![Flip-flops A and B form a sequential synchronous circuit as shown below. After the clock pulse, binary count 10 (A=1, B=0) changes to: A. 00 B. 01 C. 10 D. 11 Flip-flops A and B form a sequential synchronous circuit as shown below. After the clock pulse, binary count 10 (A=1, B=0) changes to: A. 00 B. 01 C. 10 D. 11](https://savvyengineer.s3.amazonaws.com/ckeditor_media/Screen-Shot-2020-12-30-at-50018-PM-1609365653971.png)
Flip-flops A and B form a sequential synchronous circuit as shown below. After the clock pulse, binary count 10 (A=1, B=0) changes to: A. 00 B. 01 C. 10 D. 11
![D flip flop in proteus | How to make D flip flop in proteus | D flip flop simulation in proteus - YouTube D flip flop in proteus | How to make D flip flop in proteus | D flip flop simulation in proteus - YouTube](https://i.ytimg.com/vi/bRFjgOE9lgU/sddefault.jpg)
D flip flop in proteus | How to make D flip flop in proteus | D flip flop simulation in proteus - YouTube
![a) Non-volatile flip flop architecture using PMC devices with write... | Download Scientific Diagram a) Non-volatile flip flop architecture using PMC devices with write... | Download Scientific Diagram](https://www.researchgate.net/publication/278049212/figure/fig5/AS:614375354298369@1523489907315/a-Non-volatile-flip-flop-architecture-using-PMC-devices-with-write-and-read-circuitry.png)