![This happens to be a negative edge triggered JK flip flop. I used boolean algebra and found D = E' and E = D'. Given the propagation delay I thought this was This happens to be a negative edge triggered JK flip flop. I used boolean algebra and found D = E' and E = D'. Given the propagation delay I thought this was](https://preview.redd.it/cv6hms38j8051.jpg?auto=webp&s=2b219b7e45cd1e1e66793ba60652accdb72299f6)
This happens to be a negative edge triggered JK flip flop. I used boolean algebra and found D = E' and E = D'. Given the propagation delay I thought this was
![flipflop - JK flip-flop timing diagram positive edge triggering - Electrical Engineering Stack Exchange flipflop - JK flip-flop timing diagram positive edge triggering - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/xUix0.png)
flipflop - JK flip-flop timing diagram positive edge triggering - Electrical Engineering Stack Exchange
![SOLVED: Consider one positive-edge-triggered JK flip-flop with output Qp and one negative-edge-triggered JK flip-flop with output QN. Assume the Clock, J, and K inputs shown below are applied to the two flip-flops. SOLVED: Consider one positive-edge-triggered JK flip-flop with output Qp and one negative-edge-triggered JK flip-flop with output QN. Assume the Clock, J, and K inputs shown below are applied to the two flip-flops.](https://cdn.numerade.com/ask_images/d00b8b6c41c943eba6eb79cc0a36cb3e.jpg)
SOLVED: Consider one positive-edge-triggered JK flip-flop with output Qp and one negative-edge-triggered JK flip-flop with output QN. Assume the Clock, J, and K inputs shown below are applied to the two flip-flops.
![digital logic - Edge triggering seems to me leaving every circuit in an inconsistent state? - Electrical Engineering Stack Exchange digital logic - Edge triggering seems to me leaving every circuit in an inconsistent state? - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/RmgwO.png)
digital logic - Edge triggering seems to me leaving every circuit in an inconsistent state? - Electrical Engineering Stack Exchange
![For each of the positive edge triggered J K flip flop used in the following figure, the propagation delay is ΔT.Which of the following waveforms correctly represents the output at Q1? For each of the positive edge triggered J K flip flop used in the following figure, the propagation delay is ΔT.Which of the following waveforms correctly represents the output at Q1?](https://df0b18phdhzpx.cloudfront.net/ckeditor_assets/pictures/1360320/original_3.png)
For each of the positive edge triggered J K flip flop used in the following figure, the propagation delay is ΔT.Which of the following waveforms correctly represents the output at Q1?
![JK Flip-Flop Explained | Race Around Condition in JK Flip-Flop | JK Flip- Flop Truth Table, Excitation table and Timing Diagram - ALL ABOUT ELECTRONICS JK Flip-Flop Explained | Race Around Condition in JK Flip-Flop | JK Flip- Flop Truth Table, Excitation table and Timing Diagram - ALL ABOUT ELECTRONICS](https://www.allaboutelectronics.org/wp-content/uploads/2022/07/JK-FLip-Flop-symbol-and-truth-table_negative.png)
JK Flip-Flop Explained | Race Around Condition in JK Flip-Flop | JK Flip- Flop Truth Table, Excitation table and Timing Diagram - ALL ABOUT ELECTRONICS
![SOLVED: The following waveform specifies the inputs of a negative-edge triggered JK flip-flop. Assuming that the output Q of the flip-flop is initially undefined, add the timing diagram of Q to the SOLVED: The following waveform specifies the inputs of a negative-edge triggered JK flip-flop. Assuming that the output Q of the flip-flop is initially undefined, add the timing diagram of Q to the](https://cdn.numerade.com/ask_images/fb2acd535d5c49e18a65460c25b1822d.jpg)