Advanced Digital Electronics Kit
Advanced Digital Electronics Kit - Robocraze
Advanced Digital Electronics Kit - Robocraze
Advanced Digital Electronics Kit
Advanced Digital Electronics Kit - Robocraze
Advanced Digital Electronics Kit - Robocraze
  • Advanced Digital Electronics Kit
  • Advanced Digital Electronics Kit - Robocraze
  • Advanced Digital Electronics Kit - Robocraze
  • Advanced Digital Electronics Kit
  • Advanced Digital Electronics Kit - Robocraze
  • Advanced Digital Electronics Kit - Robocraze

Advanced Digital Electronics Kit

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Rs. 1,259
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Rs. 1,259
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  • The Advanced Digital Electronics Kit has been designed to give students and enthusiaists an advanced experience and understanding of the world of digital electronics.
  • This kit consists of logic gate ICs, LEDs, buttons and other ICs such as flip flops and shift registers to allow you to build various circuits and understand their working.
  • This will help you learn the higher level concepts of combinational circuits to build circuits such as BCD decoder drivers, serial to parallel data converters, binary counters, binary multipliers, etc.
  • Along with the components, an Advanced Digital Electronics Manual is also included to guide you through the concepts and the various experiments possible using the included components.

Related Tags
Age 10+
DIY Kits
Electronic Kits

Robocraze has curated the Advanced Digital Electronics Kit for those enthusiasts and students who are well versed with the concepts of boolean algebra and can understand the world of 0's and 1's. This advanced kit will dwell deeper into the domain of digital electronics with flip flops, shift registers, counters, 7 segments, multipliers and more. Along with the kit you will also get a Manual designed for Advanced Digital Electronics kit to guide you and challenge you with experiements. 

Note: The package dimensions are 22x15cms and weghs about 50 grams.

Package Includes:

LED Red 6
LED Blue 6
LED Green 6
Bread Board - Full Size  1
Buzzer 1
7400 Quad 2 input NAND gates 2
7402 Quad 2 input NOR gates 2
7404 Hex NOT gates (Inverters) 2
7408 Quad 2 input AND gates 1
7420 IC – 4-input NAND gate 1
7432 Quad 2 input OR gates 1
7486 Quad 2 input XOR gates 1
747266 Quad 2 input XNOR gates 1
M2M Jumpers 1
9V Battery 1
7 segment display - Common Cathode 1
IC7447 - BCD to 7 segment 1
D flipflop - IC7474 2
JK Flip flop - IC7476 2
SN54/74LS95B shift register 2
Breadboard Power Supply 1
battery Snap with DC jack  1
Micro push button 8
750 ohm resistor 8
1K resistor 4
10K resistors 8
Multimeter (DT830D) 1
220 ohm resistor 20

 

Applications of this kit 

The Advanced Digital Electronics kit can be used to build various combinational circuits such as BCD decoder drivers, serial to parallel data converters, binary counters, binary multipliers, etc.

 

Sample Experiment

Building a Binary Counter using J-K Flip Flop

 

Material Required:

  1. Breadboard Power Supply
  2. 9V Battery
  3. DC Barrel Jack
  4. Breadboard
  5. JK Flip flop - IC7476
  6. Jumper Wires

 

Procedure:

A binary counter can be constructed from J-K flip-flops by taking the output of one cell to the clock input of the next. The J and K inputs of each flip-flop are set to 1 to produce a toggle at each cycle of the clock input. For every two toggles of the first cell, a toggle is produced in the second cell, and so on down to the fourth cell. This produces a binary number equal to the number of cycles of the input clock signal. This device is sometimes called a "ripple through" counter. The same device is useful as a frequency divider.

In the 3-bit ripple counter, three flip-flops are used in the circuit. As here ‘n’ value is three, the counter can count up to 23 = 8 values .i.e. 000,001,010,011,100,101,110,111. The circuit diagram and timing diagram are given below.

 

Circuit Diagram:

Timing Diagram:

The output waveform of Q1 is given as a clock pulse to the flip flop J2K2. So, when Q1 goes from 1 to 0 transitions, the state of Q2 is changed. The output of Q2 is the MSB.

 

INPUT

OUTPUT

Number of Pulses

Q2

Q1

Q0

0

-

-

-

1

0

0

0

2

0

0

1

3

0

1

0

4

0

1

1

5

1

0

0

6

1

0

1

7

1

1

0

8

1

1

1

 

This circuit can be further connected to the BCD to 7 segment IC to get the BCD output onto the 7 segment display.