LIST OF ELECTRICAL TECHNOLOGY B-TECH (ELECTRICAL)

AT G.C.T.s

S.NO. / ITEM NAME / SPECIFICATIONS/ DESCRIPTION / QTY / Remarks
1 / UNIVERSAL BASIC ELECTRICITY & ELECTRONICS TRAINER
Hints / Guide lines: The trainer should consist of:
·  a comprehensive & Self-contained system of integrated measuring equipments,
·  Different Accessories & Power supplies.
·  Consist in different Modules
·  secured in Solid Metallic body &
·  Should be PLUG & PLAY Type.
·  It should include comprehensive experiment & Instructor’s Manuals.)
·  All modules equipped with an 8-bit DIP switch for circuits fault simulations
·  With all standard accessories
·  All the necessary equipment for experiments such as power supply, function generator, analog and digital meters should installed on the main unit. / POWER SUPPLIES:
·  Variable DC Power Supply range: 0-30 Volt with output overloads protection.
·  Variable AC Power Supply range: 0-30 Volt with output overloads protection.
·  Function Generator having output wave form of SINE, SQUARE, TRIANGULAR etc, Output continuously adjustable Frequency range 0-100 kHz
·  and others, Relevant to that
INSTRUMENTS:
·  DC Volt meter, range 0-100, 0-200Volts
·  DC Ampere Meter, range 200 µ A, 1000 mA, 2 A.
·  AC Voltmeter, range 0-100Volts
·  AC Ampere Meter, range 0-100 mA, 1 A.
·  Frequency Meter
·  and others, Relevant to that
Should perform following experiments
Experiments for Basic Electricity
DC Voltage Measurement Using an Ohmmeter
Resistor Characteristics
Resistor measurement
Ohm's law
AC voltage/current measurement
Series/parallel circuit
Wheatstone bridge
Kirchoff's law
Thevenin's theorem
Norton's theorem
Maximum power transfer theorem and others
DC RC and RL transient phenomena
AC current/voltage experiment
AC RLC series/parallel circuit
Resonant circuit
Power in AC circuit
DC Current Measurement
Series-Parallel Network and Kirchoff’s Law
DC RC Circuit and Transient Phenomena
AC Voltage Measurement
AC Current Measurement
AC, RC Circuit
AC, RL Circuit
AC, RLC Circuit
Power in AC Circuit
Series-Resonant Circuit
Parallel-Resonant Circuit
LC Filter
Experiments for Magnetism
Magnetic Devices
Magnetic Field
Drawing Magnetic Curves
Magnetic Field Strength
Lenz’s and Faraday’s Laws
Ampere’s Rule
Fleming’s Rule
Self Induction
Mutual Induction
Magnetic Flux Detection
Experiments for Basic Electronic Circuits
Wheat stone Bridge
Dimmer Circuit
Multistage Cascading Amplifier
Relay Characteristics
Touch-Controlled Switch
Characteristics of Diodes
Silicon Diode
Germanium Diode
Zener Diode
Light Emitting Diode
Optical Diode
Clipping and Clamping Circuits with Diodes
Clipping Circuit
Clamping Circuit
Rectifier Circuits
Half Wave Rectifier Circuit
Full Wave Rectifier Circuit
Bridge Rectifier Circuit
Filter circuits (All types)
Dual Power Supply Rectifier Circuit
Voltage Magnified Rectifier Circuit
Transistors
PNP Transistor
NPN Transistor
Transistor Amplification Circuits
Common Emitter Transistor Amplification Circuit
Common Base Transistor Amplification Circuit
Common Collector Transistor Amplification Circuit
Switching Type Transistor Circuit
Darlington’s Circuit
Field Effect Transistors (FET)
Junction Type FET (JFET)
Metal-Oxide-Semiconductor FET (MOSFET)
DE & E-MOSFET
OP Amplifiers
Transistor Differential Amplification Circuit
Characteristics of OP Amplifiers
a. Input Impedance Measurement
b. Output Impedance Measurement
c. Bandwidth Measurement
d. Slew Rate Measurement
e. Offset Voltage Measurement
Basic Characteristics of OP Amplifier
Inverse Amplification
Non-Inverse Amplification
Voltage-Follower Circuit
Different Amplification
Sum Amplification (Adder)
Clipping Circuit
Constant Voltage Circuit
Differentiator Circuit
Integrator Circuit
Control circuit
Water level control
Metal detector
Light controller
And others, relevant to that / 02
2 / ADVANCE ELECTRICITY & ELECTRONICS TRAINER
·  Hints / Guide lines: The trainer should consist of:
·  a comprehensive & Self-contained system of integrated measuring equipments,
·  Different Accessories & Power supplies.
·  Consist in different Modules
·  secured in Solid Metallic body &
·  Should be PLUG & PLAY Type.
·  It should include comprehensive experiment & Instructor’s Manuals.)
·  All modules equipped with an 8-bit DIP switch for circuits fault simulations
·  With all standard accessories
·  All the necessary equipment for experiments such as power supply, function generator, analog and digital meters should installed on the main unit.
·  Must use plugs, connecting leads and sockets to withstand high power
·  Circuits, blocks and components symbols printed on the surface of each module / POWER SUPPLIES:
·  Variable DC Power Supply range: 0-30Volt with output overloads protection.
·  Variable AC Power Supply range: 0-30 Volt with output overloads protection.
·  Function Generator having output wave form of SINE & SQUARE, Output continuously adjustable Frequency range 0-100 kHz
·  and others, relevant to that
INSTRUMENTS:
·  DC Volt meter, range 0-100, 0-200Volts
·  DC Ampere Meter, range 200 µ A, 1000 mA, 2 A.
·  AC Voltmeter, range 0-100Volts
·  AC Ampere Meter, range 0-100 mA, 1 A.
·  Watt meter, range 0-100Watts
·  Power Factor meter
·  Phase sequence meter
·  LC Meter
·  Frequency Meter
·  and others, relevant to that
This trainer must covers the following Experiments on AC Supply:
Mesh and Nodal Analysis
Impedance of RL, RC, RLC (Series & Parallel) at different frequencies
All Network Theorems.
Transients (in RL, RC).
Series and Parallel circuits
Resonant circuits.
Tank circuits.
Power in AC and DC Circuits.
Measuring Power.
Power Factor in AC Circuits at different LOADS
And related to these
Power supply Unit Experiment
AC Voltage measurement
DC Voltage measurement
Series and parallel working of Power Diodes
Characteristics of Power Transistors
UJT Experiments
UJT Introduction
UJT Characteristic
UJT Equivalent Circuit
PUT Experiments
PUT Characteristic & Equivalent Circuit
PUT Introduction
PUT Characteristic
PUT Equivalent Circuit
PUT & SCR Experiments
PUT Staircase Generator & Voltage Control Ramp Circuit
PUT Staircase Generator Circuit
PUT Voltage Control Ramp Circuit
SCR Characteristic & RC Shift Control Circuit
SCR Principle
SCR Characteristic Curve
SCR Construction
SCR Trigger Mode
SCR RC Phase Control Circuit
SCS Experiment
SCS Characteristic Experiment
SCS Construct and Operation Mode
Use VOM Meter Measure SCS
SCS Schmitt Circuit
SCS Simulate PUT Circuit
SCS Trigger Circuit Experiment
UJT & PUT Trigger SCR Experiments
UJT Trigger SCR Phase Control Circuit
Phase Control Basic Circuit
Phase Control Analysis
AC Phase Control Circuit Analysis
SCR Control DC Motor & DIAC, TRIAC
Characteristic Experiments SCR Control DC Motor Forward/Reverse Experiment
SCR Cut-Off Principal
SCR Control DC Motor Forward/Reverse Control Experiment
DIAC, TRIAC Characteristic Experiment
DIAC Construction and Characteristic
DIAC Operation Mode and Measurement
TRIAC Construction and Characteristic
TRIAC Trigger Mode
TRIAC Static Measurement
Automatic Control Lamp, TRIAC Control Speed Experiments
Automatic Control Lamp Experiment
TRIAC Shift Control
TRIAC Automatic Control Lamp Experiment
TRIAC Control Motor Speed Experiment
Different Motor Introduction
TRIAC Control Motor Speed
Photo-Couple & Touch Control Experiment
Photo-Couple Control Circuit
Touch Alarm Circuit
PARALLEL Converter Introduction
Series Converter Introduction
Semi and Full converters circuits
Converter Trigger Source
Converter Voltage Adjust
Converter Output-Waveform Improvement
AC to AC converters as AC Motor speed controller
DC to DC converters
PWM technique of frequency control
Working as Cycloconverter
Inverters related experiments
And other experiment related to that
SCR Rectifier Circuit Experiment
Single-Phase Half-Wave Rectifier
Single-Phase Full-Wave Rectifier
Single-Phase Bridge’s Rectifier
Single-Phase half-wave & Full-wave controlled rectifier with Resistive & Inductive load
Three-Phase half-wave and Full-wave controlled rectifier with Resistive and Inductive load
Three-Phase Half-Wave Rectifier
Three-Phase Full-Wave Rectifier
Three phase full-wave control circuits for DC Motors
JFET/MOSFET Characteristic & MOSFET Speed
Control Experiment
JFET Characteristic Experiment
MOSFET Characteristic Experiment
MOSFET Speed Control Experiment
IGBT Characteristic & IGBT Speed Control Experiment
IGBT Characteristic Experiment
IGBT Speed Control Experiment / 02
3 / DIGITAL LOGIC TRAINER
·  (Hints: The trainer should consist of:
·  a comprehensive & Self-contained system of integrated measuring equipments
·  Different Accessories
·  Indicators
·  toggles switches
·  Seven Segment Display & Power supplies containing Pulse signals.
·  It should consist in different Modules
·  secured in Solid Metallic body &
·  Should be PLUG & PLAY Type.
·  It should include comprehensive experiment & Instructor’s Manuals.) / POWER SUPPLIES:
·  DC Power Supply range: + 5V, 1.5 A & -5V, 0.3A & ±12V, 0.3 A with output overload protection.
·  Adjustable DC Power Supply range: +1.5V to 15 V, 0.5 A with output overload protection.
·  Standard Frequency, range 1 HZ, 50 Hz, 1 MHz
·  Clock Signal Generator, 1 Hz to 1 MHz (6 equal Ranges).
·  Data switches
·  Pulser switches
·  Logic Indicator,
·  Logic Probes
·  and others, Relevant to that
Should perform following experiments
Basic Logic Gates Experiments
Introduction to Logic Gates and Switches
Logic Gates Circuits
a. Diode Logic (DL) Circuit
b. Resistor-Transistor Logic (RTL) Circuit
c. Diode-Transistor Logic (DTL) Circuit
d. Transistor-Transistor Logic (TTL) Circuit
e. COMS Logic Circuit
Threshold Voltage Measurement
a. TTL Threshold Voltage Measurement
b. CMOS Threshold Voltage Measurement
Voltage/Circuit Measurement
a. TTL/IO Voltage/Current Measurement
b. CMOS Voltage/Current Measurement
Basic Logic Gate Delay Transmission Delay Measurement
a. AND Gate Characteristics Measurement
b. OR Gate Characteristics Measurement
Measurement of Basic Logic Gates Characteristics
a. AND Gate Characteristics Measurement
b. OR Gate Characteristics Measurement
c. INVERTER Gate Characteristics Measurement
d. NAND Gate Characteristics Measurement
e. NOR Gate Characteristics Measurement
f. XOR Gate Characteristics
Measurement Interface Between Logic Gates
a. TTL to COMS interface
b. CMOS TTL interface
NOR Gate Circuit
NAND Gate Circuit
XOR Gate Circuit
a. Constructing XOR Gate with NAND Gate
b. Constructing XOR Gate with Basic Gate
AND-OR-INVERT (AOI) Gate Circuit
Comparator Circuit
a. Comparator Constructed with Basic Logic Gates
b. Comparator Constructed with TTL IC
Schmitt Gate Circuit
Open-Collector Gate Circuits
a. High Voltage/ CIRCUITS
b. Constructing an AND Gate with Open-Collector Gate
c. Bidirectional Transmission Circuit
Half-Adder and Full-Adder Circuits
a. Constructing HA with Basic Logic Gates
b. Full Adder Circuit
c. High-Speed Adder Carry Generator Circuit
d. BCD Code Adder Circuit
Half-Subtractor and Full-Subtractor Circuit
a. Subtractor Circuit Constructed with Basic Logic Gates
b. Full Adder and Inverter Circuit
Arithmetic Logic Unit (ALU) Circuit
Bit Parity Generator Circuit
a. Bit Parity Generator Constructed with XOR Gates
b. Bit Parity Generator IC
Encoder Circuit
a. Constructing a 4-to-2 Encoder with Basic Gates
b. Constructing a 10-to-4 Encoder with TTL IC
Decoder Circuit
a. Constructing a 2-to-4 Decoder with Basic Gates
b. Constructing a 4-to-10 Decoder with TTL IC
Multiplexer Circuit
a. Constructing a 2-to-1 Multiplexer
b. Using Multiplexers to Create Functions
c. Constructing a 8-to-1 Multiplexer with TTL IC
Demultiplexer Circuit
a. Constructing a 2-output Demultiplexer
b. Constructing a 8-output Demultiplexer
Digitally Controlled Analog
Multiplexer/Demultiplexer Circuit
a. analog Switch Characteristics
b. Bidirectional Transmission with CMOS IC Analog Switches
Constructing Oscillator Circuit with Basic Logic Gates
Constructing Oscillator Circuit with Schmitt Gate
Voltage Controlled Oscillator (VCO) Circuit
555 IC Oscillator Circuit
a. 555 Oscillator Circuit
b. VCO Circuit
Monstable Multivibrator Circuits
a. Low-Speed Monostable Multivibrator Circuits
b. High-Speed Monostable Multivibrator Circuits
c. Constructing Monostable Multivibrator Circuits
d. Constructing Non-Retriggerable Circuit with TTL-IC
e. Constructing Retriggerable Circuit with TTL-IC
f.Variable Duty Cycle Oscillator Circuit with
Sequential Logic Circuit Experiments
Flip-Flop Circuits
a. Constructing a R-S Flip-Flop with a Basic Logic Gates
b. Constructing a D Flip-Flop with a R-S Flip-Flop
c. Constructing a T Flip-Flop with a D Flip-Flop
d. Constructing a J-K Flip-Flop with a R-S Flip-Flop
e. Constructing a Shift Register with a d Flip-Flop
f. Preset Left/Right Shift Register
g. Constructing a Noise Elimination Circuit with R-S Flip-Flop
J-K Flip-Flop Circuits
a. Asynchronous Binary Up-Counter
b. Asynchronous Decade Up-Counter
c. Asynchronous divide-by-N Up-Counter
d. Asynchronous Binary Down-Counter
e. Synchronous Binary Up-Counter
f. Synchronous Binary Up/Down Counter
g. Preset-able Synchronous Decimal Up/Down Counter
h. Preset-able Synchronous Decimal Up/Down Counter
i. Ring Counter
j. Johnson’s Counter
Memory Circuit Experiments
Constructing READ ONLY MEMORY (ROM) with Diodes
Constructing RANDOM ACCESS MEMORY (RAM) with D Flip-Flop
64-bit RAM Circuit
ERASABLE PROGRAMMABLE READ ONLY MEMORY (EPROM) CIRUIT
Electronic EPROM (EEPROM) Circuit
Constructing Dynamic Scanning Counter with Single-chip Microprocessor
Converter Circuit Experiment
Digital/Analog Converter (DAC) Circuit
a. Unipolar DAC Circuit
b. Bipolar DAC Circuit
Analog/Digital Converter Circuit (ADC) Circuit
a. 8-bit Converter Circuit
b. 3 ½-digit Converter Circuit Basic logic gates Experiments i.e. Diode / 02
4 / MICROPROCESSOR 8086/8088 Trainer
Along with manuals and relevant accessories / Can easily interface with computer
Should perform following experiments
Instruction set
Pin lay out
Data transfer group of instructions
Execute I/O instructions, Shift and rotate instructions & Logic group of Instructions
Interface a printer
Use ADC / DAC with 8086 / 8088 / 02
5 / digital ic tester / Features & Device Supports
·  Tests a wide range of Digital IC's such as 74 Series, 40/45 Series of CMOS IC’s.
·  It can test Microprocessor 8085, 8086, 8088 etc.
·  It tests Peripherals like 8255, 8279, 8253, 8259, 8251, 8155, 6264, 62256, 8288, 8284 and others.
·  It tests seven segment displays of common cathode & common anode type.
·  It has Auto search facility of IC’s.
·  Test by: Truth table/sequence table comparison.
·  ZIF: 40 pin DIP ZIF sockets.
·  Keys: 28 Touch-keys Key pad with numerical & functional keys.
·  Display: 9 Digit Seven Segment Display.
·  Supply Input Voltage: 230V AC. / 04
6 / Oscilloscope Analog (40MHz) / 40MHz Bandwidth, Dual Channel
High sensitivity 1mV/div
ALT Triggering Function
TV synchronization
CH1 output
Z Axis input
with all standard accessories / 04
7 / Digital Storage Oscilloscope (50MHz) / * 50 MHz Bandwidth, 2 Input Channels
* 250MSa/s Real-Time & 25GSa/s Equivalent-Time Sampling Rate
* 4k Record Length per Channel
* Save/Recall of 15 Front Panel Settings & Waveforms
* 5.7" Color TFT LCD Display * 19 Auto Measurements
With all standard accessories / 04
8 / Digital Storage Oscilloscope (100 mhz) / 100 MHz Bandwidth, 2 input channels
25MSa/s Real-Time & 25GS/a/s
Equivalent-Time Sampling Rate
4k Memory Depth per channel
Save / Recall of 15 Front Panel settings & waveforms
5.7” Color TFT LCD display
19 auto measurements
math function : add, subtract, FFT
USB host & device ports
With all standard accessories / 04
9 / Function Generator (12MHz) / 0.1Hz~12MHz with in 0.1Hz Resolution