Controlling Department Branch: Electronics & Comm.Engg.
Carpet Area Available (Sqm.) 59’-6”X 32’-0”
Name of the Lab/Workshop: EEMSD Lab
Semester in Which Engaged: 3rd Sem.
|
S.No. |
Name of the experiment
|
Name of the Experiment and Instruments required |
|
1 |
To study V-I characteristics of diode and determination of D.C. model parameters |
CRO ,DC power Supply bread Board, ,multimeter& Diode |
|
2 |
Study of the characteristics of transistor in common-emitter configuration. |
Dual DC power Supply bread Board, ,multimeter,& Transisters ,Resistance |
|
3 |
Study of the characteristics of transistor in common-base configuration
|
Dual DC power Supply bread Board, ,multimeter,& Transisters ,Resistance |
|
4 |
Study of I-V characteristics of a Photovoltaic cell. |
Dual DC power Supply bread Board, multimeter,& Photovoltaic cell,Resistance |
|
5 |
To determine the H-parameter of transistor in Common-emitter configuration |
Dual DC power Supply bread Board, ,multimeter,& Transisters ,Resistance |
|
6 |
Study of characteristics of MOSFET/JEET in CS configuration. |
Dual DC power Supply bread Board, ,multimeter,& MOSFET ,Resistance |
|
7 |
Study of Characteristics of FET in CD Configuration |
Dual DC power Supply bread Board, ,multimeter,& FET ,Resistance |
|
8 |
To Plot Characteristics of Thyristor. |
CRO ,DC power Supply bread Board, ,multimeter,& SCR,VariableResistance |
|
9 |
To Plot Characteristics of UJT |
CRO, DC power Supply bread Board, multimeter,& UJT,Difrent Value of Resistance |
|
10 |
To Plot Characteristics of DIAC. |
CRO, DC power Supply bread Board, multimeter,& DIAC,Resistance |
|
S.No |
Name of Equipment |
Quantity |
|
1 |
C.R.O
|
10 |
|
2 |
Function Generator
|
10 |
|
3 |
Dual Digital DC Power Supply
|
10 |
|
4 |
Digital MultiMeter
|
30 |
|
5 |
Bread Board
|
20 |
|
6 |
Different Electronics Components, Difrent Types/Values of Diodes, Resistance,Inductors,CapectorsTransistors,Ics,SCR,Triac,UJT,Diac,MOSFET,FET,etc.
|
17000 |
Carpet Area Available (Sqm.) 59’-6”X 32’-0”
Name of the Lab/Workshop: Analog Electronics lab
Semester in Which Engaged: 4rd Sem.
|
S.No. |
Name of the experiment
|
Name of the Experiment and Instruments required |
|
1 |
Study of half Wave & Full Wave Rectifier |
CRO, Function Generator DC power Supply bread Board, multimeter & Diode, Resistances |
|
2 |
Study of power Supply Filters |
CRO, Function Generator DC power Supply bread Board, multimeter & Diode, Resistances, Capacitors |
|
3 |
Study of Diode as clipper &Clamper
|
CRO, Function Generator DC power Supply bread Board, multimeter & Diode, Resistances, Capacitors |
|
4 |
Study of the Zener Diode as a Voltage Regulator |
Digital Dual DC power Supply bread Board, multimeter &Zener Diode, Resistances |
|
5 |
Study of C.E Amplifier for voltage and Current Gains and Input, output, Impedance |
Digital Dual DC power Supply bread Board, multimeter &Transistor, Resistances |
|
6 |
Study of C.C Amplifier as Buffer |
Digital Dual DC power Supply bread Board, multimeter &Transistor, Resistances |
|
7 |
Study of Three terminal I.C.Regulater |
Digital Dual DC power Supply bread Board, multimeter &Capacitor &Tree PinI.C, Regulaters, Resistances |
|
8 |
Study of FET as a Common Source Amplifier |
Digital Dual DC power Supply bread Board, multimeter &FET, Resistances |
|
9 |
Study of FET as a Common Drain Amplifier |
Digital Dual DC power Supply bread Board, multimeter &FET, Resistances |
|
10 |
Study & design of a DC Voltage Doubler |
Digital Dual DC power Supply bread Board, multimeter &Components (Capacitors, Diode), Resistances |
|
S.No |
Name of Equipment |
Quantity |
|
1 |
C.R.O
|
10 |
|
2 |
Function Generator
|
10 |
|
3 |
Dual Digital DC Power Supply
|
10 |
|
4 |
Digital MultiMeter
|
30 |
|
5 |
Bread Board
|
20 |
|
6 |
Diode Different Specification |
1000 |
|
7 |
Resistances Different Value |
10000 |
|
8 |
Capacitors different Value |
3000 |
|
9 |
Transistors Different Type |
400 |
|
10 |
I.C. Different Type |
1000 |
Name of the Lab/Workshop: Digital Lab
Disciplines /Branches, Year/Semester in Which Prescribed: EC, IT, CS, &EE 4th Sem
|
S.No. |
Name of the experiment
|
Name of the Experiment and Instruments required |
|
1 |
Study of TTL Gates: AND, OR, NOT, NAND, NOR, XOR Study of Universal Gates. |
Digital I.C.Trainer Board |
|
2 |
Design & realize a given function using K-maps & verify its performance. |
Digital I.C. Trainer Board |
|
3 |
To verify the operation of multiplexer & Demultiplexer
|
Digital I.C. Trainer Board |
|
4 |
To verify the truth table of S-R, J-K, T & D Type flip-flops. |
Digital I.C. Trainer Board |
|
5 |
To design & verify the operation of three bit synchronous counter. |
Digital I.C. Trainer Board |
|
6 |
To verify the operation of Up/down decade counter & derive a seven segment display using the same. |
Digital I.C. Trainer Board |
|
7 |
To design and realize a sequence generator for a given sequence using J-K flip-flop. |
Digital I.C. Trainer Board |
|
8 |
Study of Ring counters.
|
Digital I.C. Trainer Board |
|
9 |
Study of Johnson Counters. |
Digital I.C. Trainer Board |
|
10 |
(A) Study of Half & Full binary adder/ subtractor (B) Study of BCD (1 digit) adder/subtractor.
|
Digital I.C. Trainer Board |
|
11 |
To study 7 segment decoder/driver. |
Digital I.C. Trainer Board |
|
S.NO. |
Name of Equipment |
Qty |
|
1 |
Logic Trainer |
5 |
|
2 |
Logic Trainer |
5 |
|
3 |
Digital I.C. Trainer |
6 |
|
4 |
CMOS gate Trainer |
2 |
Name of the Lab/Workshop: Communication Engg. Lab
Disciplines /Branches, Year/Semester in Which Prescribed: EC, IT, CS, 4th Sem
|
S.No. |
Name of the experiment
|
Name of the Experiment and Instruments required |
|
1 |
Study and Analysis of waveforms of Amplitude Modulation
|
A.M Kit & CRO |
|
2 |
To find Modulation index of Amplitude Modulation. |
A.M Kit & CRO |
|
3 |
Study and Analysis of waveform of Frequency Modulation. |
F.M Kit & CRO |
|
4 |
To find Modulation index of Frequency Modulation. |
F.M Kit & CRO |
|
5 |
Study & Analysis of Pulse Amplitude Modulation. |
P.A.M Kit & CRO |
|
6 |
Study & Analysis of Pulse Width Modulation. |
P.W.M Kit & CRO |
|
7 |
Study & Analysis of Pulse Position Modulation. |
P.P.M Kit & CRO |
|
8 |
Study & Analysis of Pulse Code Modulation. |
P.C.M Kit & CRO |
|
9 |
Study & Analysis of Delta Modulation |
D.M Kit & CRO |
|
10 |
Study & Analysis of Sampling Theorem.
|
Analog Signal Sampling Kit & CRO |
|
S.NO. |
Name of Equipment |
Qty |
|
1 |
Amplitude Mod &Demod Kit |
5 |
|
2 |
Frequency Mod & Demod Kit |
5 |
|
3 |
Pulse Code Mod & Demod Kit |
5 |
|
4 |
Pulse Position Mod & Demod Kit |
5 |
|
5 |
Pulse Width Mod & Demod Kit |
5 |
|
6 |
Pulse Amp. Mod & Demod Kit |
5 |
|
7 |
Delta Mod & Demod Kit |
5 |
|
8 |
Data Conditioning Kit |
3 |
|
9 |
Data Reconditioning Kit |
3 |
|
10 |
Analog Signal Sampling Kit |
3 |
Carpet Area Available (Sqm.) 59’-6”X 32’-0”
Name of the Lab/Workshop: Analog Electronics Circuit lab
Disciplines /Branches, Year/Semester in Which Prescribed: EC 5th Sem
|
S.No. |
Name of the experiment
|
Name of the Experiment and Instruments required |
|
1 |
Design and realize using opamp 741 Inverting Amplifier, Non Inverting Amplifier& Buffer |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capactors |
|
2 |
With the help of frequency response Show that Differentiator using opamp 741 acts as a high pass filters |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capacitors |
|
3 |
With the help of frequency response Show that Integrator using opamp 741 acts as a Low pass filters |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capacitors |
|
4 |
Design and realize using opamp 741 Adder and Subtractor |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capacitors |
|
5 |
Plot frequency Response of RC-Coupled Amplifier using 741 |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capacitors |
|
6 |
Design and realize using opamp 741 as wain Bridge Oscillator |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capacitors |
|
7 |
Design and realize using opamp 741 as Squire wave generator |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capacitors |
|
8 |
Design and realize using opamp 741 as Logarithmic Amplifier, VCCS |
CRO, Function Generator DC power Supply bread Board, multimeter & Opams 741,Different value of Resistances, Capacitors |
|
9 |
Design & Realize the Frequency Response of an RC-Coupled Amplifier Discrete Component |
CRO, Function Generator DC power Supply bread Board, multimeter & Discrete Component (Transistor ,Different value of Resistances, Capacitors etc.) |
|
S.No |
Name of Equipment |
Quantity |
|
1 |
C.R.O
|
10 |
|
2 |
Function Generator
|
10 |
|
3 |
Dual Digital DC Power Supply
|
10 |
|
4 |
Digital MultiMeter
|
20 |
|
5 |
Bread Board
|
20 |
|
6 |
Different Electronics Components (Different types of Resistance capacitors Transistors & IC.OPAMP |
15000 |
Name of the Lab/Workshop: Microprocessor Lab
Disciplines /Branches, Year/Semester in Which Prescribed: EC, EE 5th Sem
|
S.No. |
Name of the experiment |
Name of the Experiment and Instruments required |
|
1 |
Study architecture of 8085 and familiarization with its hardware, commands and operation of UP kit. |
Microprocessor 8085 Kit & Power Supply |
|
2 |
Write a well-documented program for: Addition of two 8-bit numbers (provision for carry) Addition of two 8-bit numbers. |
Microprocessor 8085 Kit & Power Supply |
|
3 |
Write a well-documented program for: Subtraction of two 8-bit number (display of borrow) Subtraction of two 16-bit numbers (display of borrow)
|
Microprocessor 8085 Kit & Power Supply |
|
4 |
Write a well-documented program for: Multiplication of two 8-bit numbers by repeated addition method. Check for minimum number of addition and also test for typical data. |
Microprocessor 8085 Kit & Power Supply |
|
5 |
Write a well-documented program for: Multiplication of two 8-bit numbers by bit rotation method. |
Microprocessor 8085 Kit & Power Supply |
|
6 |
Write a well-documented program for: Division of two 8-bit numbers by repeated subtraction method. Test for typical data. |
Microprocessor 8085 Kit & Power Supply |
|
7 |
Write a well-documented program for: Dividing two 8-bit numbers by bit rotation method. Test for typical data |
Microprocessor 8085 Kit & Power Supply |
|
8 |
Write a well-documented program for: Finding a Largest number from an array. Finding a smallest number from an array. |
Microprocessor 8085 Kit & Power Supply |
|
9 |
Write a well-documented program for: Arranging an array of numbers in descending order. |
Microprocessor 8085 Kit & Power Supply |
|
10 |
Write a well-documented program for: Arranging an array of numbers in ascending order |
Microprocessor 8085 Kit & Power Supply |
|
11 |
Write a well-documented program for: Finding square of a number-using look up table. |
Microprocessor 8085 Kit & Power Supply |
|
12 |
Identification of input and output pins of Post 8255 for various control words |
Microprocessor 8085 Kit & Power Supply |
|
13 |
Write a well-documented program for: Division of a defined double word (stored in a data segment) by another double word division on 8086 uP kit. |
Microprocessor 8086 Kit & Power Supply MASM Turbo Assembler |
|
14 |
Write a well-documented program for: finding the square root of a given number on 8086 uP kit. |
Microprocessor 8086 Kit & Power Supply MASM Turbo Assembler |
|
15 |
Write a well-documented program for copying 12 bytes from sourced to destination on 8086 uP Kit. |
Microprocessor 8086 Kit & Power Supply MASM Turbo Assembler |
|
S.NO. |
Name of Equipment |
Qty |
|
|
|
|
|
|
|
1 |
Microprocessor(8085) Kit Vinytics VMC |
20 |
|
|
|
8201 with Power Supply |
|
|
|
2 |
Microprocessor 8086/8089 Kit VMC |
10 |
|
|
|
8609 LCD Display with Power Supply with K/B |
||
|
3 |
Interfacing Module Card with 8085 Kit |
||
|
a) |
ADC 0809 |
1 |
|
|
b) |
Dual DAC |
1 |
|
|
c) |
Stepper Motor Controller |
1 |
|
|
d) |
Stepper Motor Torqu 3 Kg. Cm. |
1 |
|
|
e) |
Key Board |
1 |
|
|
f) |
Temprature Controller |
1 |
|
|
g) |
DC Motor Controller |
1 |
|
|
4 |
Study Module card |
|
|
|
a) |
8251 With 8253 |
1 |
|
|
b) |
8255 |
3 |
|
|
c) |
8257 |
1 |
|
|
d) |
8279 |
1 |
|
|
e) |
8259 |
1 |
|
|
f) |
8155 |
1 |
|
|
g) |
26 Pin Flat Core Cable for Interfacing |
7 |
|
|
5 |
Universal Programmer & Tester SP-II P |
1 |
|
|
6 |
EPROM Eraser EE-1 |
2 |
|
Carpet Area Available (Sqm.) 59’-3”X 32’
|
S.No. |
Name of the experiment
|
Name of the Experiment and Instruments required |
|
1 |
Study of Wave Guide Components. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequnce Meter, Slotted Section, Detector, V.S.W.R.Meter & CRO |
|
2 |
To study the characteristics of reflex Klystron and determine it’s timing range. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, movable Slot, Matched Termination & CRO |
|
3 |
To measure frequency of Microwave source and demonstrate relationship among frequency free space wavelength and guide wavelength. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, V.S.W.R.Meter, Matched Termination, S.S, Tuner |
|
4 |
To measure VSWR unknown load and determine its impedance using a switch chart. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, Horn Antenna |
|
5 |
To measure VSWR, insertion losses and attenuation of a fixed and variable attenuator. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, Detactor & CRO |
|
6 |
To measure coupling and directivity of direction couplers. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, Direction Coupler, Match Termination & CRO |
|
7 |
To determine and insertion loss. Isolation of a three-port circulator. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, Match Termination, Three Port Circulator & CRO |
|
8 |
To study the characteristics of gun diode. |
Gun Power Supply & Gun Oscillator |
|
9 |
To study Magic Tee. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, Magic Tee, Detactor & CRO |
|
10 |
To study Phase Shifter. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, Phase Shifter & CRO |
|
11 |
To Plot Radiation Pattern of Horn Antenna. |
S.K.P.S, K.Tube, Isolator, Variable Attenuator, Frequency Meter, Slotted Section, Horn Antenna, Detector & CRO |
|
S.No |
Name of Equipment |
Qty |
|
1 |
Klystron Power Supply KP-475/KP 1010 |
4 |
|
2 |
Solid State VSWR meter VS-411 |
3 |
|
3 |
Klystron 2K 2.5" |
4 |
|
4 |
Klystron Mount X-2011 |
4 |
|
5 |
WG Detectro Mount X-4051 |
4 |
|
6 |
Frequency Meter X-4055 |
6 |
|
|
Direct Frequency Meter X-4155 |
|
|
7 |
Variable Attenuator X-5020 |
4 |
|
8 |
Isolator/Circulator with Termination |
6 |
|
|
Three Port Circulatro X-6022 |
|
|
9 |
WG Stand X-5035 |
12 |
|
10 |
Coolin fan |
4 |
|
11 |
Matched Termination X-4000 |
6 |
|
12 |
Movable Short X-4081 |
3 |
|
13 |
Slotted Section With Probe X-6051 |
4 |
|
14 |
Tunable probe X-6055 |
4 |
|
15 |
Slide Screw Tuner X-4041 |
3 |
|
16 |
Pyramindal WG Horn X-5041 |
6 |
|
17 |
Tripped Stand X-5145 |
3 |
|
18 |
Rotatory Joint X-8181 |
3 |
|
19 |
E Plane Band X-7071 |
3 |
|
20 |
WG with Flanges WR-90 |
3 |
|
21 |
Multi Hole D-Coupler 10B X-6010 |
3 |
|
22 |
Cross Directional Coupler 20DB X-6062 |
3 |
|
23 |
Eh tee X-3045/H Plane Tee/ E Plane Tee |
7 |
|
24 |
WG Phase Shifter X-9181 |
3 |
|
25 |
Precision Movable Short X-4181 |
3 |
|
26 |
Gun Power Supply S-110 |
2 |
|
27 |
Gun Oscillator X-2152 |
2 |
|
28 |
Pin Modulator X-451 |
2 |
|
29 |
Fixed Attenuator X-5006 |
6 |
|
30 |
Reasonant Cavity X-211 |
3 |
Carpet Area Available (Sqm.) 23’-3”X 23’-3”
Disciplines /Branches, Year/Semester in Which Prescribed: EC, 8th Sem
S.No |
Name of the experiment
|
Name of the Experiment and Instruments required |
|
1 |
Setting up a fiber optic analog link & study losses in optical fiber, numerical aperture of optical fiber. |
Optical Fiber Kit& Optical Fiber Cable |
|
2 |
To Study the process of Transmitting Signal. |
Uplink Transmitter, Transponder, Down Link Receiver, helical Anteena, T.V& Camera |
|
3 |
To Study Difference between active & Passive Satellite. |
Uplink Transmitter, Transponder, Down Link Receiver, helical Antenna, T.V& Camera |
|
4 |
To Study the Base band Signal in a Satellite Link. |
Uplink Transmitter, Transponder, Down Link Receiver, helical Antenna, T.V& Camera |
|
5 |
To estimate C/N Ratio. |
Uplink Transmitter, Transponder, Down Link Receiver, helical Antenna, T.V& Camera |
|
6 |
To estimate S/N Ratio. |
Uplink Transmitter, Transponder, Down Link Receiver, helical Anteena, T.V& Camera |
|
7 |
To setup digital satellite Communication Link. |
Uplink Transmitter, Transponder, Down Link Receiver, helical Antenna, T.V& Camera |
|
8 |
To Study Black & White and Color T.V. |
Black & White T.V Demonstrator color T.V Demonstrator |
|
9 |
To plot radiation pattern of parabolic reflector. |
Uplink Transmitter, Transponder, Down Link Receiver, helical Antenna, T.V& Camera |
|
10 |
To Study Satellite Communication Receiver. |
Satellite Communication Receiver |
|
S.NO. |
Name of Equipment |
Qty |
|
|
|
|
|
1 |
Satellite Communication Trainer |
|
|
a) |
Digital satellite Uplink Transmeter |
1 |
|
b) |
Digital Satelliter Downlink Receiver |
1 |
|
c) |
Video Camera |
1 |
|
d) |
B & W Monitor |
1 |
|
e) |
M/C (Forntech) |
1 |
|
f) |
Digital Satellite Relay |
1 |
|
g) |
Satellite Antena(Circular Polarised Type) |
2 |
|
h) |
Antena(Radar Type) |
1 |
|
I) |
Falcon Antena Stopper Motor Controller |
1 |
|
|
ATS 2001-S |
|
|
|
|
|
|
2 |
Satellite Communication Receiver |
|
|
a) |
Satellite Communication Receiver |
1 |
|
b) |
Colour TV (BPL Prima) 21" with Remote |
1 |
|
c) |
Disc Antena |
1 |
|
d) |
Decible Meter (D.B. Meter) |
1 |
|
3 |
Colour TV Demonstrator |
1 |
|
4 |
B & W Dynamic Demonstrator |
1 |
|
5 |
Optical Fiber Trainer Kit |
1 |
|
a) |
Fibre optical Power Supply |
1 |
|
b) |
M/c |
1 |
|
c) |
Cyber Speaker |
1 |
|
6 |
Colour Pattern Generator |
1 |
|
7 |
Sweep Generator |
1 |
|
8 |
AM/FM Signal Generator (1-500 MHz) |
1 |