLIPPING CIRCUITS TESTING OF DIODE CLIPPING CIRCUITS Aim: Testing of diode clipping circuits. Apparatus required: Diode (1N4007/BY127), Resistor, DC regulated power supply, signal generator and CRO. Theory: The circuit

More information

Field - Effect Transistor

Field - Effect Transistor Page 1 of 6 Field - Effect Transistor Aim :- To draw and study the out put and transfer characteristics of the given FET and to determine its parameters. Apparatus :- FET, two variable power supplies,

More information

THIRD SEMESTER ELECTRONICS - II BASIC ELECTRICAL & ELECTRONICS LAB DEPARTMENT OF ELECTRICAL ENGINEERING

THIRD SEMESTER ELECTRONICS - II BASIC ELECTRICAL & ELECTRONICS LAB DEPARTMENT OF ELECTRICAL ENGINEERING THIRD SEMESTER ELECTRONICS - II BASIC ELECTRICAL & ELECTRONICS LAB DEPARTMENT OF ELECTRICAL ENGINEERING Prepared By: Checked By: Approved By: Engr. Saqib Riaz Engr. M.Nasim Khan Dr.Noman Jafri Lecturer

More information

EXPERIMENT 2.2 NON-LINEAR OP-AMP CIRCUITS

EXPERIMENT 2.2 NON-LINEAR OP-AMP CIRCUITS 2.16 EXPERIMENT 2.2 NONLINEAR OPAMP CIRCUITS 2.2.1 OBJECTIVE a. To study the operation of 741 opamp as comparator. b. To study the operation of active diode circuits (precisions circuits) using opamps,

More information

NORTHWESTERN UNIVERSITY TECHNOLOGICAL INSTITUTE

NORTHWESTERN UNIVERSITY TECHNOLOGICAL INSTITUTE NORTHWESTERN UNIVERSITY TECHNOLOGICAL INSTITUTE ECE-270 Experiment #4 X-Y DISPLAY TECHNIQUES: DIODE CHARACTERISTICS PRELAB Use your textbook and/or the library to answer the following questions about diodes.

More information

ST.ANNE S COLLEGE OF ENGINEERING AND TECHNOLOGY ANGUCHETTYPALAYAM, PANRUTI Department of Electronics & Communication Engineering OBSERVATION

ST.ANNE S COLLEGE OF ENGINEERING AND TECHNOLOGY ANGUCHETTYPALAYAM, PANRUTI Department of Electronics & Communication Engineering OBSERVATION ST.ANNE S COLLEGE OF ENGINEERING AND TECHNOLOGY ANGUCHETTYPALAYAM, PANRUTI 67 Department of Electronics & Communication Engineering OBSERVATION EC836 ANALOG AND DIGITAL CIRCUITS LABORATORY STUDENT NAME

More information

LABORATORY MODULE. Analog Electronics. Semester 2 (2005/2006)

LABORATORY MODULE. Analog Electronics. Semester 2 (2005/2006) LABORATORY MODULE ENT 162 Analog Electronics Semester 2 (2005/2006) EXPERIMENT 5 : The Class A Common-Emitter Power Amplifier Name Matrix No. : : PUSAT PENGAJIAN KEJURUTERAAN MEKATRONIK KOLEJ UNIVERSITI

More information

The University of Jordan Mechatronics Engineering Department Electronics Lab.( ) Experiment 1: Lab Equipment Familiarization

The University of Jordan Mechatronics Engineering Department Electronics Lab.( ) Experiment 1: Lab Equipment Familiarization The University of Jordan Mechatronics Engineering Department Electronics Lab.(0908322) Experiment 1: Lab Equipment Familiarization Objectives To be familiar with the main blocks of the oscilloscope and

More information

REV NO EXPERIMENT NO 1 AIM: To study the PN junction diode characteristics under Forward & Reverse bias conditions. APPARATUS REQUIRED:

REV NO EXPERIMENT NO 1 AIM: To study the PN junction diode characteristics under Forward & Reverse bias conditions. APPARATUS REQUIRED: KARNAL INSTITUTE OF TECHNOLOGY & MANAGEMENT KUNJPURA, KARNAL LAB MANUAL OF ------- SUBJECT CODE DATE OF ISSUE: SEMESTER: BRANCH: REV NO EXPERIMENT NO 1 AIM: To study the PN junction diode characteristics

More information

Concepts to be Covered

Concepts to be Covered Introductory Medical Device Prototyping Analog Circuits Part 2 Semiconductors, http://saliterman.umn.edu/ Department of Biomedical Engineering, University of Minnesota Concepts to be Covered Semiconductors

More information

Electronics Lab. (EE21338)

Electronics Lab. (EE21338) Princess Sumaya University for Technology The King Abdullah II School for Engineering Electrical Engineering Department Electronics Lab. (EE21338) Prepared By: Eng. Eyad Al-Kouz October, 2012 Table of

More information

i Intelligent Digitize Emulated Achievement Lab

i Intelligent Digitize Emulated Achievement Lab Electronics Circuits Equipment Intelligent Digitize Emulated Achievement Lab intelligent digitize emulated achievement lab is a digitized-based training system, which utilizes integrated Hardware Platform,

More information

EXAMPLE. Use this jack for the red test lead when measuring. current from 0 to 200mA. Figure P-1

EXAMPLE. Use this jack for the red test lead when measuring. current from 0 to 200mA. Figure P-1 Digital Multimeters ON / OFF power switch Continuity / Diode Test Function Resistance Function Ranges from 200Ω to 200MΩ Transistor Test Function DC Current Function Ranges from 2mA to 20A. AC Current

More information

(A) im (B) im (C)0.5 im (D) im.

(A) im (B) im (C)0.5 im (D) im. Dr. Mahalingam College of Engineering and Technology, Pollachi. (An Autonomous Institution affiliated to Anna University) Regulation 2014 Fourth Semester Electrical and Electronics Engineering 141EE0404

More information

Emitter base bias. Collector base bias Active Forward Reverse Saturation forward Forward Cut off Reverse Reverse Inverse Reverse Forward

Emitter base bias. Collector base bias Active Forward Reverse Saturation forward Forward Cut off Reverse Reverse Inverse Reverse Forward SEMICONDUCTOR PHYSICS-2 [Transistor, constructional characteristics, biasing of transistors, transistor configuration, transistor as an amplifier, transistor as a switch, transistor as an oscillator] Transistor

More information

Facility of Engineering. Biomedical Engineering Department. Medical Electronic Lab BME (317) Pre-Report Forms

Facility of Engineering. Biomedical Engineering Department. Medical Electronic Lab BME (317) Pre-Report Forms Facility of Engineering Biomedical Engineering Department Medical Electronic Lab BME (317) Pre-Report Forms Prepared by Eng.Hala Amari Spring 2014 Facility of Engineering Biomedical Engineering Department

More information

II B.TECH - II SEM ECE

II B.TECH - II SEM ECE NRI INSTITUTE OF TECHNOLOGY (Approved by AICTE, New Delhi: Affiliated to JNTUK, Kakinada) Accredited by NAAC A grade, POTHAVARAPPADU (V), (via) Nunna, Agiripalli (M), Krishna District, A.P. PIN: 521212

More information

GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION JULY-2012 SCHEME OF VALUATION

GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION JULY-2012 SCHEME OF VALUATION GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION JULY-0 SCHEME OF VALUATION Subject Code: 40 Subject: PART - A 0. Which region of the transistor

More information

EE 2274 DIODE OR GATE & CLIPPING CIRCUIT

EE 2274 DIODE OR GATE & CLIPPING CIRCUIT EE 2274 DIODE OR GATE & CLIPPING CIRCUIT Prelab Part I: Wired Diode OR Gate LTspice use 1N4002 1. Design a diode OR gate, Figure 1 in which the maximum current thru R1 I R1 = 9mA assume Vin = 5Vdc. Design

More information

Revised April Unit/Standard Number. Proficiency Level Achieved: (X) Indicates Competency Achieved to Industry Proficiency Level

Revised April Unit/Standard Number. Proficiency Level Achieved: (X) Indicates Competency Achieved to Industry Proficiency Level Unit/Standard Number Electrical, Electronic and Communications Engineering Technology/Technician CIP 15.0303 Task Grid Secondary Competency Task List 100 SAFETY 101 Demonstrate an understanding of state,

More information

DEPARTMENT OF ECE BAPATLA ENGINEERING COLLEGE BAPATLA

DEPARTMENT OF ECE BAPATLA ENGINEERING COLLEGE BAPATLA DEPARTMENT OF ECE BAPATLA ENGINEERING COLLEGE BAPATLA Electronic Devices (EC-251) Lab Manual Prepared by S.Pallaviram, Lecturer T. Srinivasa Rao, Lecturer N.Kusuma, Lab Assistant Department of ECE BEC

More information

Table of Contents. iii

Table of Contents. iii Table of Contents Subject Page Experiment 1: Diode Characteristics... 1 Experiment 2: Rectifier Circuits... 7 Experiment 3: Clipping and Clamping Circuits 17 Experiment 4: The Zener Diode 25 Experiment

More information

When you have completed this exercise, you will be able to determine the ac operating characteristics of

When you have completed this exercise, you will be able to determine the ac operating characteristics of When you have completed this exercise, you will be able to determine the ac operating characteristics of multimeter and an oscilloscope. A sine wave generator connected between the transistor and ground

More information

University of Minnesota. Department of Electrical and Computer Engineering. EE 3105 Laboratory Manual. A Second Laboratory Course in Electronics

University of Minnesota. Department of Electrical and Computer Engineering. EE 3105 Laboratory Manual. A Second Laboratory Course in Electronics University of Minnesota Department of Electrical and Computer Engineering EE 3105 Laboratory Manual A Second Laboratory Course in Electronics Introduction You will find that this laboratory continues in

More information

UNIVERSITY OF NORTH CAROLINA AT CHARLOTTE Department of Electrical and Computer Engineering

UNIVERSITY OF NORTH CAROLINA AT CHARLOTTE Department of Electrical and Computer Engineering UNIVERSITY OF NORTH CAROLINA AT CHARLOTTE Department of Electrical and Computer Engineering EXPERIMENT 7 BJT AMPLIFIER CONFIGURATIONS AND INPUT/OUTPUT IMPEDANCE OBJECTIVES The purpose of this experiment

More information

LAB 4 : FET AMPLIFIERS

LAB 4 : FET AMPLIFIERS LEARNING OUTCOME: LAB 4 : FET AMPLIFIERS In this lab, students design and implement single-stage FET amplifiers and explore the frequency response of the real amplifiers. Breadboard and the Analog Discovery

More information

EE 368 Electronics Lab. Experiment 10 Operational Amplifier Applications (2)

EE 368 Electronics Lab. Experiment 10 Operational Amplifier Applications (2) EE 368 Electronics Lab Experiment 10 Operational Amplifier Applications (2) 1 Experiment 10 Operational Amplifier Applications (2) Objectives To gain experience with Operational Amplifier (Op-Amp). To

More information

Physics 310 Lab 4 Transformers, Diodes, & Power Supplies

Physics 310 Lab 4 Transformers, Diodes, & Power Supplies Physics 310 Lab 4 Transformers, Diodes, & Power Supplies Equipment: O scope, W02G Bridge Rectifier, 110 6.3V transformer, four 1N4004 diodes, 1k, 10µF, 100µF, 1N5231 Zeener diode, ½ - Watt 100 Ω, 270Ω,

More information

Energy band diagrams Metals: 9. ELECTRONIC DEVICES GIST ρ= 10-2 to 10-8 Ω m Insulators: ρ> 10 8 Ω m Semiconductors ρ= 1 to 10 5 Ω m 109 A. Intrinsic semiconductors At T=0k it acts as insulator At room

More information

R & D Electronics DIGITAL IC TRAINER. Model : DE-150. Feature: Object: Specification:

R & D Electronics DIGITAL IC TRAINER. Model : DE-150. Feature: Object: Specification: DIGITAL IC TRAINER Model : DE-150 Object: To Study the Operation of Digital Logic ICs TTL and CMOS. To Study the All Gates, Flip-Flops, Counters etc. To Study the both the basic and advance digital electronics

More information

EXPERIMENT 5 : THE DIODE

EXPERIMENT 5 : THE DIODE EXPERIMENT 5 : THE DIODE Component List Resistors, one of each o 1 10 10W o 1 1k o 1 10k 4 1N4004 (I max = 1A, PIV = 400V) Diodes Center tap transformer (35.6V pp, 12.6 V RMS ) 100 F Electrolytic Capacitor

More information

SEMICONDUCTOR ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS. Class XII : PHYSICS WORKSHEET

SEMICONDUCTOR ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS. Class XII : PHYSICS WORKSHEET SEMICONDUCT ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS Class XII : PHYSICS WKSHEET 1. How is a n-p-n transistor represented symbolically? (1) 2. How does conductivity of a semiconductor change

More information

DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS

DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS EXPERIMENT : 5 TITLE : ACTIVE FILTERS OUTCOME : Upon completion of this unit, the student should be able to: 1. gain experience with

More information

Electronics I. laboratory measurement guide Andras Meszaros, Mark Horvath

Electronics I. laboratory measurement guide Andras Meszaros, Mark Horvath Electronics I. laboratory measurement guide Andras Meszaros, Mark Horvath 3. Measurement: Diodes and rectifiers 2017.02.27. In this session we are going to measure forward and reverse characteristics of

More information

Roll No. B.Tech. SEM I (CS-11, 12; ME-11, 12, 13, & 14) MID SEMESTER EXAMINATION, ELECTRONICS ENGINEERING (EEC-101)

Roll No. B.Tech. SEM I (CS-11, 12; ME-11, 12, 13, & 14) MID SEMESTER EXAMINATION, ELECTRONICS ENGINEERING (EEC-101) F:/Academic/22 Refer/WI/ACAD/10 SHRI RAMSWAROOP MEMORIAL COLLEGE OF ENGG. & MANAGEMENT (Following Paper-ID and Roll No. to be filled by the student in the Answer Book) PAPER ID: 3301 Roll No. B.Tech. SEM

More information