CN116737099A - Integrated machine display system and integrated machine display method - Google Patents

Abstract

The application relates to the technical field of computers, and discloses an all-in-one display system and an all-in-one display method, wherein the system comprises: the device comprises a display, a motherboard, a connector, a camera and a microphone, wherein the display, the camera and the microphone are respectively connected with the motherboard through the connector; the camera is used for collecting video images and sending first signals corresponding to the video images to the motherboard; the microphone is used for collecting audio signals and sending second class signals corresponding to the audio signals to the motherboard; the motherboard is used for receiving the first type of signals and/or receiving the second type of signals, converting the first type of signals into the third type of signals and sending the third type of signals to the display, and/or converting the second type of signals into the fourth type of signals and sending the fourth type of signals to the display; and the display is used for receiving the third type signal and/or the fourth type signal sent by the motherboard card so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal.

Description

Integrated machine display system and integrated machine display method

Technical Field

The application relates to the technical field of computers, in particular to an all-in-one display system and an all-in-one display method.

Background

In the existing integrated computer design, once the integrated computer is updated, the integrated computer is updated completely, the independent module cannot be updated, the old module cannot be utilized, the increasing environmental protection requirement is met, and when only a display or a host needs to be updated, only the display or the host cannot be replaced, so that resource waste is caused.

Disclosure of Invention

In view of the above, the embodiment of the application provides an all-in-one display system and an all-in-one display method, which solve all or part of the problems in the prior art.

In a first aspect, an embodiment of the present application provides a display system of an all-in-one machine, including: the device comprises a display, a motherboard card, a connector, a camera and a microphone, wherein the display is connected with the motherboard card through the connector;

the camera is used for collecting video images and sending first type signals corresponding to the video images to the motherboard card through the connector;

the microphone is used for collecting audio signals and sending second-class signals corresponding to the audio signals to the motherboard through the connector;

the host board card is used for receiving the first type of signals through the connector and/or receiving the second type of signals through the connector, converting the first type of signals into the third type of signals and sending the third type of signals to the display, and/or converting the second type of signals into the fourth type of signals and sending the fourth type of signals to the display;

and the display is used for receiving the third type signal and/or the fourth type signal sent by the motherboard through the connector so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal.

Through this mode, with all-in-one display system's camera, microphone and display with the mainboard card respectively be connected through the connector to confirm interactive signal type, both can realize the interactive function of display and mainboard card, can conveniently dismantle again, especially in computer all-in-one equipment, when equipment needs the partial renewal, only need to change required part, need not to abandon whole computer all-in-one, do benefit to the environmental protection, save resources.

With reference to the first aspect, in an implementation manner, the display is further configured to receive a fifth signal sent by the motherboard through the connector, so that the display displays a picture corresponding to the fifth signal, where the fifth signal is used to indicate a signal generated by the motherboard.

Through the mode, the display receives the fifth type signal sent by the motherboard through the connector, can directly display the picture corresponding to the fifth type signal, does not need other intermediate parts, and has the characteristics of simplicity and convenience in operation and low cost.

With reference to the first aspect or corresponding embodiments thereof, in one embodiment, the connector includes: a first set of interfaces, a second set of interfaces, and a third set of interfaces;

a first set of interfaces for constructing a first signal transmission path for transmitting signals of a first type;

a second set of interfaces for constructing a second signal transmission channel for transmitting a second type of signal and a fourth type of signal;

and the third group of interfaces is used for constructing a third signal transmission channel so as to transmit the third type of signals and the fifth type of signals.

Through the mode, the connector adopts an interface form, a signal transmission channel is constructed, a channel can be provided for data transmission, and timeliness and safety of the transmission are also ensured.

With reference to the first aspect or corresponding embodiments thereof, in one embodiment, the connector further includes: the connector is connected with the display and the motherboard through the male head and the female head.

With reference to the first aspect or corresponding embodiments thereof, in one embodiment, the connector is one of the following:

high-speed serial computer expansion bus (Peripheral Component Interconnect Express, PCIE) X16, high-speed serial computer expansion bus PCIE X8, high-speed serial computer expansion bus PCIE X4, and high-speed serial computer expansion bus PCIE X1.

By the mode, the high-speed serial computer expansion bus has different bandwidths (X16, X8, X4 and X1) and has the function of transmitting different signals, and the signals transmitted by the bus can be defined, so that the display signals of the display can be directly transmitted without intermediate components, and the corresponding bandwidths can be selected according to actual requirements, so that the high-speed serial computer expansion bus has flexibility and practicability.

With reference to the first aspect or corresponding embodiments thereof, in one embodiment, the first type of signal is a universal serial bus (Universal Serial Bus, abbreviated as USB) signal.

Through the mode, the signals collected by the camera can be transmitted, and the signal transmission between the camera and the motherboard is realized.

With reference to the first aspect or corresponding embodiments thereof, in one embodiment, the second type of signal and the fourth type of signal are digital microphone interface (Digital Microphone Interface, abbreviated as DMIC) signals.

Through the mode, signals collected by the microphone can be transmitted, and signal transmission between the motherboard card and the microphone is realized.

With reference to the first aspect or the corresponding implementation manner, in an implementation manner, the third signal and the fifth signal are one of the following signals:

high definition multimedia interface (High Definition Multimedia Interface, HDMI) signals, high definition digital Display interface (DP) signals, video graphics array (Video Graphics Array, VGA) signals, and digital video interface (Digital Visual Interface, DVI) signals.

Through the mode, the display can directly display the picture processed by the motherboard card, the host signal can be displayed on the display without further processing by components such as the display card, and the like, so that the operation is simple and easy.

In a second aspect, an embodiment of the present application provides a display method of an all-in-one machine, which is performed by the display system of the all-in-one machine as described in the first aspect, where the system includes: the method comprises the steps of connecting the display with the motherboard through the connector, connecting the camera with the motherboard through the connector, and connecting the microphone with the motherboard through the connector:

the camera is used for collecting video images and sending first type signals corresponding to the video images to the motherboard card through the connector;

the microphone is used for collecting audio signals and sending second-class signals corresponding to the audio signals to the motherboard through the connector;

the host board card is used for receiving the first type of signals through the connector and/or receiving the second type of signals through the connector, converting the first type of signals into the third type of signals and sending the third type of signals to the display, and/or converting the second type of signals into the fourth type of signals and sending the fourth type of signals to the display;

and the display is used for receiving the third type signal and/or the fourth type signal sent by the motherboard through the connector so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal.

With reference to the second aspect, in one embodiment, the display is further configured to receive a fifth signal sent by the motherboard through the connector, so that the display displays a picture corresponding to the fifth signal, where the fifth signal is used to indicate a signal generated by the motherboard.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present application, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of a display system of an all-in-one machine according to some embodiments of the application;

FIG. 2 is a block diagram of another all-in-one display system according to some embodiments of the application;

FIG. 3 is a block diagram of yet another integrated machine display system according to some embodiments of the application;

fig. 4 is a flowchart of a display method of an all-in-one machine according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

For the purpose of facilitating an understanding of the embodiments of the present application, reference will now be made to the following description of specific embodiments, taken in conjunction with the accompanying drawings, which are not intended to limit the embodiments of the application.

In the existing computer integrated machine system, a display and a host cannot be disassembled, when the integrated machine needs to be updated, the integrated machine must be updated completely, individual module cannot be updated, the old cannot be made, the environment is not protected, and certain waste is caused.

According to an embodiment of the present application, there is provided an embodiment of a display system of an all-in-one machine, as shown in fig. 1, the system includes: the display 10, the motherboard 20, the connector 30, the camera 40 and the microphone 50, wherein the display 10 and the motherboard 20 are connected through the connector 30, the camera 40 and the motherboard 20 are connected through the connector 30, and the microphone 50 and the motherboard 20 are connected through the connector 30;

the camera 40 is used for collecting video images and sending first-class signals corresponding to the video images to the motherboard 20 through the connector 30.

Specifically, the connector 30 is in the form of a connection line, and the transmission signal is converted without a chip such as a display card in the middle, so that the connection line can directly transmit the signal. The camera 40 collects video images and sends a first type of signal corresponding to the video images to the motherboard through the connector, wherein the first type of signal is a signal for interaction between the camera and the motherboard, for example, the camera 40 is connected with the motherboard 20 through a USB interface, then the first type of signal is specifically a USB signal, and when the camera is connected with the motherboard 20 through other interfaces, the first type of signal is a signal applicable to the specifically connected interface.

In an alternative embodiment, for example, in the computer integrated system shown in fig. 2, the host computer is made into a motherboard, the microphone and the camera may be disposed at a preset fixed position of the display, the camera, the microphone and the display are connected with the motherboard through a connection line, and the connection line needs to be capable of transmitting video signals collected by the camera.

The microphone 50 is used for collecting audio signals and transmitting second-class signals corresponding to the audio signals to the motherboard 20 through the connector 30.

Specifically, the microphone 50 collects audio signals and sends the audio signals to the motherboard through the connector 30, wherein the audio signals are sent in the form of second-class signals, and the second-class signals are signal types supporting audio transmission, including but not limited to analog signals, digital signals, and the like, so long as the signal types supporting audio signal transmission are all the range included in the second-class signals.

In an alternative embodiment, for example, in the computer integrated system shown in fig. 2, the microphone is configured to collect an audio signal and transmit the audio signal to the motherboard through the connection line, where the audio signal, i.e. the second type of signal, may be any information carrier capable of carrying sound, for example, an audio digital signal.

The motherboard 20 is configured to receive a first type of signal through the connector 30, and/or receive a second type of signal through the connector 30, and convert the first type of signal into a third type of signal to be sent to the display 10, and/or convert the second type of signal into a fourth type of signal to be sent to the display 10.

Specifically, when only the first type of signal exists, for example, only the camera 40 is turned on, the motherboard 20 receives the first type of signal through the connector 30, when only the microphone is turned on, the motherboard 20 receives the second type of signal, when the camera 40 is turned on simultaneously, the motherboard 20 can receive the first type of signal and the second type of signal simultaneously, and convert the first type of signal into the third type of signal, so that the display 10 displays the picture collected by the camera, or convert the second type of signal into the fourth type of signal, so that the audio playing accessory of the display plays the audio collected by the microphone 50, the second type of signal and the fourth type of signal are audio signals, and the third type of signal is a signal that the display 10 can directly display the picture.

In an alternative embodiment, for example, in the computer integrated system shown in fig. 2, when only the camera is turned on, the motherboard receives the video image signal collected by the camera through the connection line, when only the microphone is turned on, the motherboard receives the audio signal collected by the microphone through the connection line, when the camera and the microphone are turned on simultaneously, the motherboard receives the video signal collected by the camera and the audio signal collected by the microphone simultaneously, and the motherboard processes and converts the video signal into a signal type for displaying a picture, namely, a third type signal, and the motherboard processes and converts the audio signal into a signal type for playing audio by the display, namely, a fourth type signal, for example, a type of playing audio signal by a speaker component of the display.

The display 10 is configured to receive the third type signal and/or the fourth type signal sent by the motherboard 20 through the connector 30, so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal.

Specifically, the display 10 is configured to receive, via the connector 30, a signal sent by the motherboard 20, including a third type signal and a fourth type signal, or when the motherboard sends two types of signals simultaneously, the display 10 receives the second type signal simultaneously, the third type signal is a display signal, the display 10 receives the third type signal and can directly display a picture corresponding to the third type signal, the fourth type signal is an audio signal, and the display receives the fourth type signal and can directly use an audio playing accessory (such as a speaker) to play audio corresponding to the fourth type signal.

In an alternative embodiment, for example, in the computer integrated system shown in fig. 2, the display is connected to the host through a connection line, and is used for receiving a third signal and a fourth signal, where the third signal may be, for example, a signal capable of directly displaying a display screen, and the fourth signal may be a signal capable of directly playing audio. When the display receives the third type signal, the display directly displays the picture corresponding to the third type signal and plays the audio corresponding to the fourth type signal.

Through the mode, the camera, the microphone and the display of the display system are respectively connected with the motherboard through the connector, and the interactive signal type is determined, so that the interactive function of the display and the motherboard can be realized, the disassembly is convenient, and particularly in the computer integrated machine equipment, when the equipment needs to be partially updated, only the needed parts are needed to be replaced, the whole computer integrated machine is not required to be abandoned, the environment is protected, and resources are saved.

In an alternative embodiment, as shown in fig. 1, the display 10 is further configured to receive a fifth signal sent by the motherboard 20 through the connector 30, so that the display 10 displays a frame corresponding to the fifth signal, where the fifth signal is used to indicate a signal generated by the motherboard 20.

Specifically, the host board 20 also sends a fifth signal to the display when processing the data, where the fifth signal is a signal that the display can directly display a picture.

Through the mode, the display receives the fifth type signal sent by the motherboard through the connector, can directly display the picture corresponding to the fifth type signal, does not need other intermediate parts, and has the characteristics of simplicity and convenience in operation and low cost.

In an alternative embodiment, as shown in fig. 3, the connector 30 includes: a first set of interfaces 310, a second set of interfaces 320, and a third set of interfaces 330;

a first set of interfaces 310 for constructing a first signal transmission path for transmitting signals of a first type;

a second set of interfaces 320 for constructing a second signal transmission path for transmitting signals of a second type and signals of a fourth type;

a third set of interfaces 330 for constructing a third signal transmission path for transmitting signals of a third type and signals of a fifth type.

Specifically, the first set of interfaces 310 is a camera-suitable interface, the connector 30 includes a plurality of interfaces, the interfaces are defined by groups, the interfaces include a camera-suitable interface for transmitting a first type of signal, a microphone-suitable interface for transmitting a second type of signal, and a display-suitable interface for transmitting a third type of signal, the dashed line connection between the camera 40 and the motherboard 20 in fig. 3 is the first set of interfaces 310, the dashed line connection between the microphone 50 and the motherboard 20 is the second set of interfaces 320, and the dashed line connection between the display 10 and the motherboard 20 is the third set of interfaces 330.

In an alternative example, for example, the first set of interfaces is a video signal interface, the second set of interfaces is an audio signal interface, and the third set of interfaces is a display signal interface.

Through the mode, the connector adopts an interface form, a signal transmission channel is constructed, a channel can be provided for data transmission, and timeliness and safety of the transmission are also ensured.

In an alternative embodiment, as shown in fig. 3, the connector 30 further includes: the male head 340 and the female head 350, the male head 340 is arranged on the motherboard, the female head 350 is arranged on the display, and the connector 30 is connected with the display 10 and the motherboard 20 through the male head 340 and the female head 350.

Specifically, the connector 30 further includes: the male head 340 and the female head 350, the male head 340 is disposed on the motherboard, the female head 350 is disposed on the display, of course, the male head 340 may also be disposed on the motherboard according to actual requirements, the corresponding female head 350 may also be disposed on the motherboard, as shown in fig. 2, the male head 240 is disposed on the motherboard 20, the female head 350 is disposed on the display 10, and the dashed frame in fig. 3 is a schematic diagram of the connector 30.

In an alternative embodiment, the connector 30 of fig. 1 and 3 is one of the following:

high-speed serial computer expansion bus PCIE X16, high-speed serial computer expansion bus PCIE X8, high-speed serial computer expansion bus PCIE X4, and high-speed serial computer expansion bus PCIE X1.

Specifically, the high-speed serial computer expansion bus PCIE can directly transmit signals of the display, the microphone and the camera after interface definition, and the male and female heads are used as physical interfaces and can be detached, so that when part of devices of the integrated machine are damaged or upgraded, only parts to be replaced are needed to be replaced, and the integrated machine can be used conveniently and is beneficial to environmental protection.

By the mode, the high-speed serial computer expansion bus has different bandwidths (X16, X8, X4 and X1) and has the function of transmitting different signals, and the signals transmitted by the bus can be defined, so that the display signals of the display can be directly transmitted without intermediate components, and the corresponding bandwidths can be selected according to actual requirements, so that the high-speed serial computer expansion bus has flexibility and practicability.

In an alternative embodiment, the first type of signal is a universal serial bus USB signal.

Specifically, the video image collected by the USB signal transmission camera may be used, and a part of the interface of the PCIE bus is defined as a USB signal transmission.

In an alternative embodiment, the second and fourth types of signals are digital microphone interface DMIC signals.

Specifically, the DMIC signals are used to transmit the audio signals of the microphone, that is, the second type of signals and the fourth type of signals, and the part of the interface of the PCIE bus is defined as transmitting the DMIC signals.

In an alternative embodiment, the third and fifth type of signals are each one of the following signals:

high definition multimedia interface HDMI signal, high definition digital display interface DP signal, video graphics array VGA signal, and digital video interface DVI signal.

Specifically, the HDMI signal, the DP signal, the VGA signal, and the DVI signal are all display signals, that is, after the display receives the signals, the display can directly display the pictures corresponding to the signals, and the type of the signal to be transmitted is determined according to the function of the actual display.

In order to make the system described in the present application clearer, as shown in fig. 2, in the display system of the computer integrated machine shown in fig. 2, the host computer and the display are connected through a PCIE bus, the microphone and the camera are respectively disposed at preset positions of the display, the camera interacts with the host computer by transmitting USB signals through the PCIE bus, the microphone interacts with the host computer by transmitting DMIC signals through the PCIE bus, and the display interacts with the host computer by transmitting one of HDMI signals, DP signals, VGA signals and DVI signals through the PCIE bus, so as to display a picture corresponding to the transmitted signals. The interface definition of a specific PCIE may be as follows:

when the display signal is an HDMI signal, the interface is defined as follows:

(Table one) when the display signal is a DP signal, the interface is defined as follows:

(Table II) when the display signal is a VGA signal, the interface is defined as follows:

/>

(Table III) when the display signal is a DVI signal, the interface is defined as follows:

/>

(Table IV)

NC in the tables I to IV is a temporary undefined interface, and other interfaces are defined interface names specified by interface definition specifications of PCIE buses.

Through the mode, the display, the microphone and the camera of the all-in-one computer can realize all functions by only using PCIE bus connection, signal conversion of middle parts such as a display card is not needed, the all-in-one computer can be disassembled, upgrading and updating of all-in-one computers can be finished by replacing different computer hosts and even different platform hosts, the requirements of various application scenes are met, and the user experience is greatly improved.

In the above, for several system configuration embodiments corresponding to the brightness control system of the lamp provided by the present application, the following describes embodiments corresponding to the control method of the brightness control system of the lamp provided by the present application, specifically, see the following.

Fig. 4 is a schematic diagram of a display method of an all-in-one machine according to an embodiment of the present application, where the method is performed by the display system of any one of the above-described all-in-one machines, and the system includes: the device comprises a display, a motherboard card, a connector, a camera and a microphone, wherein the display is connected with the motherboard card through the connector;

in step S401, the camera collects a first video image and sends a first type of signal corresponding to the first video image to the motherboard through the connector.

In step S402, the microphone collects audio signals and sends second type signals corresponding to the audio signals to the motherboard through the connector.

In step S403, the motherboard receives the first type signal through the connector, and/or receives the second type signal through the connector, and converts the first type signal into the third type signal to send to the display, and/or converts the second type signal into the fourth type signal to send to the display.

In step S404, the display receives the third type signal and/or the second type signal sent by the motherboard through the connector, so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal.

In an alternative embodiment, the display receives a fifth type of signal sent by the motherboard through the connector, so that the display displays a picture corresponding to the fifth type of signal, where the fifth type of signal is used to indicate a signal generated by the motherboard.

The display method of the all-in-one machine provided by the application is described in detail above, and is not repeated here. According to the integrated machine display method, the camera collects the first video image and sends a first type signal corresponding to the first video image to the motherboard through the connector; the microphone collects audio signals and sends second class signals corresponding to the audio signals to the motherboard through the connector; the host board card receives the first type of signals through the connector and/or receives the second type of signals through the connector, converts the first type of signals into the third type of signals and sends the third type of signals to the display, and/or converts the second type of signals into the fourth type of signals and sends the fourth type of signals to the display; and the display receives the third type signal and/or the second type signal sent by the motherboard through the connector so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal. The camera, the microphone and the display of the display system are respectively connected with the motherboard through the connector, and the interactive signal type is determined, so that the interactive function of the display and the motherboard can be realized, the device can be conveniently detached, and particularly in the computer integrated machine equipment, when the equipment needs to be partially updated, only the required parts are required to be replaced, the whole computer integrated machine is not required to be abandoned, the environment is protected, and resources are saved.

Although embodiments of the present application have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the application, and such modifications and variations fall within the scope of the application as defined by the appended claims.

Claims (10)

1. A all-in-one display system, the system comprising: the device comprises a display, a motherboard, a connector, a camera and a microphone, wherein the display is connected with the motherboard through the connector, the camera is connected with the motherboard through the connector, and the microphone is connected with the motherboard through the connector;

the camera is used for collecting video images and sending first signals corresponding to the video images to the motherboard through the connector;

the microphone is used for collecting audio signals and sending second-class signals corresponding to the audio signals to the motherboard through the connector;

the motherboard is configured to receive the first type of signal through the connector, and/or receive the second type of signal through the connector, and convert the first type of signal into a third type of signal to send to the display, and/or convert the second type of signal into a fourth type of signal to send to the display;

the display is configured to receive a third type signal and/or a fourth type signal sent by the motherboard through the connector, so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal.

2. The system of claim 1, wherein the display is further configured to receive a fifth type of signal sent by the motherboard via the connector, so that the display displays a frame corresponding to the fifth type of signal, where the fifth type of signal is used to indicate a signal generated by the motherboard.

3. The system of claim 2, wherein the connector comprises: a first set of interfaces, a second set of interfaces, and a third set of interfaces;

the first group of interfaces is used for constructing a first signal transmission channel so as to transmit a first type of signals;

the second group of interfaces is used for constructing a second signal transmission channel so as to transmit the second type of signals and the fourth type of signals;

the third set of interfaces is configured to construct a third signal transmission channel so as to transmit a third type of signal and a fifth type of signal.

4. A system according to any one of claims 1-3, wherein the connector further comprises: the connector is connected with the display and the motherboard through the male head and the female head.

5. The system of claim 4, wherein the connector is one of:

high-speed serial computer expansion bus PCIE X16, high-speed serial computer expansion bus PCIE X8, high-speed serial computer expansion bus PCIE X4, and high-speed serial computer expansion bus PCIE X1.

6. A system according to claim 3, wherein the first type of signal is a universal serial bus USB signal.

7. The system of claim 3, wherein the second type of signal and the fourth type of signal are digital microphone interface DMIC signals.

8. A system according to claim 3, wherein the third and fifth types of signals are each one of the following:

high definition multimedia interface HDMI signal, high definition digital display interface DP signal, video graphics array VGA signal, and digital video interface DVI signal.

9. A all-in-one display method, characterized in that the method is performed by an all-in-one display system according to any one of claims 1 to 8, the system comprising: the device comprises a display, a motherboard, a connector, a camera and a microphone, wherein the display is connected with the motherboard through the connector, the camera is connected with the motherboard through the connector, and the microphone is connected with the motherboard through the connector;

the camera is used for collecting video images and sending first signals corresponding to the video images to the motherboard through the connector;

the microphone is used for collecting audio signals and sending second-class signals corresponding to the audio signals to the motherboard through the connector;

the motherboard is configured to receive the first type of signal through the connector, and/or receive the second type of signal through the connector, and convert the first type of signal into a third type of signal to send to the display, and/or convert the second type of signal into a fourth type of signal to send to the display;

the display is configured to receive a third type signal and/or a fourth type signal sent by the motherboard through the connector, so as to display a picture corresponding to the third type signal and/or play audio corresponding to the fourth type signal.

10. The method of claim 9, wherein the display is further configured to receive a fifth type of signal sent by the motherboard via the connector, so that the display displays a frame corresponding to the fifth type of signal, where the fifth type of signal is used to indicate a signal generated by the motherboard.