Question 10.19: For each of the flip-flops shown in Figure 10–55(a), sketch ......

Digital Electronics A Practical Approach with VHDL [1368739]

For each of the flip-flops shown in Figure 10–55(a), sketch the Q outputs in Figure 10–55(b).

LPM Flip-Flop with Asynchronous Control Use the LPM_FF to implement an octal D flip-flop with asynchronous clear, set, and load. Include an enable to control the clock. Test its operation by producing a set of simulation waveforms that exercise both the asynchronous and synchronous inputs. ...

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Insert the LPM_FF symbol to a block design file as...

Question: 10.20

LPM Flip-Flop Use the LPM_FF to implement an octal D flip-flop with synchronous clock and data inputs and an asynchronous clear. Test its operation by producing a set of simulation waveforms that exercise both the synchronous and asynchronous inputs. ...

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Insert the LPM_FF symbol to a new block design fil...

Question: 10.18

The 74109 is a positive edge-triggered J-K flip-flop. The logic symbol (Figure 10–49) and input waveforms (Figure 10–50) are given; sketch Q. ...

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Notes: 1. Positive edge triggering. 2.

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Question: 10.17

Sketch the Q waveform for the 7476 positive pulse-triggered master-slave flipflop shown in Figure 10–47 with the input waveforms given in Figure 10–48. ...

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Question: 10.16

How would the Q waveform of Example 10–11 be different if we used a 7476 pulse-triggered master–slave flip-flop instead of the 74LS76? ...

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During positive pulse 2, J is HIGH for a short tim...

Question: 10.15

Sketch the Q waveform for the 74LS76 negative edge-triggered J-K flip-flop shown in Figure 10–46(a), with the input waveforms given in Figure 10–46(b). ...

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Note: Q changes only on the negative edge of [late...

Question: 10.14

J-K Flip-Flop Create a J-K flip-flop using the block design method. Right-click in the block design area and insert the symbol named jkff. Test the design by creating a waveform simulation file. Repeat using the VHDL design entry method. ...

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Figure 10–41 shows the solution as a bdf file usin...

Question: 10.6

D Latch Create a D latch using the block design method. Right-click in the block design area and insert the symbol named latch. Test the design by creating a waveform simulation file. Repeat using the VHDL design entry method. ...

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Figure 10–17 shows the solution as a bdf file usin...

Question: 10.13

To illustrate edge triggering, for the negative edge-triggered J-K flip-flop shown in Figure 10–39, let’s draw the Q output in Figure 10–40. (Assume that Q is initially 0.) ...

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Question: 10.12

Question 10.19: For each of the flip-flops shown in Figure 10–55(a), sketch ......

Related Answered Questions

LPM Flip-Flop with Asynchronous Control Use the LPM_FF to implement an octal D flip-flop with asynchronous clear, set, and load. Include an enable to control the clock. Test its operation by producing a set of simulation waveforms that exercise both the asynchronous and synchronous inputs. ...

Verified Answer:

LPM Flip-Flop Use the LPM_FF to implement an octal D flip-flop with synchronous clock and data inputs and an asynchronous clear. Test its operation by producing a set of simulation waveforms that exercise both the synchronous and asynchronous inputs. ...

Verified Answer:

The 74109 is a positive edge-triggered J-K flip-flop. The logic symbol (Figure 10–49) and input waveforms (Figure 10–50) are given; sketch Q. ...

Verified Answer:

Sketch the Q waveform for the 7476 positive pulse-triggered master-slave flipflop shown in Figure 10–47 with the input waveforms given in Figure 10–48. ...

Verified Answer:

How would the Q waveform of Example 10–11 be different if we used a 7476 pulse-triggered master–slave flip-flop instead of the 74LS76? ...

Verified Answer:

Sketch the Q waveform for the 74LS76 negative edge-triggered J-K flip-flop shown in Figure 10–46(a), with the input waveforms given in Figure 10–46(b). ...

Verified Answer:

J-K Flip-Flop Create a J-K flip-flop using the block design method. Right-click in the block design area and insert the symbol named jkff. Test the design by creating a waveform simulation file. Repeat using the VHDL design entry method. ...

Verified Answer:

D Latch Create a D latch using the block design method. Right-click in the block design area and insert the symbol named latch. Test the design by creating a waveform simulation file. Repeat using the VHDL design entry method. ...

Verified Answer:

To illustrate edge triggering, for the negative edge-triggered J-K flip-flop shown in Figure 10–39, let’s draw the Q output in Figure 10–40. (Assume that Q is initially 0.) ...

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For the master–slave J-K flip-flop shown in Figure 10–35, sketch the waveform at Q in Figure 10–36. (Assume that Q is initially 0.) ...

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