Example of continuous use of various beam [CR] Minecraft Game

2024-12-10 17:53:32|Myriagame |source：minecraft skins

The beam produces part of the reference to another guide, which is very stable

This tutorial is an extension and mixed with the permanent beam of production. For example, the pouring injection device in this module needs to provide a time beam.

Time beams have a simple ratio. Red: Green grid is equal to 3: 1, which can generate time beams. Here, the goal is to generate a stable time beam of 32 power, which requires 24 power red+8 power green.

In order to separate various color beams from the permanent motion system, two squares can be used here: beam division and beam siphon.(See Encyclopedia for specific functions) This time the beam siphon is used, and the circuit of Essentials is used to achieve accurate numerical output.

First of all, replace the reflex of the permanent mobilization device with a siphon, and the mirror surface faces the mirror after the state is not turned on.

The circuit wiring board is changed to a constant circuit with a wrench (the fifth row in the first row, the well standard), and the green and blue are also set (but the blue is not available for the time being)

Then it involves a vacancies during the beacon. Because it is uniformly moved in the color gamut throughout the entire cycle, a certain color will be 0 for a period of time. Therefore, you need to use a quartz stabilizer for beam storage.

For the green beam, due to its output power 8, a quartz stabilizer cache 1000+ light beam is enough to support a gap period.The total power is far greater than the output, and the power greater than 8 can be i> O. It is the queen stabilizer to charge the energy to achieve extra cache). The output of the quartz cache below is 8.

After the beam, use a multimeter to see the quartz stabilizer to see the amount of the cache (the blue word above, the value of the PO)

For the 24 power required by red, the actual test of a quartz stabilizer is not enough to maintain the whole process, so there are two solutions.

The first is to run in series, which can be barely maintained for power 24.Two quartz stabilizers in the serial, the latter power is 64, the first 32 can be.

Note that the red output obtained in this way is 32 power, and it is also necessary to adjust to 24 power with siphon or segments.

The second scheme has a larger storage amount, and it can be extended

Because beams flow at the time level, there is a disadvantage in the connection method, so it is changed to parallel. The picture is 2 parallel storage, the rear row is set to 16 power, the front row is set 32, which can store 2000+ beams.(Note that if the siphon is divided into a beam, the circuit at the top is twice the following, such as the above 100, the following is 50)

Because the generated beams are excessive, the problem is only on storage. Using multiple siphons with stabilizers can increase the total storage reserves, such as 4 (basically 4 are enough for various situations, how messy is it))

Remember to adjust the energy of the siphon and decrease.

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