阅读说明：本技术 一种发动机管理芯片的制作工艺 (Manufacturing process of engine management chip ) 是由 罗家仔 罗成 于 2021-08-25 设计创作，主要内容包括：本发明公开了一种发动机管理芯片的制作工艺,所述发动机管理芯片的制作工艺如下所示：步骤1、准备材料铝片；步骤2、经过晶圆代工将铝片制作成强磁超导体片；步骤3、使用电子元素涂面形成存储面；步骤4、存储面形成后,便得到超导体铝片；步骤5、进行激光生物照射,并冷却；步骤6、冷却后,使用光电醇、铁元素进行涂面,激光生物片制作而成；本发明制作方法简单,便于操作,操纵单个粒子的同时,又保持其量子性质；本发明制作成本很低,节约大量的资源；本发明设计合理,值得大力推广。(The invention discloses a manufacturing process of an engine management chip, which comprises the following steps: step 1, preparing an aluminum sheet; step 2, manufacturing an aluminum sheet into a strong magnetic superconductor sheet through wafer replacement; step 3, coating the surface by using the electronic element to form a storage surface; step 4, after the storage surface is formed, obtaining a superconductor aluminum sheet; step 5, performing laser biological irradiation and cooling; step 6, after cooling, coating surfaces with photoelectric alcohol and iron elements, and manufacturing the laser biological sheet; the preparation method is simple and convenient to operate, and the quantum property of the single particle is maintained while the single particle is controlled; the invention has low manufacturing cost and saves a large amount of resources; the invention has reasonable design and is worth popularizing.)

1. A manufacturing process of an engine management chip is characterized by comprising the following steps: the manufacturing process of the engine management chip is as follows:

step 1, preparing an aluminum sheet;

step 2, manufacturing an aluminum sheet into a strong magnetic superconductor sheet through wafer replacement;

step 3, coating the surface by using the electronic element to form a storage surface;

step 4, after the storage surface is formed, obtaining a superconductor aluminum sheet;

step 5, performing laser biological irradiation and cooling;

and 6, cooling, coating the surface with photoelectric alcohol and iron elements, and manufacturing the laser biological sheet.

2. The process of claim 1, wherein the step of manufacturing the engine management chip comprises the steps of: the laser biological irradiation is carried out twice in the step 5.

3. The process of claim 1, wherein the step of manufacturing the engine management chip comprises the steps of: the thickness of the laser biological piece in the step 6 is 0.8 mm.

Technical Field

The invention relates to the technical field of chip manufacturing processes, in particular to a manufacturing process of an engine management chip.

Background

With the improvement of living standard, people's consciousness on natural resources and global climate change is gradually increased. In this context, small-sized engines have come from the transition from mechanical control systems to electronic control systems. In many developing countries, single cylinder internal combustion engines are commonly used in conventional small vehicles, such as widely used automobiles. In addition, in the fields of gardening tools, underwater equipment, lithium electric lamps, generator sets and the like, the small internal combustion engine is also an important component, and a power interface is established between a microcontroller and an actuator by a small engine management product, so that a modern electronic control system is realized. The existing engine management chip has a complex manufacturing process and an overlarge manufacturing cost.

Therefore, an engine management chip with simple manufacturing process and low manufacturing cost is a problem to be solved urgently.

Disclosure of Invention

The invention aims to solve the technical problems that the existing engine management chip is relatively complex in manufacturing process and too high in manufacturing cost.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: a manufacturing process of an engine management chip comprises the following steps:

step 1, preparing an aluminum sheet;

step 2, manufacturing an aluminum sheet into a strong magnetic superconductor sheet through wafer replacement;

step 3, coating the surface by using the electronic element to form a storage surface;

step 4, after the storage surface is formed, obtaining a superconductor aluminum sheet;

step 5, performing laser biological irradiation and cooling;

and 6, cooling, coating the surface with photoelectric alcohol and iron elements, and manufacturing the laser biological sheet.

Further, in the step 5, the laser is irradiated twice.

Further, the thickness of the laser biological piece in the step 6 is 0.8 mm.

Compared with the prior art, the invention has the advantages that: the method adopts an aluminum sheet as a raw material, prepares the aluminum sheet into a strong magnetic superconductor sheet through wafer substitute work, coats a surface with an electronic element to form a storage surface, performs laser biological irradiation, and coats the surface with photoelectric alcohol and an iron element after cooling to prepare a laser biological sheet; the prism sheet can be assembled into lithium battery light, before the prism sheet is arranged on the lithium battery light, a semiconductor chip is irradiated by the lithium battery light to form a 14-nanometer finished chip, and a 14-nanometer semiconductor chip forms an engine chip; the preparation method is simple and convenient to operate, and the quantum property of the single particle is maintained while the single particle is controlled; the invention has low manufacturing cost and saves a large amount of resources; the invention has reasonable design and is worth popularizing.

Detailed Description

The manufacturing process of the engine management chip of the invention is further explained in detail.

A manufacturing process of an engine management chip comprises the following steps:

step 1, preparing an aluminum sheet;

step 2, manufacturing an aluminum sheet into a strong magnetic superconductor sheet through wafer replacement;

step 3, coating the surface by using the electronic element to form a storage surface;

step 4, after the storage surface is formed, obtaining a superconductor aluminum sheet;

step 5, performing laser biological irradiation and cooling;

and 6, cooling, coating the surface with photoelectric alcohol and iron elements, and manufacturing the laser biological sheet.

The laser biological irradiation is carried out twice in the step 5.

The thickness of the laser biological piece in the step 6 is 0.8 mm.

The specific implementation process of the manufacturing process of the engine management chip comprises the following steps: preparing an aluminum sheet, preparing the aluminum sheet into a strong magnetic superconductor sheet by wafer substitution, coating the surface with an electronic element to form a storage surface, obtaining the superconductor aluminum sheet after the storage surface is formed, performing laser biological irradiation, cooling, coating the surface with photoelectric alcohol and an iron element after the cooling, and preparing the laser biochip.

The method adopts an aluminum sheet as a raw material, manufactures the aluminum sheet into a strong magnetic superconductor sheet through wafer substitute work, coats a surface with electronic elements to form a storage surface, performs laser biological irradiation, and coats the surface with photoelectric alcohol and iron elements after cooling to manufacture a laser biological sheet; the prism sheet can be assembled into lithium battery light, before the prism sheet is arranged on the lithium battery light, a semiconductor chip is irradiated by the lithium battery light to form a 14-nanometer finished chip, and a 14-nanometer semiconductor chip forms an engine chip; the preparation method is simple and convenient to operate, and the quantum property of the single particle is maintained while the single particle is controlled; the invention has low manufacturing cost and saves a large amount of resources; the invention has reasonable design and is worth popularizing.

The invention and its embodiments have been described above, without this being limitative. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.