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|This is a Guide page.|
This means the page will walk you through a specific task, strategy, or enemy/boss fight.
Basics[edit | edit source]
The two main components of a circuit are inputs and outputs. Inputs will activate every output mechanism to them one time when they are activated.
There are four different colors of wire, placed using any of the four different colored wrenches, the Multicolor Wrench, or The Grand Design. The Wire is still the same for all Wrenches: they are simply painted when placed. The four types are functionally identical, but they can't be connected: this allows more compact and complex circuitry to be designed. Also, the Junction Box allows wire to cross without actually connecting, allowing even more complex and intricate wiring to be built.
Inputs[edit | edit source]
- Switches and Levers works as inputs. They send a signal once every time they are toggled. It doesn't matter which direction they are flipped.
- Pressure Plates sends a signal every time something walks over it. Stepping on the pressure plate activates it; Stepping off of it does nothing. The most effective use of pressure plates is enemy detection, be it for activating automated traps or just as an advanced warning so you can be ready to defend. Some pressure plates require a specific user to work (for example, a Player).
- Sensors sends a signal whenever a certain set of conditions are met. There are the following sensors:
- The Night Sensor sends a signal when day turns to night.
- The Day Sensor sends a signal when night turns to day.
- The Player Above Sensor sends a signal when the player enters its field of view, and again when it steps off.
Outputs[edit | edit source]
- Most Light Sources can be turned on and off if they receive a signal.
- Doors will open or close upon receiving a signal. You can wire them to only close if you place the wire on a block that the door takes up when opened. If the door is closed, they will not receive the current and will not open. This is especially useful for exits that need to be automatically closed for safety, without risking them opening accidentally.
- Statues that can be activated one time whenever a signal is received, providing that enough time has passed since the previous activation on that input. Not all statues can output: check the Functional statues section for more info.
- Actuators will change the state of the block that they're placed on when a signal is received. This allows you to create doors that are opened with a switch or lever. Also, trapdoors can be created so that lava pits and other traps can be covered when they aren't needed.
- Traps will activate when a signal is received, providing such action as dropping a spear from the ceiling or shooting out a jet of flame. This is the list of traps:
- Explosives detonate when a signal is received. The explosion they cause is slightly stronger than that of a Dynamite. They can be placed and detonated from a safe distance, making them a more accurate, yet not as simple to set up solution than other block-damaging explosives.
- Pumps are used to move large quantities of Water, Lava, or Honey: the Inlet Pump sucks in a liquid, and the Outlet Pump sends it out until it is completely submerged. Each time either pump is activated, the Inlet Pump will transfer up to four tiles of liquid to the Outlet Pump.
Advanced[edit | edit source]
Timers[edit | edit source]
Timers, when activated, can repeat a signal within a specific delay: depending on the type, it will send a signal every one, three or five seconds.
Unless you link timers together with different colored wire, Timers can't be activated sequentially. See https://www.youtube.com/watch?v=KhVgnlOidpY for how to build it.
Logic Gates[edit | edit source]
There are six different kinds of Logic gates: AND, OR, XOR, and their inverses NAND, NOR and XNOR. Each gate only turns on when specific conditions are met:
- AND Gate becomes active only when all inputs are on, and its NAND counterpart only when all inputs are off. They're useful to restrict access to a particular area unless a player has flipped specific switches throughout the world.
- XOR Gate becomes active when only one input is on, and its XNOR counterpart only when only one input is off;
- OR Gate becomes active when at least one input is on, and its NOR counterpart only when at least one input is off.
Engines[edit | edit source]
There are multiple ways on how to create engines:
Hoiktronics[edit | edit source]
There is a guide in the forums that advanced players may find helpful An Introduction to Hoiktronics "Hoiktronic is intended to communicate the key use of the 'hoik' glitch (with sloped blocks) to control the movement of NPCs so rapidly and precisely that they become somewhat like big, fat electrons, facilitating rapid digital mechanisms." Another useful guide is Fastest Engines, which includes: Hoiktronic Counter (Video), Crab Engine (Compact), Hoik Engines, House Hoik Engine, Teleporter Engines (Standard, Hoik Hybrid (Guide Engine, Hoik Hybrid (Ultimate, 1 Step)), Minecart Engines, Bird Engines, Rainstick Engines (Video included) (Stumps, Repeater, Spear Trap Batteries, Continuous Drop), 1.3 Update Notes (Including 'Ghost Dummy' Engines).
Detonators[edit | edit source]
The Detonator is a 2x2 object that, when stepped on or right-clicked by a player, produces a signal. They're usually naturally found as a Trap.
Diodes[edit | edit source]
Timers often "backfire" onto a mechanism, but with the Teal Pressure Pad and a Dart Trap it is possible to create a "diode", a wiring function which only works in one direction. Wire the source up to the Dart Trap, place the Pressure Pad directly in line, and wire the output up to it. This means that when it receives a signal, the Dart Trap fires, causing the Teal Pressure Pad to register a hit. However, because there is no continuous wire then whatever is rigged up to the Teal Pressure Pad will not re-activate the source.
In Hardmode, a simpler form of diode can be constructed: Any Logic Gate (except XOR) with a single Lamp on top. Wire the source to the lamp and the output to the gate.
Counting Machines[edit | edit source]
It is possible to construct a mechanism out of a series of Logic Gates whose output signal will be triggered on every other input signal. Such mechanisms can be concatenated to produce a machine with the ability to count the number of inputs signals it receives. This may be used, for example, to count the number of days by attaching such a machine to a Logic Sensor (Day).
An easier/simpler implementation would be by using the Faulty Lamp atop a Logic Gate Lamp(On or off) atop a Logic Gate, both Lamps get the same input which results in the gate sending a signal every second input.
Tip: when using the value of a counter with other circuitry you should keep in mind that the outputs of the counter may change multiple times in one cycle so you should delay(compensate) the output signals with one additional gate for every following counting node.