Mobile terminal and battery cover

The present disclosure discloses a mobile terminal and a battery cover of mobile terminal, the battery cover of mobile terminal includes a main control circuit, a power management circuit, a touch circuit and an e-Ink; wherein the main control circuit, the power management circuit and the touch circuit are connected to the e-Ink respectively; the main control circuit and the power management circuit are connected to the mobile terminal respectively; the main control circuit is connected to the touch circuit; the power management circuit is configured to supply power to the e-Ink; the touch circuit is configured to receive a screen changing operation of the e-Ink; and the main control circuit is configured to receive data from the touch circuit, communicate with the mobile terminal and display contents of communication on the e-Ink.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a 35 U.S.C. § 371 National Phase conversion of International (PCT) Patent Application No. PCT/CN2017/080067 filed Apr. 11, 2017, which claims foreign priority of Chinese Patent Application No. 201610976723.4, filed on Nov. 4, 2016 in the State Intellectual Property Office of China, the contents of all of which are hereby incorporated by reference.

TECHNICAL FIELD

Embodiments of the present disclosure generally relate to mobile terminal technology, and specifically relate to a mobile terminal and a battery cover.

BACKGROUND

At present, LCD or AMOLED is used as a display screen of smart phone in the market, the LCD or AMOLED is an active light-emitting device with high power consumption, and is one of the main power consumption devices of the smart phone, which affects battery life of the smart phone seriously. An LCD or AMOLED screen has high brightness, light emitted by which would stimulate eyes seriously. Using the smart phones for long time would lead to eye fatigue easily, and even cause loss of vision. The backlight projection design of the screen of the smart phones would also make it difficult for user to read under the strong light, and would lead to perspective restrictions.

SUMMARY

The present disclosure provides a mobile terminal and a battery cover to solve technical problems of high power consumption, high brightness, difficulty in reading under the strong light and having perspective restrictions of the screen of smart phone.

In order to solve the above-mentioned problems, a technical scheme adopted by the present disclosure is to provide a battery cover of mobile terminal, including a main control circuit, a power management circuit, a touch circuit, a timing controller circuit, an e-Ink and a storage circuit; wherein the power management circuit, the touch circuit and the timing controller circuit are connected to the e-Ink respectively; the main control circuit and the power management circuit are connected to the mobile terminal respectively; the touch circuit, the timing controller circuit and the storage circuit are connected to the main control circuit respectively; the power management circuit is a battery connector and is configured to supply power to the e-Ink; the touch circuit is configured to receive a screen changing operation of the e-Ink; the main control circuit is configured to receive data from the touch circuit, communicate with the mobile terminal and drive the e-Ink to display contents of communication via the timing controller circuit; and the storage circuit is configured to store information processed by the main control circuit.

Another technical scheme adopted by the present disclosure is to provide a battery cover of mobile terminal including a main control circuit, a power management circuit, a touch circuit and an e-Ink; wherein the main control circuit, the power management circuit and the touch circuit are connected to the e-Ink respectively; the main control circuit and the power management circuit are connected to the mobile terminal respectively; the main control circuit is connected to the touch circuit; the power management circuit is configured to supply power to the e-Ink; the touch circuit is configured to receive a screen changing operation of the e-Ink; and the main control circuit is configured to receive data from the touch circuit, communicate with the mobile terminal and display contents of communication on the e-Ink.

Another technical scheme still adopted by the present disclosure is to provide a mobile terminal including a terminal body and the battery cover of above-mentioned.

Compared with the prior art, the battery cover of the present disclosure has low power consumption because the e-Ink does not consume power at the time when user is reading, but consumes power only when the page is refreshed. The e-Ink looks more like the printed text so that the eyes would be more relaxed. The e-Ink has a large viewing angle and is visible under strong light, which may enhance users' reading experience.

DETAILED DESCRIPTION

The technical schemes described in the embodiments of the present disclosure will now be described clearly and completely in conjunction with the accompanying drawings in the embodiments of the present disclosure. Apparently, the described embodiments are only part of the embodiments of the disclosure and are not intended to be exhaustive. All of other embodiments obtained by those ordinary skilled in the art based on embodiments in the present disclosure without making creative work are within the scope of the present disclosure.

Referring toFIG. 1, a schematic diagram of the structure of a battery cover of a mobile terminal according to a first embodiment of the present disclosure is depicted.

As shown inFIG. 1, the battery cover100may include a main control circuit110, a power management circuit120, a touch circuit130and an e-Ink140.

In one embodiment, the main control circuit110, the power management circuit120and the touch circuit130may be connected to the e-Ink140respectively; the main control circuit110and the power management circuit120may be connected to the mobile terminal10respectively. The main control circuit110may be connected to the touch circuit130. The power management circuit120may be configured to supply power to the e-Ink140. The touch circuit130may be configured to receive a screen changing operation of the e-Ink140, the screen changing operation may include turning pages, backing and returning to home page etc. The main control circuit110may be configured to receive data from the touch circuit130, communicate with the mobile terminal10and display contents of communication on the e-Ink140so that the e-Ink140can be another display screen of the mobile terminal10. In this embodiment, main body of the battery cover100may define a cavity, in which the e-Ink140may be fitted.

The battery cover100of the present disclosure has low power consumption because the e-Ink140does not consume power at the time when user is reading, but consumes power only when the page is refreshed. The e-Ink140looks more like the printed text so that the eyes would be more relaxed. The e-Ink140has a large viewing angle and is visible under strong light, which may enhance users' reading experience.

In one embodiment, the main control circuit110may be connected to the mobile terminal10through a Serial Peripheral Interface SPI or BLUETOOTH BT, through which data is transmitted between the main control circuit110and the mobile terminal10. The main control circuit110may be connected to the touch circuit130through a Serial Peripheral Interface SPI or an I2C bus. The main control circuit110may be connected to the e-Ink140through a Serial Peripheral Interface SPI.

Particularly, the main control circuit110may be connected to the touch circuit130, the e-Ink140and the mobile terminal10through the Serial Peripheral Interface SPI. The Serial Peripheral Interface (SPI) is a high-speed, full-duplex, synchronous communication bus, and only requires four lines for data transmission, which can save the number of chip pins. The Serial Peripheral Interface SPI has well commonality, such that the Serial Peripheral Interface could be compatible with all kinds of chips. The four lines may include a power line VBAT, a ground GND, a transmission line SPI and an identification line ID, the identification line ID could identify the installation or disassembly between the battery cover and the mobile terminal automatically. The battery cover100could also be replaced according to requirement.

The main control circuit110may also be wirelessly connected to the mobile terminal10through BLUETOOTH, which could further reduce the number of chip pins, and only three lines could realize data transmitting. The three lines may include the power supply line VBAT, the ground GND and the identification line ID, while the transmission lines SPI is not needed. The main control circuit110may also be connected to the touch circuit130through an I2C bus. The I2C bus has a two-way, two-wire, serial, and multi-master interface standard, which is suitable for short distance data communication and non-recurrent data communication between devices.

The power management circuit120may be a battery connector such as a test probe or a spring pin. The mobile terminal10may supply power to the e-Ink140through the battery connector so that the battery cover100does not require an additional battery, which could reduce cost and thickness.

In this embodiment, the power management circuit120may be a separate electronic component, while in other embodiments, the power management circuit may also be a sub-circuit of the main control circuit, and the main control circuit controls the power management circuit to supply power to the e-Ink.

Referring toFIGS. 2 to 3, a schematic diagram of the structure of a battery cover according to a second embodiment of the present disclosure and a schematic diagram of the process structure of a battery cover according to the second embodiment of the present disclosure are depicted.

As shown inFIG. 2, the battery cover200may further include a touch screen250adhered on the e-Ink240by adhesive material202(as shown inFIG. 3), and the touch screen250may be connected to the touch circuit230to touch and control the screen changing of the e-Ink240.

As shown inFIG. 3, the battery cover200may include a housing201, which may be integral or composed of different components. The housing201may define a cavity203in which the e-Ink240is embedded. The touch screen250is adhered on the e-Ink240by optical clear adhesive OCA and the gap between the touch screen250and the housing201may be sealed through dispensing process, which could effectively protect the e-Ink240. Material of the touch screen250may be PMMA, glass or other transparent materials, so that the function of touch control and protection could be realized.

In this embodiment, the screen changing operation of the e-Ink240is realized by touching the touch screen250. The touch circuit230may be a separate touch chip of the touch screen which is connected to the main control circuit210to realize communication through the Serial Peripheral Interface SPI or I2C bus.

In one embodiment, the adhesive material may be optical clear adhesive OCA or optical clear resin OCR. Particularly, the optical clear adhesive OCA has characteristics of colorless and transparent, light transmittance over 90%, good bonding strength, being cured at room temperature or medium temperature and small curing shrinkage; the optical clear resin OCR is special adhesive designed for bonding transparent optical components and can fill the gap between a panel, a transparent protective layer and an LCD module to improve the contrast of display, and is suitable for fitting and assembling the touch screen, the large-size glass substrate or other soft and hard board.

Thickness of the adhesive material may range from 0.025 mm to 0.300 mm. Furthermore, the thickness of the adhesive material may range from 0.100 mm to 0.200 mm. In one embodiment, the thickness of the adhesive material may be 0.125 mm.

In other embodiments, the battery cover200may further include a storage circuit260connected to the main control circuit210for storing information processed by the main control circuit210. The main control circuit210may generally require a certain amount of memory for caching E-books, pictures or other data, when abundant data is needed to be cached, adding a Flash could expand memory.

Referring toFIG. 4, a schematic diagram of the structure of a mobile terminal battery cover according to a third embodiment of the present disclosure is depicted.

As shown inFIG. 4, the battery cover300may include a main control circuit310, a power management circuit320, a touch circuit330, a timing controller circuit370and an e-Ink340. The power management circuit320, the touch circuit330and the timing controller circuit370may be connected to the e-Ink respectively. The main control circuit310and the power management circuit320may be connected to the mobile terminal10respectively. The touch circuit330and the timing controller circuit370may be connected to the main control circuit310respectively. The touch circuit330may be configured to receive a screen changing operation of the e-Ink340; the main control circuit310may be configured to receive data of the touch circuit330, communicate with the mobile terminal10and drive the e-Ink340to display communication content via the timing controller circuit370.

The battery cover300in this embodiment is suitable for an e-Ink340larger than 3.5 inches. Processing capacity of the e-Ink340larger than 3.5 inches is not enough to process the required large amount of data, therefore the timing controller circuit370is required to drive the e-Ink340to display. The other structures are the same as those of the above embodiment, and will not be described again.

Referring toFIG. 5, a schematic diagram of the structure of a mobile terminal according to an embodiment of the present disclosure is depicted.

As shown inFIG. 5, the mobile terminal10may include a terminal body20and one of the battery cover in the above-described embodiments. In one embodiment, the battery cover100and the terminal body20are separate components which could be disassembled and replaced according to demand.

The e-Ink of the battery cover100can project information such as two-dimensional code, individual picture, memo and so on.

The structure of the battery cover100can be referred to the embodiments above and will not be described herein.

In summary, it will be readily appreciated by those skilled in the art that the battery cover provided by the present disclosure has low power consumption because the e-Ink does not consume power at the time when user is reading, but consumes power only when the page is refreshed. The e-Ink looks more like the printed text so that the eyes would be more relaxed. The e-Ink has a large viewing angle and is visible under strong light, which may enhance users' reading experience.

The above-mentioned is merely an embodiment of the present disclosure and is not intended to limit the scope of the invention, and any equivalent structure or equivalent process transformation using the present specification and the accompanying drawings directly or indirectly applied in other related technical fields are included within the scope of the patent protection of the present disclosure.