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James M Trombadore
Приєднався 23 жов 2014
Autonomous Bulldozer • Topcon Senior Design Project (UCSC 2018)
This is a presentation of a senior design project completed at UCSC during 2017•2018 academic year. This project was sponsored by Topcon.
Authors:
-- James M Tormbadore
-- David Kooi
-- Donald Avansino
-- Keifer Selmon
Special thanks you to:
-- David Munday (UCSC SDP Advisor)
-- Donna Kelley and the engineering team at Topcon Livermoore
Authors:
-- James M Tormbadore
-- David Kooi
-- Donald Avansino
-- Keifer Selmon
Special thanks you to:
-- David Munday (UCSC SDP Advisor)
-- Donna Kelley and the engineering team at Topcon Livermoore
Переглядів: 126
Відео
Synchronous Counters #5: Example 1: Down-Counter with Button X
Переглядів 3,3 тис.7 років тому
This is the fifth and final video in a series about Synchronous Counters & Sequential Circuits. This example runs through how to build a 3-bit synchronous counter that counts down from 5 to 0 and takes in button X as a control signal that can be used to manipulate the counter. This counter is implemented using D flip flops. Please feel free to run through the example with us on paper! We encour...
Synchronous Counters #4: Example 2: Even-Down-Counter 12 to 0
Переглядів 33 тис.7 років тому
This is the fourth video in a series about Synchronous Counters & Sequential Circuits. It is an example that runs through how to build a 4-bit synchronous counter that counts down from 12 to 0 by way of even numbers only. This synchronous counter is built first with JK flip flops and second with T flip flops. Please feel free to run through the example with us on paper! We encourage you to paus...
Synchronous Counters #2: In Depth on JK, T, & D FlipFlops
Переглядів 4457 років тому
This is the second video in a series about Synchronous Counters & Sequential Circuits. It provides an in depth description of flip flops, specifically looking at JK, T, & D flip flops.
Synchronous Counters #3: Example 1: 4-bit Up-Counter
Переглядів 44 тис.7 років тому
This is the third video in a series about Synchronous Counters & Sequential Circuits. It is an example that runs through how to build a 4-bit synchronous counter that counts from 0 to 15 using JK flip flops. Please feel free to run through the example with us on paper! We encourage you to pause the video at anytime to first attempt a part before seeing how to work it out. Good luck!
Synchronous Counters #1: Introduction to FlipFlops
Переглядів 5157 років тому
This is the first video in a series about Synchronous Counters & Sequential Circuits. It provides a brief introduction on these topics.
How to make synch counter from 9-0 but odd numbers
Thank you
İ like your technicks. My best teacher
Thank you for such a thorough explanation
thanks for this video!!!
Wonderful video
Thank you James you helped me in my xam😉
Thank you sir
Excellent explanation Thanks for the video
How can I do 5 bit even up counter
How can I do 4 bit up down counter using jk flip flip
Thanks! This video is amazing!
thank you for the explanation 😊
Video is great, everything is explained very well. But can we do this with just 3 flip flops. There is just 7 required states actually, isn't it. In your simulation also the 4th flip flop is not working at all (it is in memory mode).
hello sir, it help me a lot but. How about when the 0-13 count only? Thank You
you can use reset. when it is 13 then reset basically
There is a mistake when present state is 0111 then next state is 1000 in this case both ja and ka will be one
thanks so much
Plz clear doubt how you just brighten your hands in seconds🤔
u saved my life dear sir
Hey James, I'm in architecture school at the cooper union working on a year-long thesis about automated construction systems just like this. Would you be willing to talk?
Danny Smith yeah just shot you a message on LinkedIn
@@ThePop12345678901234 Thanks a lot. I think that's probably another Daniel Smith at cooper now though. Could you send me an email at smith@cooper.edu when you get the chance?
Thanks bro, it helped me a lot but the circuits in the program didn't worked for me, can you send me a copy pls?
Best video thank uuuuuu so much ❤
Kindly speak a little bit loud
can you please tell me the name of the program you are using in mac ?
logisim
best explained video ever
whoah first he turned white, and then he turned black LOL
hey bro thanks for video and this video solved my whole confusion and saved my time and effort... Thank you once again....
Do u have 4bit D flip flop
Your state transition diagram says 8 is 0100, this should be 8 is 1000*
great video well explained...thank you
very good and useful ♥
thank you, it was really helpful
Thanks sir.
Thanks so much @James Trombadore. Your video helped me so much. My favorite part was when the way the K-Map is filled was explained. If have spent a lot of days trying to figure that out. I appreciated your work. Thank you.
When you wrote all the states in the state table, 1 should have been 0 0 0 1 (Qa Qb Qc Qd) right?
Yes, that was a mistake I made. Good catch!
James Trombadore haha;). Great video btw..helped a lot for my exams..thank you :)
Hello I tried to build a counter from 12 tO 2 with T flip flops but its giving erors in the counting, DO I have to include the NOT gates or just use the ''Qn'' OUTPUT AS NOT GATE Instead.
What about 3rd flip flop K input? is it zero or anything? please help to do same with up count. which software you are using?
I use logisim. Its any easy tool to check if your designs on paper are correct.
The 3rd flip-flop's k input cannot be 0. By setting it to 0 you are considering that the 1's in the 2nd, 6th and 10th cells from the 3rd K-input k-map are 0's. This is not true, they are 1's. Since every other cell is a don't care, we can simplify the problem by considering this don't cares as 1's and therefor saying that the prime implicant is simply just 1 and therefor 1 is our input.
hey bro, firstly thanks your video but i have a little bit problem how to build synchronous counter that 1-3-2-4-5-7-6-8-9-11-1-3-2-4-5-7-6....and i must use 1 for others?
You just need to change the next state of each value in the counter to reflect what you counter will do. For your sequence have the next state (Qa+1,Qb+1,Qc+1,Qd+1) for 1 be 3 rather than 2. If you change the next states to resemble the counter you want to build and then apply the same method for building the J-K flip flop columbs you should come up with the correct logic for the counter you want.
Also for numbers that are not in your squece (like 10, 12, 13, 14 or 15), simply have their next state be 1 so that if the counter every comes across those value at the beginning the counter will just jump to the beginning of the counter.
Look at my video for an even-down-counter, it will better explain how to manage non sequential counting sequences ua-cam.com/video/BwNTwR1Xcd4/v-deo.html
which digital editor software you are using?
logisim
Thank you Sir.....It helped me a lot...