Home
About us
Products
Clients
Gallery
Contact Us
Home
Products
Enquiries
Operational amplifier Applications trainer (Model: IC-01)
Objectives:
To construct amplitude modulator using transistor and observe the amplitude modulated waveforms and check the percentage of modulation.
To study AM demodulation by using diode modulator.
Specifications:
This unit consists a built in power supplies of +12V,-12V @300mA.
Along with Carrier generator, AM modulator and AM demodulator circuits.
Carrier generator is designed using 8038 IC with fixed frequency 100KHZ and fixed amplitude.
Set of 2mm patch cards and user manual is accompanied with this kit.
Optional items required:
Dual trace CRO DC-30MHZ.
Operational amplifier Trainer (Model: IC-17)
Objectives:
Op-Amp characteristics i.e., Input offset voltage, slew rate, common mode rejection ratio (CMRR), Band width, Input bias current can be observed.
Op-Amp linear applications i.e., voltage follower, Inverting amplifier, Non-inverting amplifier, variable voltage gain amplifier, Adder, subs tractor, Differential amplifier, Integrator, Differentiator can be observed.
Op-Amp Non linear applications comparator, sine wave generator, square wave generator, Triangular wave generator can be observed.
The other applications of Op-Amp can also be observed on this board.
Specifications:
Built in fixed DC supplies of 1V, 2V, 3V, +15V,-15V @250mA.
Variable regulated power supply of 0-5V @ 250mA.Four Op-Amps provided on board by using LM TL084 and a single Op-Amp using 741 IC.
Different values of capacitors and resistors, diodes to construct different circuits provided on board. One 10k? potentiometer is provided on board.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Set of 2mm patch cards and user manual is accompanied with this kit.
Half Adder & Full Adder (Model: IC-58)
Objectives:
To study and observe the half Adder and full adder.
Specifications:
Built in Power supply +5V @250mA.
This Circuit designed with Ex-Or, AND, OR gates with on board 6 no’s, of Logic Inputs and 6no’s of Logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Window Comparator using 741IC (Model: IC-38)
Objectives:
To study and observe the Window Comparator Using Op amp. .
Specifications:
Built in Power supply +15V,-15V @250mA.
This Circuit designed with two Operational amplifier using 741IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit .
Optional Item Required: .
Multimeter , Oscilloscope.
Wein bridge oscillator using Op-amp (Model: IC-20)
Objectives:
To construct a Wein bridge oscillator and to determine the resistor ratio required to develop the correct degenerative feedback. .
Specifications:
Built in fixed power supplies of +15V, -15V @250mA.
This unit consists of Op-amp circuit with Different values of resistors, capacitors and one 100k? potentiometer provided to vary different output frequencies.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this.
Optional items required:
Oscilloscope.
RC Phase shift Oscillator using 741 IC (Model: IC-23)
Objectives:
To study and calculate the Frequency Range of a RC Phase shift Oscillator.
Specifications:
Built in power supply +12V,-12v @ 250mA.
the circuit consist of Op amp 741IC with RC network input output coupling and three different phase shift circuits are provided on board.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit .
Optional items required:
Oscilloscope.
Twin T Wein Bridge oscillator using Op-amp (Model: IC-60)
Objectives:
To study and observe the Twin T Wein Bridge Oscillator.
Specifications:
Built in Power supply +12,-12V @250mA.
This Circuit designed with Twin T Circuits with help of Op –amp.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Oscilloscope.
Schmitt trigger using Op-amp 741 IC (Model: IC-33)
Objectives:
To study and observe the Schmitt Trigger Circuit using 741IC.
Specifications:
To study and observe the Schmitt Trigger Circuit using 741IC.
this Circuit designed with Operational amplifier using 741IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Signal Generator, Oscilloscope.
Voltage Follower using 741 IC (Model: IC-21)
Objectives:
To study and observe the Voltage Follower.
Specifications:
Built in power supply +12V,-12v @ 250mA.
the circuit consist of Op amp 741IC with RC network input output coupling.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Signal generator, Oscilloscope.
Comparator using 741 IC (Model: IC-22)
Objectives:
To study and observe the Comparator.
Specifications:
Built in power supply +12V,-12v @ 250mA.
The circuit consists of Op amp 741IC with RC network input output coupling.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit .
Optional items required:
Signal generator, Oscilloscope .
Integrator and Differentiator using 741 IC (Model: IC-24)
Objectives:
To study and calculate the Time /Frequency response of the Filters (Integrator /Differentiator).
Specifications:
Built in power supply +12V,-12v @ 250mA.
This Unit consist of two Op amp circuits using 741IC with RC network input output coupling.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional item required:
Signal generator, Oscilloscope.
Inverting and non inverting Amplifier using 741 IC (Model: IC-25)
Objectives:
To study and calculate the Frequency response of the Inverting and non inverting amplifier .
Specifications:
Built in power supply +12V,-12v @ 250mA.
The Trainer consists of Op amp circuit using 741IC with RC network input output coupling.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Signal generator, Oscilloscope.
Differential Amplifier using Op-amp (Model: IC-57)
Objectives:
To study and observe the Differential amplifier using Op amp .
Specifications:
Built in Power supply +12V,-12V, @250mA.
Two Dc sources 0-5V supplies .
This Circuit designed with Operational amplifiers using 741IC with inbuilt two inputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Digital multimeter .
Active filters applications using Op-amp (Model: IC-02)
Objectives:
TO study of Active filters using Op-amp .
Specifications:
Built in power supply +12V, -12V@250mA.
Two different filter circuits are designed i.e. like LPF and HPF with an Op-amp 741 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Optional items required:
Function generator , cathode ray oscilloscope .
Band pass filter (Model: IC-26)
Objectives:
To design the Band pass filter (wide band) .
To plot and observe the frequency response of band Pass filters.
Specifications:
Built in Power supply + 12V .-12V@250mA.
This unit consists of two types of filters that are LPF, HPF designed with Op amp 741Ic.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Signal generator, Oscilloscope.
Band Reject filter (Model: IC-27)
Objectives:
To design the Band Reject filter (wide band).
To plot and observe the frequency response of band reject filter.
Specifications:
Built in Power supply + 12V, -12V@250mA.
this unit consist of two type of filters that are LPF ,HPF designed with Op amp 741Ic.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Signal generator, Oscilloscope.
ACTIVE FILLTERS 2ND ORDER LPF /HPF USING OP-AMP (Model: IC-35)
Objectives:
To design the 1st Order and 2nd order Low pass filters.
To plot and observe the frequency response of Low Pass filters.
Specifications:
li>Built in Power supply + 12V .-12V@250mA. li> This unit consists of two types of filters that are LPF designed with Op amp 741Ic. li>The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines. li>All testing points are Provision with 2mm socket for proper connectivity. li>Sets of 2mm Patch cards and user manual is accompanied with this kit .
Optional items required:
Signal generator, Oscilloscope.
Function generator using Op-amp (Model: IC-03)
Objectives:
To generate the sine, square and triangle wave outputs by using an operational amplifier.
Specifications:
Built in fixed power supplies of +15V, -15V @ 250mA.
This trainer consist four sections to generate different signals like sine. Triangle, square waves TL084, 4052, 741ICs are used.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Dual Channel cathode Ray Oscilloscope.
Square wave Generator using Op-amp (Model: IC-39)
Objectives:
To study and observe the Square wave Generator Using Op amp.
Specifications:
Built in Power supply +1 2V,-12V @250mA.
This Circuit designed with Operational amplifier using 741IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Oscilloscope.
Triangular wave Generator using Op-amp (Model: IC-40)
Objectives:
To study and observe the Triangular e wave Generator Using Op amp.
Specifications:
Built in Power supply +1 2V,-12V @250mA.
this Circuit designed with Operational amplifier using 741IC Sets of 2mm.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Patch cards and user manual is accompanied with this kit .
Optional items required:
Oscilloscope..
Sine-cosine wave Generator using Op-amp (Model: IC-73)
Objectives:
To study and observe the Sine –Cosine wave Generator Using Op amp.
Specifications:
Built power supply +12V -12V @250mA.
This circuit designed with operational amplifier using 741 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Oscilloscope.
Astable Multivibrator using 741 IC (Model: IC-63)
b>Objectives:
To study and observe that Astable multivibrator..
Specifications:
With Built in fixed power supplies of +12V, -12V @ 250mA .
The Circuit designed IC 741 circuit for Astable Multivibrator.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Set of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Dual Channel cathode Ray Oscilloscope.
Bistable Multi vibrator Trainer using Op-amp (Model: IC-56)
b>Objectives:
To observe that Bistable multi vibrator.
Specifications:
Built in fixed power supplies of +12V, -12V @ 250mA.
On Board triggered input signal along with IC 741 circuit for bistable.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Set of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Dual Channel cathode Ray Oscilloscope.
4-Bit D/A Converter Using R-2R method (Model: IC-08)
Objectives:
To obtain analog output voltages for the digital input data using 4-Bit R-2R type D/A converter.
Specifications:
Built in fixed power supplies of +12V, +5V,-12V @ 250mA.
The circuit consists R-2R network to find analog output through buffer circuit using Op-amp.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Digital multimeter.
Seven Segment Decoder using 74 LS 47 IC (Model: IC-62)
Objectives:
To Verify the Seven Segment Detector.
Specifications:
Built in Power supply + 5V @250mA.
This Circuit Designed with Seven Segment Decoder with incorporated with 5 no’s of logic inputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Zero crossing Detector using Op-amp (Model: IC-61)
Objectives:
To Verify the Zero Crossing Detector using Op amp.
Specifications:
Built in Power supply +12V,-12V @250mA.
This Circuit Consist of AF Generator Frequency range of 1 KHz.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional items required:
Dual Channel cathode Ray Oscilloscope.
4-Bit decade counter (Model: IC-10)
Objectives:
To Study and Demonstrate the Decade Counter Using 74LS 90 IC.
Specifications:
Built in fixed power supplies of +5V @ 250mA.
The circuit consists of clock Generator, Pulser, 8 no’s of logic inputs, and 6 no’s of logic output.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
4-Bit Decade Counter with 7 segments Display (Model: IC-10A)
Objectives:
To study and Demonstrate the Decade counter using 74LS 90 IC.
Specifications:
Built in fixed power supplies of +5V @250mA.
The circuit consists of clock Generator, Pulsar, 5 no’s of logic output with seven segment Display.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Synchronous Counter (Model: IC-44)
Objectives:
To study and observe the synchronous counter Using JK Flip Flop.
Specifications:
Built in Power supply +1 2V,-12V @250mA.
this unit Consist of two clock Generators with frequency of each 1 Hz ,6 no’s of logic Indicator ,6 no’s ,of logic output LED displays Circuit.
designed with JK Flip Flops (74LS73) with help of NAND (74lS00)gates.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Asynchronous Up/Down Counter (Model: IC-45)
Objectives:
To verify operation of Asynchronous Counting for Up / Down. Specifications:.
Specifications:
Built in Power supply +1 2V,-12V @250mA.
this unit Consist of two clock Generators with frequency of each 1 Hz ,6 no’s of logic Indicator ,6 no’s ,of logic output LED displays Circuit designed with JK Flip Flops (74LS73) with help of NAND (74lS00)gates
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Up-down Counter using 74LS 192 IC (Model: IC-29
Objectives:
To study and Demonstrate Up /Down counter Using IC 74LS 192.
Specifications:
Built in Power supply + 5 @250mA.
This unit consist of two Clock generator Frequency of each 1Hz, pulser, 8no,s of Logic input and 8no,s of Logic outputs are provided on board.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
4 Bit Ripple counters using JKFFS (Model: IC-52)
Objectives:
4 Bit Ripple counters using JKFFS (Model: IC-52).
Specifications:
Built in power supply +5V @350mA.
this Circuit Consist of clock generator frequency 1Hz, Pulse generator, 6no’s of logic inputs, 6no’s of logic outputs Circuit designed with JK Flip flops using IC 74LS73.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Ring and Johnson Ring Counter using DFFS (Model: IC-53)
Objectives:
Ring and Johnson Ring Counter using DFFS (Model: IC-53).
Specifications:
Built in power supply +5V, @350mA.
This circuit Consist of clock generator frequency 1Hz, Pulse generator, 6no’s of logic inputs and 6no’s of logic outputs Circuit designed with D Flip flops using IC 74LS74.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Shift Registers (Model: IC-11)
Objectives:
To study and observe the shifting data in different modes.
To study Serial in-Serial out shift register and Serial in – Parallel out shift registers.
To study Parallel in- Serial out shift register and Parallel in- Parallel out shift register.
Specifications:
Built in +5V @200mA.
Trainer consist of clock generator, pulser, 6 no’s logic inputs and 6 no’s logic output shift register designed with 74ls 95 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Universal Register Using (Model: IC-68)
Objectives:
To study and verify the Universal Shift Register..
Specifications:
Built in power supply +5V @250mA, this circuit consists of two clock generator, pulse generator, with 8 nos logic inputs and output Designed with multiplexer and flip flops.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Flip Flop Trainer (Model: IC-09)
Objectives:
To study and Verifications of Flip Flop Functions.
Specifications:
Built-in fixed power supply +5v@200mA.
On board different Logic switches with toggle switches and LED’s (8no’s) Logic outputs having LED’s (6no’s) as indicators.
Clock generator with 1HZ fixed frequency using IC4069 and a pulser circuit with pulser switch and IC 74LS14. Flip-flops used in the kit are as follows RS, JK, T, D.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
JK Master Slave Flip flop using 74LS73 IC (Model: IC-30)
Objectives:
To study and Demonstrate JK Master Slave Flip Flop Using 74LS 73IC.
Specifications:
Built in Power supply + 5 @250mA.
this unit consist of two Clock generator Frequency of each 1Hz, pulse Generator , 8no,s of Logic input and 8no,s of Logic outputs are provided on board .
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
D Flip flop Trainer (Model: IC-31)
Objectives:
To study and Demonstrate D Flip Flop Using 74LS 74IC.
Specifications:
Built in Power supply + 5 @250mA.
this unit consist of two Clock generator Frequency of each 1Hz, pulse Generator , 8 no’s of Logic input and 8no,s of Logic outputs are provided on board.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Monostable multi vibrator using 555IC (Model: IC-04)
Objectives:
To study and observe the square wave generation using Mono stable multi vibrator.
Specifications:
Built in fixed power supplies of +12V @ 250mA.
These trainer consist triggering input Pulses and multi vibrator constructed with IC 555.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Dual Channel cathode Ray Oscilloscope.
Astable Multi vibrator using 555 IC (Model: IC-05)
Objectives:
Astable Multi vibrator using 555 IC (Model: IC-05) .
Specifications:
Built in fixed power supplies of +12V @ 250mA.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Dual Channel cathode Ray Oscilloscope.
555 Timer Trainer (Model: IC-18)
Objectives:
To study and observe the Timer circuit using 555IC in three modes of connection Astable, Monostable, Bistable Multivibrators.
Specifications:
Built in power supply +5V @250mA.
The circuit consists of 555 timer and Trigger pulse with RC components to construct three types of multi vibrators.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Schmitt trigger using 555 IC (Model: IC-19)
Objectives:
To construct Schmitt trigger using 555 Ic .
To observe that any increase in amplitude of input has an effect on the width of the output wave form.
Specifications:
Built in fixed power supplies of +12V, -12V @250mA.
555IC is used for Schmitt Trigger. Different values of resistors and capacitors are used to vary the output frequencies.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Optional Items required:
Oscilloscope..
Voltage controlled Oscillator using 566 (Model: IC-06)
Objectives:
To study and observe the Controlling voltage with respective of frequency Variation.
Specifications:
Built in fixed power supplies of +12V @ 250mA.
Oscillator consists of different RC Components to observe the various frequencies the circuit constructed with 566 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Dual Channel cathode Ray Oscilloscope.
Voltage Regulator Using 723 IC (Model: IC-07)
Objectives:
To study and observe the Regulation of 723 IC.
Specifications:
Built in variable power supplies of 0 to 40V @ 250mA.
The circuit consists of 723 IC with controlled circuit of power transistor 2N3055 also on board load control.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Digital multimeter.
3:8 Decoder using 74LS 138 IC (Model: IC-12)
Objectives:
To verify the operation of 3 to 8 decoder using IC 74LS138.
Specifications:
Built in power supply of +5V @200mA.
The circuit consist of 8 no’s of logic inputs and 8 no’s of logic outputs the decoder designed with 74LS 138 high sped decoder.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
4 Bit Digital comparator (Model: IC-13)
Objectives:
To study the operation of 4-bit Magnitude comparator.
Specifications:
Built in power supply of +5V @200mA.
Built in fixed power supply of +5V @ 250mA.
The circuit Consists of two different inputs with cascading and LED.
output observation .
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
8:1 Multiplexer and 2:4 Demultiplexer (Model: IC-14)
Objectives:
To study the operation of Multiplexing and Demultiplexing.
Specifications:
Built in fixed power supply of +5V @ 250mA.
The circuit consists of two section one for multiplexing another for Demultiplexing the data using 74LS 151, 74LS 155, on board 12 no’s of logic inputs, 8 no’s of logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
16X4 RAM using 74189 (Model: IC-15)
Objectives:
To perform Read/Write operations with the RAM.
Specifications:
Built in power supply +5V @250mA, the circuit consists of 12 no’s logic inputs and four numbers of data outputs the circuits designed with 74LS 189 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
8 Bit D/A Converter using DAC 0808 (Model: IC-16)
Objectives:
To Demonstrate and convert the data Digital to Analog using DAC 0808.
Specifications:
Built in power supply -5V,+5V, +12V @250mA.
the unit consist of 8 no’s logic input and buffer circuits with op-amp 741 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
8 Bit A/D converter using ADC 0808 IC (Model: IC-28)
Objectives:
To study and calculate data converted analog signal to Digital.
Specifications:
Built in Power supply + 5 @250mA.
This unit consist of Clock generator Frequency at the of 1 MHz with amplitude variation the circuit designed with ADC Convertor using 0808IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Transfer Characteristics [TTL & CMOS] (Model: IC-46)
Objectives:
To verify operation of Transfer Function of TTL and CMOS Gates.
Specifications:
Built in Power supply +5V @250mA.
this unit Consist of two DC Voltage 3-5V Variable ,on board TTL and CMOS Invertors gates are provide using 74LS 04,74LS 14,CD 4069,40106 ,4069.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Code conversion [BD] (Model: IC-47)
Specifications:
To verify operation of Code conversion Binary to Gray, Gray to Binary.
Specifications:
Built in Power supply +5V @250mA.
This unit Consist of t Code Conversion circuits like Binary to Gray, Gray to Binary by using Ex-OR Gates with on board logic input.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Log and Antilog Amplifier (Model: IC-49)
Objectives:
To study and observe the Log and Antilog amplifier.
Specifications:
Built in Power supply +12V,-12V, @250mA.
This Circuit designed with Operational amplifier using 741IC and Inverted circuit for antilog output using Transistor 2219.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Signal Generator, Oscilloscope.
Tschebyscheff Filter [LPF & HPF] (Model: IC-50)
Objectives:
To study and observe Tschebyscheff Filter.
Specifications:
Built in power supply +12V, -12V @250mA.
This circuit designed with dual operational amplifier using TL081 IC different circuits for LPF and HPF Filters.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Optional Items required:
Signal Generator, Oscilloscope.
Peak Detector (Model: IC-51)
Objectives:
To study and observe the Peak Detector.
Specifications:
Built in Power supply +12V,-12V, @250mA this Circuit designed with Operational amplifier using 741IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Signal Generator, Oscilloscope.
V to I and I to V Converter (Model: IC-54)
Objectives:
To study and observe the V to I and I to V Converter.
Specifications:
Built in power supply +12V, -12V @350mA, 0-5V Variable @350mA.
This circuit consists of two Op-amp circuits for V to I and I to V Converter.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm patch cards and user manual is accompanied with this kit.
Arithmetic logic unit ALU using 74LS181 IC (Model: IC-55)
Objectives:
To Verify the 4 Bit Arithmetic Logic Unit.
Specifications:
Built in power supply +5V @350mA.
this Circuit designed with ALU 74LS181 with on board 10no’s of logic inputs, 8no’s of logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm patch cards and user manual is accompanied with this kit.
Universal Gates trainer [NAND, NOR] (Model: IC-64)
Objectives:
To study and observe the V to I and I to V Converter.
Specifications:
With Built in fixed power supplies of + 5V @ 250mA.
this unit designed with Universal Gates NAND, NOR, EX-OR (74LS00, 74LS 02,74LS86 IC) on board 8 no’s of inputs, 6nos, of outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Set of 2mm Patch cards and user manual is accompanied with this kit.
Digital IC Trainer (Model: IC-65)
Objectives:
To study and Verify the Different type of Gates/ /Flip-Flops/ Shift Register/ Decade counters/Seven segment decoder.
Specifications:
With Built in fixed power supplies of + 5V @ 500mA.
This unit consist of all types of gates /Shift Registers /JK Flip-flop /RS –FF/D-FF/T-FF/Decade Counter/3:8 decader /Seven segment Decoder with on board clock generator ,Pulse generator with 1Hz frequency and 8 no’s of Logic inputs/10 no’s .of logic outputs with LED display. All components & Ics are mounted on panel Glass Epoxy PCB is used with red Masking Pcb size is 330mmX270mm.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines
All testing points are Provision with 2mm socket for proper connectivity
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Digital IC Trainer (Model: IC-65A)
Objectives:
To study and Verify the Different type of Gates/ /Flip-Flops/ Shift Register/ Decade counters/Seven segment decoder.
Specifications:
With Built in fixed power supplies of + 5V @ 500mA This unit consist of all types of gates /shift Register /JK Flip-flop /RS –FF/D-FF/T-FF/Decade /3:8 decade counter /asynchronous counter /synchronous counter /Multiplexer and Demultiplexer / 4 bit Digital Comparator /Seven segment Decoder with on board clock generator, Pulse generator with 1Hz frequency and12 no’s of Logic inputs/ 8 no’s .of logic outputs with LED display. All components & Ics are mounted on panel Glass Epoxy PCB is used with red Masking Pcb size is 330x270mm
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Digital IC Trainer (Model: IC-89)
Objectives:
To study and Verify the Different types ,of Digital Ics Logic gates /Flip-Flops/ Shift Register/ Decade counters/Seven segment decoders any kind of digital Circuits Inserting Ics up to extended IC Pin configuration 1-16 Pins using this trainer.
Specifications:
This Trainer Built in fixed power supplies of + 5V @ 300mA ,+12V,-12V @300mA .This unit consist of four nos. of Zip sockets with 16 PIN ,fixed Clocks with frequency 1Hz, 10Hz,100Hz,1Khz ,Manual Pulses both Positive and Negative ,Seven Segment Decoders ,12 nos, of Logic inputs and 12 nos, of output LED Displays and built with Bread board.
All components & Ics are mounted on panel Glass Epoxy PCB is used with red Masking Pcb size is 330mmX 270mm.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Latching circuits (NAND, NOR) (Model: IC-32)
Objectives:
To study and Demonstrate Latching Circuit using NAND, NOR GATES.
Specifications:
Built in Power supply + 5 @250mA this unit consist of , 8 no’s of Logic input and 8no,s of Logic outputs are provided on board the circuit designed with universal gate NAND,NOR using 74LS00,74LS 02IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Voltage level Shifter and Current Mirror trainer (Model: IC-67)
Objectives:
To Study and Verify Voltage Level and Current Mirror Circuit.
Specifications:
Built in Power supply +12V @250mA, DC 0 to 20V Variable input Reference voltage and circuit is designed with Op amp with transistor controlled.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Signal generator, Oscillator.
8:1 Multiplexer and 1:8 Demultiplexer (Model: IC-14A)
Objectives:
To study the operation of Multiplexing and Demultiplexing.
Specifications:
Built in fixed power supply of +5V @ 250mA.
The circuit consists of two section one for multiplexing another for Demultiplexing the data using 74LS 151, 74LS 155, on board 15 no’s of logic inputs, 8 no’s of logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm patch cards and user manual is accompanied with this kit.
RAM using 74189 (Model: IC-15(1))
Objectives:
To perform read operations with the RAM.
Specifications:
Built in power supply +5V @250mA, the circuit consists of 10 no’s logic inputs and 6 nos. outputs with Seven segment display 74LS 47 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
8 bit series and parallel Shift Registers (Model: IC-34)
Objectives:
To study and observe the shifting data in different modes.
To study Serial in-Serial out shift register and Serial in – Parallel out shift registers
To study Parallel in- Serial out shift register and Parallel in- Parallel out shift register.
Specifications:
Built in +5V @200mA.
Trainer consist of clock generator, pulser, 12 no’s logic inputs and 10 no’s logic output shift register designed with 74ls 95 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm patch cards and user manual is accompanied with this kit.
8 bit Parallel load /Serial Out Shift Registers (Model: IC-34A)
Objectives:
To study and observe the shifting data in different modes.
To study Serial in-Serial out shift register and Serial in – Parallel out shift registers.
To study Parallel in- Serial out shift register and Parallel in- Parallel out shift register.
Specifications:
Built in +5V @200mA.
Trainer consist of clock generator, pulser, 12 no’s logic inputs and 10 no’s logic output shift register designed with 74ls 95 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
Sets of 2mm patch cards and user manual is accompanied with this kit.
4 Digit Hex Counter using Synchronous one digit hex Counter (Model: IC-36)
Objectives:
To study and observe the synchronous counter Using JK Flip Flop.
Specifications:
Built in Power supply +1 2V,-12V @250mA.
This unit Consist of clock Generators /Pulser with 16 no’s of logic Indicator ,Seven segment output displays.
designed with JK Flip Flops (74LS73) with help of NAND (74lS00)gates.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
4 Digit Hex Counter using Asynchronous one digit hex Counter (Model: IC-36A)
Objectives:
To study and observe the Asynchronous counter Using JK Flip Flop.
Specifications:
Built in Power supply +1 2V,-12V @250mA.
this unit Consist of clock Generators /Pulser with 16 no’s of logic Indicator ,Seven segment output displays.
designed with JK Flip Flops (74LS73) with help of NAND (74lS00)gates .
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Sine Wave Generator using Op-amp (Model: IC-37)
Objectives:
To construct a Wein bridge oscillator and to determine the resistor ratio required to develop the correct degenerative feedback.
Specifications:
Built in fixed power supplies of +15V, -15V @250mA.
This unit consists of Op-amp circuit with Different values of resistors, capacitors and one 100k? potentiometer provided to vary different output frequencies.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Optional Items required:
Oscilloscope. .
16x1 Multiplexer and 8x1 Multiplexer (Model: IC-41)
Objectives:
To study the operation of Multiplexing and Demultiplexing.
Specifications:
Built in fixed power supply of +5V @ 250mA.
The circuit consists of two section one for multiplexing the data using 74LS 151 on board 20 no’s of logic inputs, 2 no’s of logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm patch cards and user manual is accompanied with this kit.
16 Bit Comparator using 4 Bit comparator (Model: IC-42)
Objectives:
To study the operation of 4-bit Magnitude comparator.
Specifications:
Built in fixed power supply of +5V @ 250mA.
The circuit Consists of 32 logics inputs and 3 logic output .
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
53 Mod counter using two decade counter with Binary out puts (Model: IC-43)
Objectives:
To Study and Demonstrate the Decade Counter Using 74LS 90 IC
Specifications:
Built in fixed power supplies of +5V @ 250mA.
The circuit consists of clock Generator, 4 no’s of logic inputs, and 14no’s of logic output.or & segment
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines
All testing points are Provision with 2mm socket for proper connectivity
Sets of 2mm Patch cards and user manual is accompanied with this kit.
53 Mod counter using two decade counter with 7 segment display ) (Model: IC-43A)
Objectives:
To Study and Demonstrate the Decade Counter Using 74LS 90 IC
Specifications:
Built in fixed power supplies of +5V @ 250mA.
The circuit consists of clock Generator, 4 no’s of logic inputs, and two no’s of seven segment decoders output.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Full Adder using decoder (Model: IC-58A)
Objectives:
To study and observe the Full Adder using decoder
Specifications:
Built in fixed power supplies of +5V @ 250mA.
This Circuit designed with Ex-OR gates and decoder using 74LS138 on board 6 no’s, of Logic Inputs and 8 no’s of Logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Half Adder and Full Adder (Model: IC-58)
Objectives:
To study and observe the half and Full sub tractor .
Specifications:
Built in fixed power supplies of +5V @ 250mA.
This Circuit designed with Ex-OR,AND,NOT gates and decoder using 74LS138 on board 6 no’s, of Logic Inputs and 6 no’s of Logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
8 Bit ADC/DAC Converter using 0808IC (Model: IC-66)
Objectives:
To Demonstrate and convert the data Digital to Analog using 0808 IC.
Specifications:
Built in power supply -5V,+5V, +12V @250mA.
the unit consist of two different Convertor of ADC and DAC.
This unit consist of Clock generator Frequency at the of 1 MHz with amplitude variation the circuit designed with ADC Convertor using 0808IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm patch cards and user manual is accompanied with this kit.
DIGITAL COUNTERS (Model: IC-69)
Objectives:
To Demonstrate and convert the data Digital to Analog using 0808 IC.
Specifications:
Built in Power supply +5V @250mA.
this unit Consist of two clock Generators /Pulser with 8 no’s of logic Indicator ,And 8 nos of logic output LED displays and 7 segment display designed with JK Flip Flops (74LS73) with help of NAND (74lS00)gates .
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm Patch cards and user manual is accompanied with this kit.
ENCODER (Model: IC-70)
Objectives:
To study and observe the ENCODER.
Specifications:
Built in Power supply +5V @250mA.
The circuit Design with IC 74LS 148 unit Consist of 10 no’s of logic inputs Indicator.
And 6 nos of logic output LED displays.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
ENCODER AND DECODER (Model: IC-70A )
Objectives:
To study and observe the ENCODER AND DECODER.
Specifications:
Built in Power supply +5V @250mA.
The circuit Design with IC 74LS 148 ,74LS 138 unit Consist of 12 no’s of logic inputs Indicator and 10 nos of logic output LED displays.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
8 bit Right Shift Register (Model:IC-71)
b>Objectives:
To study and observe the Right shifting .
Specifications:
Built in +5V @200mA.
Trainer consist of clock generator, pulser, 4 no’s logic inputs and 8 no’s logic output with 74ls74 IC. D filp flop circuit.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
MOD 6 Counter Using D –Flip Flop (Model: IC-72)
Objectives:
To study and observe the MOD 6 Counter .
Specifications:
Built in +5V @200mA.
Trainer consist of clock generator, pulser, 6 no’s logic inputs and 4 no’s logic output with 74ls74 IC. D filp flop circuit.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
4 Bit Complementary Generator Using 74 LS 86 Model -IC-74
Objectives:
To study and observe the 4 bit Complementary Generator .
Specifications:
Built in +5V @200mA.
Trainer consist of 6 no’s logic inputs and 6 no’s logic output Complementry Generator circuir designd bt 74 LS 86 EX-R gate s.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity .
Sets of 2mm patch cards and user manual is accompanied with this kit.
Operational amplifier Trainer with Digital meter (Model: IC-75)
Objectives:
Op-Amp characteristics i.e., Input offset voltage, slew rate, common mode rejection ratio (CMRR), Band width, Input bias current can be observed.
Op-Amp linear applications i.e., voltage follower, Inverting amplifier, Non-inverting amplifier, variable voltage gain amplifier, Adder, subs tractor, Differential amplifier, Integrator, Differentiator can be observed.
Op-Amp Non linear applications comparator, sine wave generator, square wave generator, Triangular wave generator can be observed.
The other applications of Op-Amp can also be observed on this board.
Specifications:
Built in fixed DC supplies of +15V,-15V @250mA.
Variable regulated power supply of 0-3V @ 250mA. 2nos , Op-Amps provided on board single Op-Amp using 741 IC.
Different values of capacitors and resistors, diodes to construct different circuits provided on board. One 10k? potentiometer is provided on board.
The Circ The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
Monostable Multimeter Using Op-Amp - Model -IC-76
Objectives:
To study and observe the Monostable multiviberator.
Specifications:
Built in Power supply +12 V,-12 V @200mA.
Trainer consist of Square wave generator and circuit designed with op-amp.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm patch cards and user manual is accompanied with this kit.
F.M Using Ic 566 (Model: IC-77)
Objectives:
To study and observe the FM.
Specifications:
Built in fixed power supplies of +12V @ 250mA.
Oscillator consists of different RC Components to observe the various frequencies the circuit constructed with 566 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function Generator ,Dual Trace Oscilloscope.
Precision Rectifier Using Op amp (Model: IC-78)
Objectives:
To study and observe the output Precision Rectifier .
Specifications:
Built in fixed power supplies of +12V,-12V @ 250mA and 6V-0-6V ac.
Circuit designed wit two Op amp to observe half wave , full wave .
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function Generator ,Dual Trace Oscilloscope.
TONE DETECTOR (MODEL: IC-79)
Objectives:
To Identify different Tones .
Specifications:
Built in fixed power supplies of 5V @ 250mA.
circuit designed LM 567 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function Generator /,Dual Trace Oscilloscope.
Adder and Subtractor Model: IC-80)
Objectives:
To study and observe the Adder and Subtractor.
Specifications:
Built in Power supply +5V @250mA.
This Circuit designed with Ex-OR ,OR ,AND ,NOT gates.
on board 4 no’s, of Logic Inputs and 4 no’s of Logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Audio Power amplifier Model : IC-81)
Objectives:
To study and observe the Audio Power Amplifier .
Specifications:
Built in Power supply +12V @250mA.
This Circuit designed with LM 380 IC .built with Low impedance Speaker.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function generator.
VOLTAGE LIMITER (MODEL : IC-82)
Objectives:
To study and observe the Voltage Limiter .
Specifications:
Built in Power supply +12V,-12V @250mA.
This Circuit designed with Op amp 741 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function generator/Oscilloscope .
16x4 Priority Encoder using 8x3 Encoder (MODEL : IC-83)
Objectives:
To study and observe the output of Priority encoder.
Specifications:
Built in Power supply +5V @250mA.
This Circuit designed with 8x 3 Encoder 74LS 148 IC.
Consist of 16 logic input and 4 Logic outputs
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
450 KHz Clock Generator Using NAND/NOR GATE(MODEL:IC-84)
Objectives:
To study and observe the Clock generator .
Specifications:
Built in Power supply +5V @250mA.
This Circuit designed with NAND And NOR gate.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function generator/Oscilloscope.
Transfer Characteristic (74 LS/HC/H)MODEL : IC-85)
Objectives:
To study and observe the output of transfer Characteristic.
Specifications:
Built in Power supply +5V @250mA.
This Circuit Consist clock generator and DC source 0-5V.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Bit Adder/Subtractor using 4bit Adder /Subtractor MODEL IC-86
Objectives:
To study and observe the 16 bit adder and Subtractor.
Specifications:
Built in Power supply +5V @250mA.
This Circuit Consist 33 ons logic inputs and 17 nos of outputs status.
Circuit Designed with 74 LS83 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Comparator Analog /Digital (MODEL : IC-87)
Objectives:
To study and observe the both analog and Digital Comparators .
Specifications:
Built in Power supply +12V,-12V,+5V @250mA.
This Circuit Designed analog comparator with Op amp.
And 74 LS 85 Circuit for Digital comparator.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function generator/Oscilloscope .
bit Binary to Gray and Gray to Binary (MODEL : IC-88)
Objectives:
To study and observe the B to G and G to B Code Conversion.
Specifications:
Built in Power supply +5V @250mA.
This Circuit Consists of 5 logic inputs and 5 logic outputs.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Comparator Using LM 339 (MODEL : IC-90)
Objectives:
To study and observe the comparator.
Specifications:
Built in Power supply +5V @250mA.
This Circuit Designed with LM 339 Op-amp.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function generator/Oscilloscope.
Bit Adder/Subtractor --- MODEL IC-91
Objectives:
To study and observe the 4 bit adder and Subtractor.
Specifications:
Built in Power supply +5V @250mA.
This Circuit Consist of 10 logic inputs and 6 nos of outputs status.
Circuit Designed with 74 LS83 IC
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function generator/Oscilloscope.
FREQUENCY DOUBLER MODEL IC-92
Objectives:
To study and observe the Frequency Doubler .
Specifications:
Built in Power supply +5V @250mA.
Circuit Designed with LM 567.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Function generator/Oscilloscope .
8X1 USING 2X1 MULTIFLEXER MODEL IC-93
Specifications:
To study and observe the 8x1 Multiflexer .
Specifications:
Built in Power supply +5V @250mA.
This Circuit Consist of 11 logic inputs and 7 no,s of outputs status.
Circuit Designed with 2x1 multiflexrs using 74 LS158 IC.
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
D/A Convertor Using Binary Weighted Resistor MODEL IC-94
Objectives:
To study and observe the D/A binary weighted resistors .
Specifications:
Built in Power supply +5V ,+12v,-12v @250mA.
This Circuit Consist of 5 Binary inputs .
Circuit Designed with Op amp .
The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .
All testing points are Provision with 2mm socket for proper connectivity.
Sets of 2mm Patch cards and user manual is accompanied with this kit.
Optional Items required:
Digital Multimeter.