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NAND Gate (Project Red)
NAND Gate | |
---|---|
| |
Name | NAND Gate |
Source Mod | Project Red |
ID Name | ProjRed|Integration:projectred.integration.gate:4
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Type | Block |
Stackable | Yes (64) |
Solid | Yes |
Transparent | Yes |
Affected by Gravity | No |
Emits Light | Yes (7) |
Flammable | No |
Required Tool | Any tool |
NAND Gate is a redstone logic component added by the Project Red (Integration) mod. It outputs a low signal (0) when all enabled input sides receive a high signal (1). Any redstone signal strength that is not zero is accepted as a valid high input signal (1). A high output signal from the gate is always a redstone signal at maximum signal strength (15).
Like all logic blocks added by the mod, the NAND Gate can be placed on any side of a block.
When right-clicking the gate with a Screwdriver, it will toggle between various permutations of input configurations where one or two of the inputs are disabled. When only a single input is enabled, the gate acts as a "buffer", which amplified a high signal (1) back to the full redstone signal strength (15).
It takes two ticks for a signal change to propagate from the input to the output of the gate. This means that as there are 20 ticks in a second, it would take one second for a signal change to propagate through ten of these gates.
When the player hovers over the block with their crosshairs, a layout is drawn around the block denoting the names of the in-/output sides.
Truth table[edit]
This table is only valid when all three input sides are enabled, denoted here by A, B and C. The input sides are all denoted by IN in the game.
Input | Output | ||
---|---|---|---|
A | B | C | OUT |
0 | 0 | 0 | 1 |
0 | 0 | 1 | 1 |
0 | 1 | 0 | 1 |
0 | 1 | 1 | 1 |
1 | 0 | 0 | 1 |
1 | 0 | 1 | 1 |
1 | 1 | 0 | 1 |
1 | 1 | 1 | 0 |
Recipe[edit]
Usage[edit]
NAND Gate (Project Red) has no known uses in crafting.
Trivia[edit]
- In real integrated circuits using technologies such as NMOS or CMOS transistors, a gate will output the current from the power source, which means that a high signal output does not rely on the voltage of the signal that was input, as these signals degrade when they are fed into many components. By this means, a high signal is always amplified to full strength when it exits a gate component.
- In the commonly used CMOS technology for integrated circuits, NAND gates are cheaper to implement than AND gates.
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