CLR ENP ENT LOAD FIGURE 9-71 13. The waveforms in Figure 9-71 are applied to a...
2. A 4-bit parallel in/serial out shift register has SHIFT/LOAD' and CLK inputs as shown in the figure below. What is the output Q3 at the two times('A' followed by 'B') indicated by the dashed lines in the figure below if the parallel data inputs are DO-1, D1-0, D2-1, and D3-1? D3 SHIFT/L CLK SHIFT /LOAD Ο A. A-0,9:0 B. A:0, B-1 D.A-1, B-1
1. If the waveforms in Figure 7-72 are applied to an active-LOW input S-R latch, draw the re sulting Q output waveform in relation to the inputs. Assume that Q starts LOW
Design (and then verify your design by simulating it) a two-bit counter that counts up or down. Use an enable input E to determine whether the counter is on or off: if E = 0 the counter is disabled and remains at its present count even if clock pulses are applied. If E = 1, the counter is enabled and a second input, x, determines the direction of the count: if x = 1 the circuit counts upward 00, 01,...
Modify the hours stage of figure 10-18 to keep military time (00-23 hours) SECTION 10-4/DIGITAL CLOCK PROJECT 763 AMPM tens hrs PM CLRN 74160 units hrs O] QB QC ENT QD ENP RCO units hrs 2] units-hrs[3] CLRN Tens of hours PRN Units of hours CLRN FIGURE 10-18 Detailed circuitry for the HOURS section to count tens of hours. The BCD counter is a 74160, which has two active- HIGH inputs, ENT and ENP, that are ANDed together internally to...
The task is to design a two-bit controlled counter which has two counting bits (Q2, Q1), has one control input C1, and also two extra outputs, one indicating overflow, the other underflow. When C1=0 the counter counts up by 2s; i.e. 0 becomes 2, 1 becomes 3. In this mode the values 2 and 3 go to the overflow state. When the control input C1=1, the counter counts down by 2s, i.e. 3 becomes 1, and 2 becomes 0, and...
Question#3 As shown in the figure bellow a digital circuit encoder that performs the inverse operation of a decoder has 2" input lines and n output lines and can be implemented with OR gate whose inputs are determined directly from the truth table. Outputs D. Inputs D D2 D3 D4 D5 Do Dz 00000 0 0 Y 0 1 0 0 0 100 0 0 0 1000 0 0 1 0 0 0 0 0 0 0 i) Find the...
13. Based on the stiffness method, determine the stiffness matrix K for the truss shown in figure. Use the stiffness matrix to calculate the unknown displacement (D1 and D2) at the node where the load 5 kN and 10 kN are applied, and then determine the reactions at the pinned supports (Q3, Q4, Q5 and 26). Note that the degrees of freedom (DOFs) of the truss are indicated in the figure. Take EA as constant. The supports are pinned. 4....
Please help me figure out why my code is not working properly.I had thought my logic was sound but later found it will run one time through fine however if the user opts to enter another value it will always be returned as an error. #include <iomanip> #include <iostream> #include <cstdlib> using namespace std; int const TRUE = 1; int const FALSE = 0; // declares functions void GetZipcode(); void RunAgain(); int GetSum(char d1, char d2, char d3, char d4,...
The cantilever beam shown in the figure is subjected to a concentrated load at point B. The stresses acting at point Hon the beam are to be determined Ques! Text- Quest Text Ent T Quest Text End Cross section Viewir Text-Ent For this analysis, use the following values Beam and Load. Questi Muitstep a. 1.75 m b-0.30 m 0.63 degrees P.49 KN Questid Text Entry Questio Text Entry Cross-sectional Dimensions d - 275 mm by - 150 mm - 13...
3-13 please 3-13. For the circuit of Problem 3-9 (Figure P3-9), assume that the op-amp bias and offset para meters are as follows: Input offset voltage 1.2 mV Input bias current-60 nA Input offset current 8 nA a. Determine the magnitude of the output de voltage al produced, by the input offiset b. With Rc 0, determine the magnitude of the output de voltage al produced by the inp (You may now assume the ideal gain equation from Chapter 2...