EvilZone

General Tech => Hardware => : xor May 12, 2015, 07:01:34 AM

: [Electronics] 1 Bit Full Adder - Ripple Carry (Transistor NAND Logic)
: xor May 12, 2015, 07:01:34 AM

This is a 1 bit ripple carry full adder using pure NAND gates, constructed with transistors.
I have excluded resistors and power rails for simplicity.

http://i.imgur.com/Jvp9bSk.jpg?1 (http://i.imgur.com/Jvp9bSk.jpg?1)


-- xor

: Re: [Electronics] 1 Bit Full Adder - Ripple Carry (Transistor NAND Logic)
: iiCE May 25, 2015, 12:06:34 AM

Looks darn sexy. What does it do. Does it have an software equivalent?
Could you clarify it to us a bit more, since we are complete noobs? :P
Thanks!

: Re: [Electronics] 1 Bit Full Adder - Ripple Carry (Transistor NAND Logic)
: HTH May 25, 2015, 12:40:34 AM

Kek, it's software equivalent is roughly 1+1 = 10 :p

Since I'm way too lazy to explain it all, this post I googled quickly seems like it should work:
http://www.cs.umd.edu/class/sum2003/cmsc311/Notes/Comb/adder.html

: Re: [Electronics] 1 Bit Full Adder - Ripple Carry (Transistor NAND Logic)
: xor May 25, 2015, 06:17:38 AM

I am going to create a digital logic series of tutorials.
For ease of updating, I will be hosting them on GitHub.

https://github.com/XorLogic/DigitalLogic (https://github.com/XorLogic/DigitalLogic)

Tutorial 01. Digital Logic Primer is up.
This will be the precursor to fully explaining what is happening with this 1 bit full adder.

-- xor

: Re: [Electronics] 1 Bit Full Adder - Ripple Carry (Transistor NAND Logic)
: x0nic May 29, 2015, 03:50:20 PM

: xor  May 12, 2015, 07:01:34 AM

This is a 1 bit ripple carry full adder using pure NAND gates, constructed with transistors.
I have excluded resistors and power rails for simplicity.

http://i.imgur.com/Jvp9bSk.jpg?1 (http://i.imgur.com/Jvp9bSk.jpg?1)

&

I am going to create a digital logic series of tutorials.

starting to love you
+1