Find Jobs
Hire Freelancers

Digital class

$10-30 USD

Terminado
Publicado hace alrededor de 8 años

$10-30 USD

Pagado a la entrega
Provide detailed answers to the following: • Show the bit configuration that represents the decimal number 255 in (a) Binary, (b) Binary Coded Decimal (BCD), (c) ASCII, (d) ASCII with odd parity. • A 2-bit comparator compares two 2-bit words, A and B, and assets outputs indicating whether the decimal equivalent of word A is less than, greater than or equal to that of word B. K-map method can be used to derive the minimized equations to describe the behavior of the comparator and Verilog module can be written to test the working of the comparator. Complete the following: o Derive minimized equations for the comparator outputs - A less than B, A equal to B, and A greater than B. Draw logic diagram. o Write and test the Verilog Module for this comparator. Provide detailed answers to the following: 1. How will you use a 3x8 decoder to build a 4x16 decoder? Draw a schematic diagram and explain your solution. 2. How will you use a 4x1 multiplexer to build a 16x1 multiplexer? Draw a schematic diagram and explain your solution. 3. Implement the following Boolean function with a multiplexer: (a) F(A, B, C, D) = ∑(0, 2, 5, 8, 10, 14) (b) F(A, B, C, D) = Π(2, 6, 11) Provide detailed answers to the following: 1. Design a combinational circuit with three inputs, x, y, and z, and three outputs, A, B, and C. When the binary input is 0, 1, 2, or 3, the binary output is one greater than the input. When the binary input is 4, 5, 6, or 7, the binary output is two less than the input. Your solution must include the following: (a) Truth table (b) K-map minimization (c) Simplified equation and logic diagram (d) Simulation using Verilog of the logic circuit in step (c). 2. A majority circuit is a combinational circuit whose output is equal to 1 if the input variables have more 1’s than 0’s. The output is 0 otherwise. (a) Design a 3-input majority circuit by finding the circuit’s truth table, Boolean equation, and a logic diagram. (b) Write and verify a Verilog gate-level model of the circuit. 3. Implement a full adder with two 4x1 multiplexers.
ID del proyecto: 9429854

Información sobre el proyecto

2 propuestas
Proyecto remoto
Activo hace 8 años

¿Buscas ganar dinero?

Beneficios de presentar ofertas en Freelancer

Fija tu plazo y presupuesto
Cobra por tu trabajo
Describe tu propuesta
Es gratis registrarse y presentar ofertas en los trabajos
Adjudicado a:
Avatar del usuario
Hi, I can give you all the solutions within 2 hours. Hope to work with you in future. Thanks
$30 USD en 1 día
0,0 (0 comentarios)
0,0
0,0
Avatar del usuario
I am an Electrical Engineer having specialization in Electronics and Control, teaching in Electrical Department at FAST National University Pakistan. I am also persuing my MS degree in Electrical Engineering with specialization in CONTROL. I have taught the followings courses, and also done many projects related to these subjects as well as related to consumer electronics products. 1. Control System Design & Modelling (Continuous, Discrete, Linear, Non-Linear, Optimal, Fuzzy Logic + Matlab & Simulink) 2. Digital Logic Design (Verilog, VHDL, Logisim) 3. Digital System Design (Verilog, VHDL, Logisim) 4. Controllers (8086 processor, 8051 Family, Arduino, PIC Family) 5. Power Electronics (PSIM, MATLAB, Orcad, PSpice) 6. Control of Electric Machine Drives 7. Circuit Analysis and Designe + Many Others 8. PCB Design (Proteous AREAS + Ultiboard + Altium Designerm + Diptrace) I assure you, if you assign your project to me, you surely gonna work with me in future.
$50 USD en 1 día
5,0 (22 comentarios)
5,1
5,1

Sobre este cliente

Bandera de UNITED STATES
Atlanta, United States
4,9
6
Forma de pago verificada
Miembro desde may 30, 2015

Verificación del cliente

¡Gracias! Te hemos enviado un enlace para reclamar tu crédito gratuito.
Algo salió mal al enviar tu correo electrónico. Por favor, intenta de nuevo.
Usuarios registrados Total de empleos publicados
Freelancer ® is a registered Trademark of Freelancer Technology Pty Limited (ACN 142 189 759)
Copyright © 2024 Freelancer Technology Pty Limited (ACN 142 189 759)
Cargando visualización previa
Permiso concedido para Geolocalización.
Tu sesión de acceso ha expirado y has sido desconectado. Por favor, inica sesión nuevamente.