b) For the circuit below, draw the timing diagram for outputs X and Y for the...
(b) Using a timing diagram showing the clk, Q1 and D2 signals, explain the following timing constraints for the circuit shown in Figure 2.1 cqtcd 2 old where tod is the contamination delay of the combinational logic 7 marks reg2 reg1 Combinational D2 logic clk. clk Figure 2.1 (c) In the circuit shown in Figure 2.2, the flip-flops have a clock-to-Q contamination delay of 30 ps and a propagation delay of 80 ps. They have a setup time of 50...
Complete the timing diagram of Fig. P4.14b by drawing the waveforms of signals 4.14 The circuit of Fig. P4.14a contains a D latch, a positive-edge-triggered D flip-flop, and a negative-edge-triggered D flip-flop. Complete the timing diagram of Fig. P4.14b by drawing the waveforms of signals,, and y FI D O Clack Clock Figure P4.14: a. Logic diagram. B. Timing diagram.
5) Complete the timing diagram for the circuit with one positive-edge and one negative-edge triggered D FF. Q1 and Q0 start a low (0) because CLRn starts low. CLk K - 1 cun Q ई 6) For each set of waveforms, create a D, T or J/K waveform that will generate the desired Q output. Assume Q starts low. There are several right answers for the J and K inputs. To prevent flip-flop instability, all changes to the D, T...
Draw waveforms for the indicated latch and flip-flop outputs. The initial value for each output is 0 as shown. CLK D Transparent low latch Q Transparent high latch Q Negative Edge Triggered Flip-flop Q Positive Edge Triggered Flip-flop Q
a) (5 marks) Explain the difference between a latch, a gated latch and a flip flop. b) (5 marks) A gated SR latch has the following schematic diagram CLK a) Draw a timing diagram showing the Q and Q outputs for the following sequence of inputs: CLK R Assume that the initial state of the outputs is Q 0 and Q 1 c) (5 marks) Draw a schematic diagram for a rising edge-triggered master-slave D flip- flop built using two...
For the input shown below, draw the timing diagrams for the flip flop output Q (assume negative edge triggered flip flops) 1 CLOCK D or T CLR PRE 1.1 Assume a D flip-flop without a clear or preset 1.2 Assume a D flip-flop with active low clear CLR' 1.3 Assume a D flip-flop with active low clear CLR' and preset PRE 1.4 Assume a T flip-flop without a clear or preset (Q is initially 1) 1.5 Assume a T flip-flop...
Please give me explanation. The JK flip-flop 1. The figure below is a timing diagram for the J, K, and clock inputs of a positive edge-triggered JK-flip-flop. Draw the corresponding Q and Q' outputs. (4 points) clockoUU Q'
3. A timing diagram below shows a D Flip-flop and the input clock. Show the transition of the output Q at the positive transitions of the clock signal. Q 1 initially. Clk 4. Implement a 2-bit up-counter using D flip-flops. Show the circuit. 5. Implement a 2-bit down-counter using D flip-flops. Show the circuit. Transitions: 11->10->01->00->11->10->...
Design a 5-bit binary counter using JK flip flops. Draw the flip-flop circuit diagram, the state graph, the timing diagram, the truth table (with clk pulse) and the state table (with present and next states).
1. a) Complete the waveform templates for the Master –Slave D-flip-flop below with given D, CLK, CLEAR, and PRESET signals. Neglect the propagation delays. b) Does it have positive or negative edge triggering with respect to CLK? c) Are the asynchronous PRESET and CLEAR active-high or active-low? 2. Enabling of data load in the D-flip-flop was implemented with a 2-to-1 multiplexer as show below. The D-flip-flop has the positive edge triggering and the active-low asynchronous clear. a) Is the Enable...