DIGITAL IC DESIGN KIT: DIC-1
Application: This digital trainer is designed to conduct experiments on Digital ICs, to construct student projects or small systems using digital ICs with active and passive components.
Application: This digital trainer is designed to conduct experiments on Digital ICs, to construct student projects or small systems using digital ICs with active and passive components.
Like any other trainer, this unit also provides the basic facilities to conduct experiments such as power supply, logic input signals, display/indicators for verifying output results. An experimental problem board is also provided comprising IC sockets and solderless breadboards.
This trainer is completely self-contained, the digital ICs are plugged in to breadboard or IC sockets on the sloping panel of trainer. The input signals are fed into the ICs and the results are verified using LED lamp monitors or seven-segment display.
2. List of Experiments
SYSTEM DESCRIPTION
- LOGIC SWITCHES
- EXPERIMENTAL PROBLEM BOARD
a). IC sockets
b). Solderless Breadboard - 7 SEGMENT LED DISPLY
- LAMP MONITORS
- CLOCK GENERATOR
- MONOPULSER
- POWER SUPPLY
- GENERAL
Ground and VCC point are available at different locations of the board for easy tapping of power supply.
DIGITAL ELECTRONICS LAB MANUAL
1. List of Experiments
1. List of Experiments
Familiarization of IC trainer kit and logic gates
Realisation of logic gates using universal NAND & NOR
Realisation of logic circuits using basic gates
Realisation of arithmetic circuits
Flip flop circuits using gates
Shift registers and counters
Asynchronous and synchronous counters
Waveform generation using shift registers
Sequence generator
BCD to 7 segment and BCD to decimal decoder
Multiplexers and Demultiplexers
Timer circuits
Study of RAM and ROM
2. List of Experiments
Study of logic gates.
Design and implementation of adder and subtractor using logic gates.
Design and implementation of code converter using logic gates.
Design and implementation of 4-bit binary adder/subtractor and BCD adder using IC 7483.
Design and implementation of 2-bit magnitude comparator using logic gates, 8-bit magnitude comparator using IC 7485.
Design and implementation of 16-bit odd/even parity checker/ generator using IC 74180.
Design and implementation of multiplexer and demultiplexer using logic gates and study of IC 74150 and IC 74154.
Design and implementation of encoder and decoder using logic gates and study of IC 7445 and IC 74147.
Construction and verification of 4-bit ripple counter and Mod-10/Mod-12 ripple counter.
Design and implementation of 3-bit synchronous up/down counter.
Implementation of SISO, SIPO, PISO and PIPO shift registers using flip-flops.