IC2 power supply mechanism analysis [IC2] Industrial Age 2 (INDUSTRIAL CRAFT 2) Minecraft Game

2024-12-09 18:31:58|Myriagame |source：minecraft skins

Basic concepts (corresponding to the concept in reality, easy to understand):

EU: Electricity

EU/T: Electricity (but in the game, it is usually called voltage or current)

EU/P: voltage (but the voltage measured in the game (the EU meter) refers to the energy level)

Loss (EU/Block): Similar to resistance

(No corresponding to the current in reality)

If you want to create a quantity to correspond to the current, then the number of wires that pass through each tick

Wiring loss: wire heating power, because of the power supply mechanism, the calculation formula is IR not i^2R

Each power supply (power storage box, transformer, generator, etc.) has the energy limit for each TICK output.

Under normal circumstances, this value is equal to the value of the EU/P limit output of the item, such as 32 and MFSU is 2048;

However, for the transformer, this value is equal to the value of EU/P of its high -voltage surface (regardless of boosting or lowering voltage). For example, the low voltage transformer is 128 and the middle pressure is 512.

Power supply mechanism:

In each Tick, the power supply will find electrical appliances connected to the output surface (various electric machines, power storage boxes, transformers, etc.), and provide electrical energy. The calculation method (numerical calculation) provided by the electrical energy provided below:

initialization:

Electricity energy = min (the upper limit of the energy output per TICK, the power of the power cache).

In particular, for the power storage box, when the cache's power is limited when the energy is output per TICK, the output power can be available = 0

For each electrical appliance:

Enter the electrical energy (EU) = min using electrical appliances (electrical energy demand for electrical appliances, min (output power, output EU/P upper limit) -The sum of the amount of loss through the wires (down));Electric Electricity = Electric Clear Hop-the Electric Energy currently Cache)

When entering the electrical energy of the electrical appliance <= 0, skip the following three steps;

EU/P = Input to the amount of electrical energy of electrical appliances+the sum of the loss of the wire (below);

Provide electrical energy input to electrical appliances to electrical appliances, and deduct EU/P from the cache of the power supply;

Electable power = output power-EU/P; (the value of output power reduces the value of EU/P)

Among them, the "energy outflow" that uses the EU meter on the power supply is the sum of the electrical energy of the electrical appliance (excluding wire loss);

The "energy inflow" that uses the EU meter on an electrical appliance is the electrical energy input to the electrical appliance;

"Energy" is "energy inflow"-"energy outflow".

The machine explosion and wire burning are determined by EU/P, which will explode when the endurance limit is over, so don't think of using the CESU 120 grid high -pressure wire to give the energy level 1 machine.

For example:

A CESU (128EU/T) power supply to 64 powder (the cache is full), 2eu/t × 64 = 128eu/t, running normally.

At this time, each folding machine will receive 2EU and 2EU/P's electrical energy, which just consumes the output electrical energy of CESU.

Start the 65th powder pour machine

At this time, CESU's output consumes less than 2EU/T less than the fans, so each Tick will reduce the total power of the powder cache of these powder. In the end, the power energy required by a powder machine exceeds 32eu, so that the EU/P exceeds 32, and then the EU/P exceeds 32, and then the EU/P exceeds 32. ThenAs a result of explosion.

Power supply order:

When there are multiple electrical appliances, the order of power supply is roughly in accordance with near to far, and the east/south direction is preferred.But this does not mean that when you are not filled with appliances, you do not supply energy to the distance, which is similar to random weight increases.

As shown below (facing east):

The energy inflow of the four MFEs (from near to far) is:

The fourth is obviously higher than the third.

Change to the west:

The energy inflow of the four MFEs (from near to far) is:

Energy inflows have decreased in turn.

The power supply order has nothing to do with electrical energy demand for electrical appliances: remove the recent MFE testing tools for the Western test.

(Test 180s is because this can be charged about 3MEU, compared with no electricity.) It can be observed that the difference is not much, and repeated experiments have not obviously shown more or less.

Calculation of line loss:

Maintain the cache of the power storage box at a certain value. According to the calculation method above, check the "energy obtaining energy" of the storage box to obtain a wire loss.

Wiring loss is calculated separately for each electrical appliance, so it is not recommended to have a long distance between the electrical appliances and the reservoir, especially the low voltage machine.

Increase the loss of the wires between the electrical and power supply, which has caused the wire loss to become smaller?

In the first case, the EU/P of the two powder machines is 14 and 18, 14+18 = 32, so in each tick, the power storage box will send them 2EU each;

In the second case, the EU/P of the two powder machines is at least 18, so in each TICK, the power storage box can only send an electricity to one of them, so the bus loss is reduced but it still consumes 80%.

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