Truth Table Wire up the following 2-bit adder circuit shown in Figure 2. Connect the inputs...
Design a 2-bit full adder. this circuit would have 5 inputs, two for the number A = (a1,a0), two for the number B = (b1,b0), and one for the carry-in Cin. It would also have three ouputs, two for the sum bit S = (s1,s0) and one for the carry out Cout.
Design a 2-bit full adder. this circuit would have 5 inputs, two for the number A = (a1,a0), two for the number B = (b1,b0), and one for the carry-in Cin. It would also have three outputs, two for the sum bit S = (s1,s0) and one for the carry out Cout.
3.4.1 Build and simulate the comparator circuit shown in Figure 3, in Multisim. The inputs A3, A2, A1, 40 act as the first 4-bit binary number, and B3, B2, B1, BO act as the second 4-bit binary number. Run your circuit for different setting of the inputs as in Table 3 and observe how the output Xchecks if the numbers are equal or not. Note: connect the eight inputs of this circuit to an 8-input DIP switch as shown in...
b. Place the components and wire up the circuit shown in Figure 1. The "digital constant" input represent inputs A, and the output signal at PR1 represents the output F Note: the current that can be supplied by small transistors is fairly low. Therefore, the op amp (U1) is added to "buffer" the output signal. It does not affect the operation of the circuit. V1 02 100um 00um U1 PR1 Outofdote d Lo DG1 92 LED1 00um 00um Figure 1...