WO2012055345A1

WO2012055345A1 - Mobile terminal and method for changing color of mobile terminal

Info

Publication number: WO2012055345A1
Application number: PCT/CN2011/081229
Authority: WO
Inventors: 潘亚君
Original assignee: 华为终端有限公司
Priority date: 2010-10-25
Filing date: 2011-10-25
Publication date: 2012-05-03
Also published as: CN101969503A

Abstract

Disclosed is a method for changing the color of the appearance of a mobile terminal, which comprises: obtaining a triggering signal; obtaining a coloring voltage signal according to the triggering signal, the coloring voltage signal comprising at least two separate voltage signals; actuating, according to the coloring voltage signal, illumination by at least two electrochromic lines of differing color, each electrochromic line receiving a corresponding voltage of the coloring voltage signal. Also disclosed is a mobile terminal using this method. The terminal provides a separate voltage for each electrochromic line, and the voltage size is related to the trigger signal. Thus, each electrochromic line can emit light of varying brightness when actuated by different triggering signals, and electrochromic lines of different colors can produce different colors having different levels of brightness. In this way, the color of the appearance of the mobile terminal can be easily changed when the mobile terminal has a transparent shell or when the electrochromic lines are disposed on the exterior of the mobile terminal.

Description

Method for discoloration of mobile terminal and mobile terminal This application claims priority to Chinese patent application filed on October 25, 2010, the Chinese Patent Office, Application No. 201010516952.0, entitled "A Method for Color Change of Mobile Terminals and Mobile Terminals" The entire contents of which are incorporated herein by reference.

Technical field

The invention relates to a communication device, in particular a mobile terminal. Background technique

At present, the outer casing of mobile devices such as mobile phones is generally beautified by the porcelain and painting process, and the color is fixed, relatively rigid, lacking in dynamic and vitality. With the rich functions of the mobile terminal devices and the improvement of the aesthetic level, users have higher requirements on the appearance of mobile terminal devices, such as mobile phones in mobile terminal devices, such as Sony Ericsson W580c, Nokia 7610, Panasonic VS3, etc. The user is equipped with a replaceable color housing, commonly known as the "color phone." The user can replace the color housing of various colors. The replacement of the housing is already a common configuration of the mobile phone, but this replacement of the housing is cumbersome and wasteful. Summary of the invention

Embodiments of the present invention provide a method for changing the appearance of a mobile terminal and a mobile terminal, so that the color of the appearance of the mobile terminal can be easily changed.

In order to solve the above technical problem, the present invention provides a method for changing the appearance of a mobile terminal, comprising: obtaining a trigger signal; obtaining a color matching voltage signal according to the trigger signal, the color matching voltage signal comprising at least two independent voltage signals; driving at least two according to the color matching voltage signal The electrochromic lines of different colors emit light, and each electrochromic line receives a corresponding voltage in the color matching voltage signal.

The embodiment of the present invention further provides a mobile terminal, including an information unit, configured to obtain a trigger signal, and a processing control unit, configured to receive a trigger signal of the information unit to obtain a color matching voltage signal, where the color matching voltage signal includes at least two independent voltage signals; The electrochromic unit comprises at least two electrochromic lines of different colors, each of which receives a corresponding one of the color matching voltage signals and emits light. Compared with the prior art, the present invention provides at least two electrochromic lines of different colors in the mobile terminal, and provides an independent voltage to each electrochromic line, and the magnitude of the voltage is associated with the trigger signal, so that each strip The electrochromic line can emit light of different brightness under different trigger signals, and different color electrochromic lines will be configured with different colors under different brightness, and the light transmissive or electrochromic line is set in the mobile terminal housing. The appearance of the terminal can be easily changed when the terminal is external. DRAWINGS

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description For some embodiments of the present invention, other drawings may be obtained from those skilled in the art without departing from the drawings.

1 is a structural block diagram of a specific embodiment of the present invention; and FIG. 2 is a flow chart of a specific embodiment of the present invention.

detailed description

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments.

As shown in FIG. 1 , a mobile phone provided by an embodiment of the present invention includes:

The information unit 10 is configured to obtain a trigger signal such as temperature/brightness intensity;

The processing control unit 20 is configured to receive a trigger signal of the information unit to obtain a color matching voltage signal, where the color matching voltage signal includes at least two independent voltage signals. In this embodiment, the RGB voltage signal includes an R channel voltage signal, a G channel voltage signal, and B channel voltage signal;

The electrochromic unit 30 includes at least two electrochromic lines of different colors, each of which receives a corresponding voltage in the color matching voltage signal and emits light, and the light emitted by each electrochromic line is mixed to prepare a corresponding The color of the electrochromic line is also brighter according to the greater the received voltage signal. In this embodiment, red, yellow, and blue electrochromic lines are included, and the R voltage signals, the G voltage signals, and the B voltage signals of the RGB voltage signals are respectively received to emit light of different brightness. The red, yellow, and blue electrochromic lines above may be red, yellow, and blue transparent materials, such as red, yellow, and blue transparent plastic packaging materials, respectively, outside the same type of electrochromic lines. The above three electrochromic lines form a group, different colors can be combined under different brightness, a set of electrochromic lines can be arranged in parallel, and the electrochromic unit can comprise one or more sets of electrochromic lines.

The information unit 10 includes an induction module for sensing an analog signal such as temperature/brightness and temperature

Conversion module for converting analog signals such as light intensity into digital signals. The digital signal here is a trigger signal. The sensing module may be one or more of a temperature sensor for sensing temperature, a brightness intensity sensor for sensing bright intensity, an odor sensor for sensing a special odor, and a humidity sensor for sensing humidity. The conversion module can be an A/D conversion module.

The processing control unit 20 includes a query module and a color change driving module. The query module is configured to store a correspondence table between the digital signal and the color matching voltage signal (the RGB voltage signal in this embodiment), and after receiving the digital signal transmitted by the information unit, according to the The digital signal query obtains a corresponding color matching voltage signal (the RGB voltage signal in this embodiment); and the color changing driving module is configured to receive the color matching voltage signal (the RGB voltage signal in this embodiment), and then, to the electrochromic unit 30 Each of the electrochromic lines applies a corresponding voltage. The color change driver module can be a Qualcomm chip QSC, and the QSC can adjust the RGB three-way voltage through the GPI031 drive control interface.

The correspondence table between the digital signal stored by the query module and the color matching voltage signal may include a plurality of, for example, a correspondence table between the temperature digital signal and the color matching voltage signal, or a correspondence table between the light intensity digital signal and the color matching voltage signal, when transmitted from the information unit When the analog signal comes from the temperature sensor, the query module queries the correspondence table between the temperature digital signal and the color matching voltage signal; when the analog signal transmitted from the information unit is from the light intensity sensor, the query module queries the brightness intensity digital signal and the color matching voltage. Signal correspondence table. When the information unit includes multiple sensors, and the query module receives multiple analog signals from multiple sensors, the query module selects one of the analog signals to query the corresponding correspondence table to obtain a color matching voltage signal to be sent to the electrochromic unit 30. For example, when the query module receives the analog signal from the temperature sensor and the brightness intensity sensor at the same time, the query module arbitrarily selects one of the corresponding color matching voltage signals to send to the color changing driving module, and the color changing driving module is electrically connected according to the received color matching voltage signal. The color changing unit emits a color matching voltage.

The correspondence between the stored digital signal and the color matching voltage signal can be a true The fixed value can also be a range of values. For example, the corresponding relationship between the temperature digital signal and the color matching voltage signal may be a certain temperature digital signal value corresponding to one color matching voltage signal, or a temperature digital signal in a range of values corresponding to a color matching voltage signal, which is not limited herein.

For example, in the morning, because the temperature is lower, the temperature is 12 degrees, the analog signal obtained by the temperature sensor at 12 degrees is converted into a digital signal recognizable by the processing control unit 20 via the conversion module, and the processing control unit 20 is based on the digital signal reflecting 12 degrees. The color matching voltage signal is obtained. After the electrochromic unit 30 receives the color matching voltage signal, the red, yellow, and blue electrochromic lines respectively emit light of different intensities, and a pink corresponding to 12 degrees is prepared.

The phone case is close to the side opening of the temperature sensor, so that the temperature felt by the temperature sensor is as close as possible to the surrounding environment. The mobile phone may further comprise a housing permeable unit for transmitting light to the brightness intensity sensor or for transmitting light energy generated by the electrochromic unit when the brightness intensity sensor and the electrochromic unit 30 are within the terminal housing come out. The light transmissive unit of the outer casing may also be a light transmissive material having a simple material such as a transparent or translucent plastic. The outer casing of the whole mobile phone may be composed of a light transmissive unit of the outer casing, or a part of the outer casing of the mobile phone may be composed of a light transmissive unit of the outer casing, such as a side of the mobile phone, a top of the mobile phone, etc. The specific location, size, and material are limited.

In the embodiment of the present invention, the electrochromic unit 30 may be disposed on the outer side of the mobile phone case, for example, paralleled and fixed on the outside of the mobile phone case, or slotted on the outer side of the mobile phone case and embedded in the electrochromic unit 30.

As another embodiment of the present invention, the electrochromic line of the electrochromic unit may be a flexible material, and the mobile phone manufacturer can position the electrochromic line into different shapes with different modifications, including different patterns and characters. , to achieve cool, personalized effects. Mobile phone users can also place different shapes on the electrochromic lines that are placed on the housing, including different patterns and text. For example, different shapes and times in different moods and time provide users with a way to show their personality.

As another embodiment of the present invention, the information unit 10 includes an inductive module for sensing an analog signal such as temperature/brightness. The processing control unit 20 includes a conversion module, a query module, and a color change driving module. The conversion module is configured to convert an analog signal such as temperature/brightness intensity into a digital signal, and the query module is configured to store the digital signal and the color matching voltage signal (the RGB voltage in this embodiment) Correspondence of signals) After receiving the digital signal transmitted by the conversion module, the corresponding color matching voltage signal is obtained according to the digital signal query (the RGB voltage signal in this embodiment); the color changing driving module is configured to receive the color matching voltage signal (this embodiment) After the RGB voltage signal, a corresponding voltage is applied to each of the electrochromic lines of the electrochromic unit 30. The analog signal such as temperature/bright intensity here is a trigger signal. The sensing module may be one or more of a temperature sensor that senses temperature, a brightness intensity sensor that senses bright intensity, an odor sensor that senses a special odor, and a humidity sensor that senses humidity. The conversion module can be an A/D conversion module.

As shown in FIG. 2, a method for changing the appearance of a mobile phone according to an embodiment of the present invention includes: Step 101: Obtain a trigger signal;

Step 102: Obtain a color matching voltage signal according to the trigger signal, where the color matching voltage signal includes at least two independent voltage signals. In this embodiment, the color matching voltage signal is an RGB voltage signal, including an R channel voltage signal, a G channel voltage signal, and a B channel voltage signal. .

Step 103: Driving at least two electrochromic lines of different colors according to the color matching voltage signal, each electrochromic line receiving a corresponding voltage signal in the color matching voltage signal; each electrochromic line emitting light corresponding to the brightness, mixing After the preparation of different colors. In this embodiment, red, yellow, and blue electrochromic lines are included, and the R voltage signals, the G voltage signals, and the B voltage signals of the RGB voltage signals are respectively received to emit light of different brightness.

Step 101 may specifically include: sensing an analog signal such as temperature/brightness, and converting an analog signal such as temperature/brightness into a digital signal.

The obtaining a color matching voltage signal according to the trigger signal in step 102 may include: storing a correspondence table between the digital signal and the color matching voltage signal, and after receiving the digital signal, obtaining a corresponding color matching voltage signal according to the digital signal query. The correspondence table between the stored digital signal and the color matching voltage signal may include a plurality of, for example, a correspondence table between the temperature digital signal and the color matching voltage signal, or a correspondence table between the light intensity digital signal and the color matching voltage signal, when the analog signal is a temperature signal, Query the correspondence table between the temperature digital signal and the color matching voltage signal; when the analog signal is the bright intensity signal, query the correspondence table between the luminous intensity digital signal and the color matching voltage signal. When multiple analog signals are received, one of the color matching voltage signals is selected as the output color matching voltage signal.

As another embodiment of the present invention, step 101 may specifically include: sensing temperature/lighting intensity Analog signal. The obtaining the color matching voltage signal according to the trigger signal in step 102 may include: converting an analog signal such as temperature/bright intensity into a digital signal, storing a correspondence table between the digital signal and the color matching voltage signal, and after receiving the digital signal, according to the digital signal The query obtains the corresponding color matching voltage signal. The correspondence table between the stored digital signal and the color matching voltage signal may include a plurality of, for example, a correspondence table between the temperature digital signal and the color matching voltage signal, or a correspondence table between the light intensity digital signal and the color matching voltage signal, when the analog signal is a temperature signal, Query the correspondence table between the temperature digital signal and the color matching voltage signal; when the analog signal is the bright intensity signal, query the correspondence table between the luminous intensity digital signal and the color matching voltage signal. When multiple analog signals are received, one of the color matching voltage signals is selected as the output color matching voltage signal.

The method for changing the appearance of the mobile terminal and the appearance of the mobile terminal provided by the embodiment of the present invention is described in detail above. The description of the above embodiments is only for helping to understand the method and the idea of the present invention. Meanwhile, the general technology in the field In the following, the description of the present invention is not limited to the scope of the present invention.

A person skilled in the art can understand that all or part of the process of implementing the above method embodiments may be completed by using computer program related hardware, and the foregoing program may be stored in a computer readable storage medium, when executed, The foregoing steps include the steps of the foregoing method embodiments; and the foregoing storage medium includes: a medium that can store program codes, such as a ROM, a RAM, a magnetic disk, or an optical disk.

The above is only the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention. It should be covered by the scope of the present invention. Therefore, the scope of the invention should be determined by the scope of the appended claims.

Claims

Claim

A method for changing the appearance of a mobile terminal, comprising: obtaining a trigger signal; obtaining a color matching voltage signal according to the trigger signal, the color matching voltage signal comprising at least two independent voltage signals; driving at least two according to the color matching voltage signal The electrochromic lines of different colors emit light, and each of the electrochromic lines receives a corresponding one of the color matching voltage signals.

2. The method for changing the appearance of a mobile terminal according to claim 1, wherein the obtaining the trigger signal comprises: sensing a temperature/brightness analog signal.

The method for determining the color change of the appearance of the mobile terminal according to claim 2, wherein the obtaining the trigger signal further comprises: converting the temperature/light intensity analog signal into a digital signal, wherein the obtaining is based on the trigger signal The color matching voltage signal specifically includes: a correspondence table between the stored digital signal and the color matching voltage signal, and after obtaining the digital signal, querying the correspondence table according to the digital signal to obtain the color matching voltage signal.

The method for obtaining the color change of the appearance of the mobile terminal according to claim 2, wherein the obtaining the color matching voltage signal according to the trigger signal comprises: converting the temperature/light intensity analog signal into a digital signal, and storing the number a correspondence table between the signal and the color matching voltage signal, after obtaining the digital signal, querying the correspondence table according to the digital signal to obtain the color matching voltage signal.

The method for changing the appearance of a mobile terminal according to claim 3 or 4, wherein the correspondence table is a correspondence table between a temperature digital signal and a color matching voltage signal, and when the induced analog signal is a temperature signal Obtaining the color matching voltage signal by querying a correspondence table between the digital signal of the temperature and the color matching voltage signal; or

The correspondence table is a correspondence table between the digital signal of the bright intensity and the color matching voltage signal. When the induced analog signal is a bright intensity signal, the digital signal of the luminous intensity and the color matching voltage signal are queried. The number correspondence table obtains the color matching voltage signal; or

The correspondence table is a plurality of correspondence tables including a temperature digital signal and a color matching voltage signal correspondence table and a luminous intensity digital signal and a color matching voltage signal correspondence table. When multiple analog signals are sensed, the selection is performed. One of the analog signals queries the corresponding correspondence table to obtain the color matching voltage signal.

A mobile terminal, comprising: an information unit, configured to obtain a trigger signal; a processing control unit, configured to receive a trigger signal of the information unit to obtain a color matching voltage signal, where the color matching voltage signal includes at least two independent voltage signals And an electrochromic unit comprising at least two electrochromic lines of different colors, each of the electrochromic lines receiving a corresponding one of the color matching voltage signals and emitting light.

7. A mobile terminal according to claim 6, wherein the information unit comprises an inductive module for sensing temperature and/or light intensity analog signals.

8. The mobile terminal of claim 7, wherein the information unit further comprises a conversion module for converting the temperature/bright intensity analog signal into a digital signal, the processing control unit including a query a module and a color change driving module, wherein the query module is configured to store a correspondence table between the digital signal and the color matching voltage signal, and after receiving the digital signal, query the correspondence table according to the digital signal to obtain the color matching voltage signal; After receiving the color matching voltage signal, the driving module sends a corresponding voltage to each electrochromic line of the electrochromic unit.

The mobile terminal according to claim 7, wherein the processing control unit comprises a conversion module, a query module and a color change drive module, and the conversion module is configured to convert the temperature/bright intensity analog signal into a digital a signal, the query module is configured to store a correspondence table between the digital signal and the color matching voltage signal, and after receiving the digital signal, query the correspondence table according to the digital signal to obtain the color matching voltage signal; After receiving the color matching voltage signal, Each electrochromic line of the electrochromic unit emits a corresponding voltage.

The mobile terminal according to claim 8 or 9, wherein the correspondence table is a correspondence table between a digital signal of temperature and a color matching voltage signal, and when the induced analog signal is a temperature signal, the query is performed. Obtaining the color matching voltage signal ^ or the correspondence between the digital signal of the temperature and the color matching voltage signal

The correspondence table is a correspondence table between a digital signal of a bright intensity and a color matching voltage signal. When the induced analog signal is a light intensity signal, querying a correspondence table between the digital signal of the luminous intensity and the color matching voltage signal to obtain the color matching voltage Signal; or

A mobile terminal according to any one of claims 6-9, comprising a housing light transmissive unit, wherein when the electrochromic unit is disposed within a housing of the mobile terminal, The outer casing of the outer casing can transmit light.

A mobile terminal according to any one of claims 6 to 9, wherein the shape of the electrochromic unit is changeable.