This tutorial is set by the author's setting without permission.

This tutorial mainly explains the voltage mechanism of 1.12.2. In the entire tutorial, I will use simple text and examples to facilitate everyone to understand.

First of all, EU/T is actually not a voltage or a current, but we are used to using voltage or current to refer to it. EU/T actually refersThe electricity of the power, such as the firepower, is 10EU/T, which means that the thermal generator can send a power of 200EU in 1 second. The powder is 2EU/T, which means that the powder consumes 40EU for 1 second.

The energy level marked on the generator can represent the scope of EU/T. The energy level marked on the motor can represent the range of EU/T and its maximum energy level.The

[1,32] EU/T, energy level 1

(32,128] EU/T, energy level 2

(128,512] EU/T, energy level 3

(512,2048] EU/T, energy level 4

(2048,8192] EU/T, energy level 5

The firepower generator generates 10EU/T, the geothermal generator power generation is 20EU/T, and the powdery machine is 2EU/T, so they are all energy level 1.

The EU/T marked on the wire can represent the maximum energy level it can withstand, such as the maximum energy level of the copper wire (128EU/T) is 2, and the maximum energy level that the gold wire (512EU/T) can withstand is3.

As long as the maximum energy level of the generator in the line ≤ the maximum energy level that can be affected by the motor and wires, the wires will not be burned and the motor will not explode. On the contrary, when the EU passes through the wire and the motor, the wire will be burned.The motor will also explode.

For example, after the 20 fire power generators are connected, the power generation ≈200EU/T (wire wired loss) is used at this time.The maximum energy level of the generator is 1, the copper wire is 2, and the powder is 1, but if a firepower generator is removed at this time, it is replaced with an MFE power storage box (power generation 512EU/T, energy level 3), as powderWhen the machine starts to work, it will explode, and the copper wire will be burned, because at this time, the maximum energy level of the generator is 3, the copper wire is 2, and the powder is 1.

If you want a high -energy -level generator to power the low -energy -level motor, you can put the "high -voltage upgrade" for low -energy -level motors to improve the maximum energy level it can withstand. For exampleThe "high -voltage upgrade" powder is powered on, but as the motor uses more and more, the level of the generator is getting higher and higher, each motor must put several "high -voltage upgrades" to ensure the safety of the line. This is undoubtedof.

At this time, we have to use the "transformer".

The EU/T marked on the transformer is the same as the wire, which represents the energy level. There are four types of transformers, which are:

Low-voltage transformer (low voltage 32eu/t, high voltage 128eu/t, that is, energy level 1-2)

Mid-pressure transformer (low voltage 128eu/t, high voltage 512eu/t, that is, energy level 2-3)

High-voltage transformer (low voltage 512EU/T, high voltage 2048eu/t, that is, energy level 3-4)

Ultra-high pressure transformer (low voltage 2048eu/T, high voltage 8192eu/t, that is, energy level 4-5)

The transformer can reduce the energy level (antihypertensive) of the electricity, or the energy level (boost) of the power (voltage) of the electricity. This tutorial only explains the antihypertensive.

Five dots (high voltage surfaces) of the transformer are used to input the electricity of energy level A. The other five planes (low voltage surfaces) are used to output energy level A-1 electricity. When the energy level> A electric input to the transformerThe transformer explodes.(A is the energy level of "high voltage: XXX EU/T" on the transformer.

For example, MFE outputs energy level 3, which connects it to the high-voltage surface of the medium-voltage transformer (low voltage 128euuu/t, high voltage 512EU/T, that is, energy level 2-3). The low voltage surface will output energy level 2 2Electricity, but if it connects it to a low-voltage transformer (low voltage 32EU/T, high voltage 128eu/t, that is, the energy level 1-2), the low-voltage transformer will explode.

Therefore, if you want to use the MFE to power the powder, you can use the medium -voltage transformer to turn the level 3 into a level 2, and then use a low -voltage transformer to turn the level 2 into a level 1 and give the level 1 powder.

When the EU/T ≥ transformer marked by the high -pressure surface is input, the transformer will reduce its energy level and output the same EU/T as the high -voltage EU/T marked by itself.For example, the three MFEs are connected (1536euu/T, energy level 3) to input to the medium -voltage transformer (low voltage 128euu/t, high voltage 512EU/T), the medium -voltage transformer will output 512EU/T, energy level 2, and then electricThe input to the low -voltage transformer, the low -voltage transformer will output 128eu/t, energy level 1.

This 1536EU/T actually only has 512EU/T that enters the medium -voltage transformer (not 1536eu/t to enter the mid -pressure transformer and then lose 1024EU/T).You need to enter the three -way transformer, turn it to 1536EU/T first, energy level 2, and then enter this electric input to 12 low -voltage transformers (128 × 12 = 1536), eventually become 1536EU/T, energy level 1.(The low -voltage transformer is very cheap, 6 wood, 4 copper 2 rubber 1 iron 1 tin can be done)

When the EU/T

For example, an unmotned quantum solar generator (4096EU/T, Energy Level 5), input to ultra -high -voltage transformers (low voltage 2048euu/T, high voltage 8192eu/T), it will output 4096EU/T, energy level 4.

Some tools and equipment also indicate energy levels. This energy level refers to the tool or equipment that can only be charged by generator/storage boxes that can only be ≥ this energy level, so do not worry about the tools or equipment explosion.

The tutorial is over here. If you have any questions, you can comment in the comment area.