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Circuit network: Difference between revisions

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(Expanded concept of sender and receiver devices and reworded some 'you'-based verbiage.)
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Note that each connected set of wires forms a separate network.  For example, it's entirely possible to have four red-wire networks and three green-wire networks.  Red and green networks will remain separate and do not link up if red and green wires happen to touch the same power pole or device.
Note that each connected set of wires forms a separate network.  For example, it's entirely possible to have four red-wire networks and three green-wire networks.  Red and green networks will remain separate and do not link up if red and green wires happen to touch the same power pole or device.


* To connect wires to a power pole, drag the wire to the base of the pole.
* To connect wires or cables to a power pole, drag the wire to the base of the pole.
* To erase a wire connection, drag the same color wire over an existing connection.
* To erase a wire or cable connection, drag the same color wire over an existing connection. You don't get the wire/cable back.
* To remove '''all''' connections from a power pole, shift-click on the pole.  The first shift-click will remove all electrical connections, and the second will remove all red and green wires.
* To remove '''all''' connections from a power pole, shift-click on the pole.  The first shift-click will remove all electrical connections, and the second will remove all red and green wires. You don't get the wires back.
* When connecting to a [[Arithmetic Combinator]] or [[Decider Combinator]], take care to drag the wire to the correct input or output side.
* When connecting to a [[Arithmetic Combinator]] or [[Decider Combinator]], take care to drag the wire to the correct input or output side. Use ALT-Key-Mode to see direction of combinator.


== Broadcast Information ==
== Broadcast Information ==

Revision as of 07:45, 12 August 2016

Circuit networks are built using red or green wire, and enable the control of receiver devices, based upon information broadcast onto the network by connected sender devices. Most senders are storage devices, and broadcast their information onto a specific channel, based on the item or liquid the storage device contains. Each circuit network contains a channel for every kind of item, as well as 45 extra Virtual signals which act as user-definable channels.

InnerOfGreenCable.jpg

Physical network structure

A circuit network consists only of those devices connected together with the same color wire. Wire can be strung directly from device to device, or across any intervening power poles.

Note that each connected set of wires forms a separate network. For example, it's entirely possible to have four red-wire networks and three green-wire networks. Red and green networks will remain separate and do not link up if red and green wires happen to touch the same power pole or device.

  • To connect wires or cables to a power pole, drag the wire to the base of the pole.
  • To erase a wire or cable connection, drag the same color wire over an existing connection. You don't get the wire/cable back.
  • To remove all connections from a power pole, shift-click on the pole. The first shift-click will remove all electrical connections, and the second will remove all red and green wires. You don't get the wires back.
  • When connecting to a Arithmetic Combinator or Decider Combinator, take care to drag the wire to the correct input or output side. Use ALT-Key-Mode to see direction of combinator.

Broadcast Information

Sending devices broadcast the amount of Items or Fluids they contain or other data definable by the player. Each amount is broadcast as a numeric value on a 'channel' corresponding to the item they contain. For example, a Storage Tank containing 1000 Crude Oil will broadcast 1000 on the Crude Oil channel.

Multiple broadcasts of the same item or fluid are additive: if there are two connected Storage Tanks with 1000 Crude Oil each, the value of the Crude Oil channel will be 2000.

Wires which are connected together by a junction will pass their signals to the other wires of the same color. For example, if two red wires are connected to the same combinator input, each wire receives the content from the other. This can result in feedback if care is not taken; see Feedback (under Arithmetic Combinator, below) for discussion.

Use of Information

Example condition: "Work only if the count of Iron plates is lower than the count of Steel plates."

Receiving devices can use broadcast information, in most cases to enable/disable the device.

They can either compare results between different channels, or compare a channel to a specific value. The pictured inserter works if the count of Iron plates is lower than the count of Steel plates.

Receiving devices sum all signals from each wire connected to them, even red and green wires. For example, if an inserter is connected to a red wire carrying a signal for 20 iron plates, a green wire with 10 copper plates and another green wire with 5 iron plates, the input signal set for that receiver will be 25 iron plates and 10 copper plates.

Basic

File:Circuit-network-example-1.png
A basic circuit network usable to fill a chest with a defined amount of items.

The simplest network is to connect a smart inserter with a chest next to it, to control the amount of items in the chest. (Note that you do not have to connect them using a power pole as the picture shows; you can connect them directly.)

Combinators

Combinators can function as both receiving and sending devices and allow more advanced functions to be used on a circuit network.

  • The Constant Combinator broadcasts up to 15 values on any of the channels for whatever networks it is connected to. (You cannot currently specify whether a value should be red or green; if you need different values, use two combinators, one for each color wire.) You can use any item channel or any of the virtual signal channels.
    • Note that using two of the 15 slots to broadcast values on the same channel is the same as broadcasting the sum of the two values from one slot.
  • The Arithmetic Combinator performs arithmetic operations on input values and broadcasts the result to the specified output channel. The input and output channels can be any item channel or any of the virtual signal channels.
    • Connecting: The Arithmetic Combinator connects to a red or green network on its input side (the terminals are set into the main body and look like spark plugs) and performs an arithmetic calculation which is broadcast into the specified channel on its output side (the output wires appear to stretch out a bit from the body of the device).
    • Feedback: Note that the input network and the output network are not the same network. Connecting the output network back to the input network will result in a feedback loop. For example, adding 1 to the value for Copper Plates and broadcasting it as Copper Plates is an action that results in an infinite loop if output is connected back to input. The value for Copper Plates will rapidly (but not instantly) shoot upward. This technique can be combined with Decider Combinator logic to make electronic clocks, gates, and other systems; see Combinator Tutorial for advanced techniques.
    • Each: This combinator can use the 'Each' signal for both input and output, in which case all non-zero input channels will have the combinator's operation performed and broadcast on the output side. Having Each signals for input and output and using a non-changing operation (like adding zero) is equivalent to having a 'one-way' wire; all the information from the input network is copied to the output network, but the reverse is not true.
    • Multi-network: The Arithmetic Combinator can be joined to both red and green networks on the input side and will sum their inputs.
  • The Decider Combinator functions much like an Arithmetic Combinator, but is designed to compare values. In terms of Connecting, Feedback, and the Each signal it functions as specified above. In addition, it can handle the Everything and Anything signals, and performs more complex functions than summing when attached to multiple networks. See the Decider Combinator page for more details on how to use this.

Logistic Network

The Logistic network used by Logistic Robots is essentially a third network (a wireless one), along with the green and red wired network. The Logistic Network is based on proximity to a central Roboport.

Some devices can also be connected to the logistic network. If a device has conditions set for circuit and for logistic network, it will become activated if both conditions are true.

See Logistic network for more information.

Items/Devices

In v0.13 the factorio developers made many devices connectable to the circuit network, so there are many possibilities to control and program your factory based on conditions.

Examples (outdated)

See also