User:Depressed pho/Thyristor

These thyristors are a little like D flip-flops but have a different functionality. They have two inputs: the "gate" line G and the "anode" line A, and have one output: the "cathode" line K. When triggered by G, the circuits set its output K to A only if A is high, then hold that output state until A goes low. Otherwide K stays low.

(Credit for giving the name to these circuits goes to Dheatly23 in this thread.)

Schematic
Design A is the simplest form of the circuit. The hopper is initially empty so K stays low regardless of whether A is high or low. When G goes high, the item in the dropper moves to the hopper so K goes high as well. The hopper is suspended by A so as long as A is high, the item won't go back to the dropper so K is kept high. ''But there is a downside to this design. When triggered by G while A is low, there will be a 1 tick on-pulse emitted from K.''

Design B is an improved form at the cost of complexity / size / delay. There is an AND gate between G and A so the clock input gets completely discarded when A is low.

Use case


This is an automatic item disposer with a start button. Put items in the chest, then push the button behind it. All the items in the chest will be thrown into lava via clocked dropper below the chest. While design B is used in this screenshot, design A is fine too because the bogus 1-tick output would only activate the empty disposer.