design and implement a 3 bit binary to excess 3 code converter using cmos transistors
design and implement a 3 bit binary to excess 3 code converter using cmos transistors
Design and implement a 4 bit- binary to gray code converter using CMOS transistors. (30 Marks) (Note: Students are expected to design the circuit with truth table, solve the output expression (by use of K Map or suitable circuit Reduction technique) and implement using CMOS transistors.)
Question: Design and implement a 3 bit binary to excess 3 code converter using CMOS transistors(input three bit, output four bits). Draw the mask layout with Ln = Lp=0.6 um, Wn=4.8 um and Wp= 8.4 um using 0.6 um technology. Also simulate the design using microwind tool and verify the outputs. [Each student in the group should work on each subparts of the question] We were unable to transcribe this image
Design and implement a 4 bit- gray to binary code converter using CMOS transistors. (Note: Students are expected to design the circuit with truth table, solve the output expression (by use of K Map or suitable circuit Reduction technique) and implement using CMOS transistors.)
Implement the cmos design for 4 bit grey code to 4 bit binary converter using Verilog (NOTE that you should produce a switch level Verilog implementation using pmos and nmos transistors)
1. a. Design and implement a 2 bit comparator circuit using CMOS transistors(Greater than,less than, equal to or reverse). b. Draw the mask layout with Ln = Lp= 0.6 μm, Wn= 4.8 μm and Wp= 7.8 μm using 0.6 μm technology. Also simulate the design using microwind tool and verify the outputs.
1. a. Design and implement a 2 bit comparator circuit using CMOS transistors(Greater than,less than, equal to or reverse). b. Draw the mask layout with Ln = Lp= 0.6 μm, Wn= 4.8 μm and Wp= 7.8 μm using 0.6 μm technology. Also simulate the design using microwind tool and verify the outputs.
Logic Design Course assignment: Construct the truth table for 3 bit binary-to-Gray code converter. Use K-map for simplification and draw the circuit for Binary-to-Gray code Converter using AND, OR and Not gates in logisim Simulator.
1. Design and implement a 4 to 1 multiplexer circuit using CMOS transistors. (30 Marks) (Note: Students are expected to design the circuit with truth table, solve the output expression by use of K Map or suitable circuit Reduction technique and implement using CMOS transistors.)
1. Design and implement a full subtractor circuit using CMOS transistors. (30 Marks) (Note: Students are expected to design the circuit with truth table, solve the output expression (by use of K Map or suitable circuit Reduction technique) and implement using CMOS transistors.) p.s: simplify the k map equation (with minimum expressions) then draw the cmos transistors.
Design and implement the following circuit with four inputs and four outputs using CMOS transistors. The first output is high when the binary value of the input is less than or equal to7 Draw the mask layout with Ln = Lp= 0.6 μm, Wn= 4.8 μm and Wp= 8.4 μm using 0.6 μm technology. Also simulate the design using microwind tool and verify the outputs.