KR20170021044A - The mixture for electrostatic induction semiconductor for the quick charger - Google Patents

Abstract

The smartphone battery uses a lithium polymer battery, which takes a long time to charge. If the battery is charged rapidly to overcome the problem, the battery life may be shortened due to battery damage. Though largely reported in recent news, German experiments have shown that fast charging significantly shortens battery life.
We are trying to overcome these problems and develop a new rapid charging technology that does not cause any battery damage while achieving quick charging (charging within 30 minutes).
It is a new technology that induces the excited state by activating the energy level of the charge by generating the electromagnetic field of constant frequency instead of the method of raising the voltage like the conventional rapid charging, thereby helping to be charged quickly. This is a new technology that does not affect the battery life at all and does not cause any damage to the battery.
The effect of the "mixed composition for making semiconductor for rapid charger without battery damage" according to the present invention is summarized as follows.
First, since it is not a method using voltage, it does not affect battery life at all and there is no battery damage at all.
Second, it forms a low-frequency electromagnetic field, minimizing power consumption and contributing to energy savings.
Third, it is a new technology commercialized by using the principle that the energy level of the charge is activated at a certain range of frequencies and the charge movement is activated.
Fourth, the convenience of smartphone users can be improved by quick charging.
Fifth, quick charging minimizes leakage current loss during charging, which can contribute to energy saving when viewed nationwide.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a composition for fabricating a semiconductor for a quick charger,

The present invention relates to a mixed composition for fabricating a semiconductor for rapid charger free from battery damage, and a rapid charge without battery damage, which can be used in a rapid charger for a smartphone.

It has the advantage of more safe and precise control when the rapid charger is controlled through semiconductor.

The smartphone battery uses a lithium polymer battery, which takes a long time to charge. If the battery is charged rapidly to overcome the problem, the battery life may be shortened due to battery damage.

Though largely reported in recent news, German experiments have shown that fast charging significantly shortens battery life.

To overcome these problems, we need a new fast-charge new technology that can quickly charge (charge in 30 minutes) while not damaging the battery.

▶ Smartphone Charger Market Status (Worldwide)

As of May 2014, more than 5 billion mobile phones have been deployed around the world, with a population of around 6.8 billion, which is a very high penetration rate. It is 7 times as much as 2000 (about 720 million units). Considering the fact that the second handset is already being deployed in Europe, the era of one-hand phone is expected to come soon.

* Rationale: [2014 Boston Consulting Group (BCG) Presentation Materials]

▶ SWOT Analysis of Smartphone Rapid Charging Technology

▶ Smart device market size (by shipment volume)

▶ Smartphone Charger Market Status (Japan)

- The Japanese rapid charger module market in 2103 will increase by 14.3% from 2012 to 800 million yen.

- With the growth of smart phones, tablet PCs, and various mobile devices,

- Japan's rapid charger market will grow by 96.1 times in 2015 to 67.3 billion yen

* Rationale: [2014 Boston Consulting Group (BCG) Presentation Materials]

▶ Formation of energy saving market through rapid charging (domestic)

Status and Goals of Core Technology Development in Energy New Industry

- As can be seen from the above chart, domestic "energy efficiency maximization" through "electric power IT" is a big national goal. This rapid charging technology can safely contribute to the national interest by increasing the national interest, protecting the environment and preventing the climate change by minimizing the leakage loss due to the long charging time through rapid charging without damaging the battery.

Korean Patent Publication No. 10-2001-0060225 (July 2006) KR Patent Publication No. 10-2014-0101840 (Aug. 20, 2014)

The smartphone battery uses a lithium polymer battery, which takes a long time to charge. If the battery is charged rapidly to overcome the problem, the battery life may be shortened due to battery damage. Though largely reported in recent news, German experiments have shown that fast charging significantly shortens battery life.

We are trying to overcome these problems and develop a new rapid charging technology that does not cause any battery damage while achieving quick charging (charging within 30 minutes).

It is a new technology that induces the excited state by activating the energy level of the charge by generating the electromagnetic field of constant frequency instead of the method of boosting the voltage like the conventional rapid charge, thereby helping to be charged quickly. This is a new technology that does not affect the battery life at all and does not cause any damage to the battery.

The effect of the "mixed composition for making semiconductor for rapid charger without battery damage" according to the present invention is summarized as follows.

First, since it is not a voltage-based system, it does not affect battery life at all and does not cause any damage to the battery.

Second, since it forms a low frequency electromagnetic field, power consumption can be minimized, contributing to energy saving.

Third, the new technology developed by using the principle that the energy level of the charge is activated at a certain range of frequency and the charge movement is activated

Fourth, convenience of smartphone users by quick charging

Fifth, quick charging minimizes leakage current loss during charging, contributing to energy saving when viewed nationally.

&Quot; According to the present invention, "a mixed composition for making a semiconductor for rapid charger without battery damage is divided into a base material and an auxiliary material.

The basic material of the " mixed composition for making a semiconductor for rapid charger without battery damage "according to the present invention is" Galvinite, Porphyry, Rubusite, ornamental stone ", and its composition ratio is described in Table 1 below.

The auxiliary material of the " mixed composition for making a semiconductor for rapid charger without battery damage "according to the present invention is" Conglomerate, Sodalite, Muscle Night ", and its specific composition ratio is described in Table 1 below.

The constituent materials of the "mixed composition for making semiconductor for rapid charger without battery damage" according to the present invention will be described in detail as follows.

Allanite is a monoclinic mineral that belongs to the monoclinic system together with mica and amphibole. It is produced from pegmatite, schist, gneiss, and magnetite ore.

The chemical composition is (Ca, Ce) 2 (FeII, FeIII) Al2 (OH) Si3O12, which is a kind of epoxide containing cerium. It is a columnar crystal extending sideways, but it often forms granular or lumpy crystals. Hardness 6, specific gravity 4.5. It is opaque with dark brown and black color, and cleavage is unclear. It is contained as a sub ingredient in granite and is produced in pegmatite. In addition, it is calculated from schist, gneiss, and magnetite ore.

Epidote is a monoclinic mineral, the most common denatured mineral. It is mostly produced from basic contact metamorphic rocks and crystalline rocks, and is used as decorative stone. Stiffness is 6 ~ 7, specific gravity is 3.3 ~ 3.5, green, black green, yellowish green. It is also called an epidote. The chemical composition is Ca2FeAl3Si3O12. It forms columnar or acicular crystals, many of which are granular and lumpy. Hardness 6 ~ 7, specific gravity 3.3 ~ 3.5. The cleavage is complete on the underside, and somewhat clear on the positive axis. Green, black green, yellow green. Glassy or faty. The streak color is white and the refractive index is 1.7 to 1.83. The most common denatured minerals are mostly found in basic contact metamorphic rocks and crystalline schists. It is used as decorative stone.

Piedmontite is a minerals belonging to a monoclinic system having a crystal structure like mica, in which most of the iron in the epidote is replaced by manganese.

The chemical composition is HCa2 (Mn, Fe) Al2Si3O13. And form columnar or needle-shaped crystals. Hardness of 6.5 and specific gravity of 3.4. The cleavage is perfect in [001]. Hermit is red or reddish brown and has a glass shine. Streak color is light pink. It is calculated mainly as a fraction of crystalline schist, and it is also calculated from pegmatite, the part that has undergone initial alteration of igneous rocks, and metamorphosed nose deposits. Manganese content is low at low temperature.

Ornamental stone is a kind of ornamental minerals and rocks other than jewels, and most minerals and rocks are used for this purpose because there is no demanding condition. Semi-precious stones may be included here. Most minerals or rocks are used for this purpose because there are no demanding conditions like jewelry. As a substitute for jewelery, there are crystal, dense and translucent pyrophyllite as crystals, agate, moonstone, jade, hematite, pumpkin and talcum which are used in rings and other small ornaments. In addition, jinja and jasper are used as handicrafts. Marble, limestone, and serpentine are used for medium and large crafts and decorations. Civil and architectural stone requires considerable pressure resistance and heat resistance, and many igneous rocks such as granite are used.

Zoisite is an orthotropic mineral with a crystal structure similar to that of olivine, and is also called a zoysite. The color is grayish-white, yellowish-red, and reddish-pink. Also known as Joey site. The chemical composition is Ca2Al3 (SiO4) (Si2O7) O (OH). Contains a small amount of iron. Columnar or fibrous crystals having a hardness of 6 to 6.5 and a specific gravity of 3.2 to 3.4. The cleavage is complete in [100], and the streak color is white. It is grayish-white or yellowish-brown, but sometimes it has a beautiful reddish-brown color and is used as an ornamental stone. Basic tuff, calcareous sedimentary rocks originating from the metamorphic rocks.

Sodalite is a mineral belonging to equiaxed crystal system. The crystals are not well visible, the hardness is 5.5 ~ 6, the specific gravity is 2.1 ~ 2.3, the color is royal blue, colorless, gray green, and light pink. It is produced from alkaline volcanic rocks and plutonic rocks, and is used for decorative purposes. It is also called bansodachi. The chemical composition is Na8Al6Si6O244Cl2. It does not represent a crystal form well, and in most cases it forms a mass or granular aggregate. Hardness of 5.5 to 6.0 and specific gravity of 2.1 to 2.3. There are a lot of translucent in the royal blue color and sometimes it is colorless, grayish green, light pink. Streak color is colorless, and there is glass gloss or fat gloss. It dissolves in hydrochloric acid and emits glutinous silicic acid. It is produced from alkaline volcanic rocks or plutonic rocks. It produces a beautiful dark blue lump of syenite rocks such as Bengbu Mountain in Gangwon Province and Ontario in Canada. It is used as decorative stone.

Euxenite belongs to the orthorhombic system and is a highly radioactive mineral with complex chemical composition. It has a hardness of 5.5 ~ 6.5, a specific gravity of 5, a dark brown color, and streak color is gray or reddish brown. It is produced from pegmatite or sandstone. The chemical composition is (Y, Ce, U, Pb, Ca) (NB, Ta, Ti) ₂ (O, OH) It is a radioactive mineral with complex composition and may contain various other elements. Plate-like or columnar crystals are formed, but they are often granular or small-sized. A hardness of 5.5 to 6.5, and a specific gravity of about 5. There is no cleavage, and it represents the upper shell of the shell. It is black and opaque. The fresh fracture surface has a metallic shine, sometimes with glass shine or resin shine. The streak color is yellow or reddish brown. It is highly radioactive. Pegmatite or stones (sandstone).

[Table 1] shows the composition ratio of the above-mentioned materials composed of the "composition for making semiconductor for rapid charger without battery damage ".

The above composition ratio is a result of finding the most suitable golden ratio through repeated experiment. The basic material according to the above composition ratio is the main material that forms the basis of "a mixed composition for manufacturing a semiconductor for a rapid charger without battery damage", and the auxiliary material is added to the basic material so as to "manufacture a semiconductor for rapid charger Quot; mixed composition for "

Claims (1)

"Allanite 4-6 wt%, Epidote 4-6 wt%, Piedmontite 18-22 wt%, Ornamental stone 27-33 wt%" A mixture of 'basic material' and 'auxiliary material' consisting of 18-22 wt% of Zoisite, 4-6 wt% of sodalite and 13-17 wt% of Euxenite ' Mixed composition for making semiconductor for rapid charger without battery damage. "