KR100680217B1 - Mobile communication device and operation control method thereof - Google Patents

Abstract

A mobile communication terminal and an operation control method thereof are provided to be capable of connection through only four signal lines by enabling a baseband processor to be connected with function modules such as a camera module, an LCD and so on through a USB interface process, thereby facilitating hardware design of the mobile communication terminal. A mobile communication terminal comprises the followings: a baseband processor(120) for processing a baseband signal and call; and at least one function module which is connected to the baseband processor(120) through a USB(Universal Serial Bus) to communicate with the baseband processor(120). The function module is an LCD(Liquid Crystal Display)(140) for performing a display function. The function module is a camera module(130) for performing a camera function.

Description

Mobile communication device and operation control method

1 is a block diagram showing a part of a conventional mobile communication terminal;

2 is a block diagram of a mobile communication terminal according to an embodiment of the present invention, and

3 is a table defining a USB signal line.

Explanation of symbols on the main parts of the drawings

110: wireless communication unit 120: baseband processor

130: camera module unit 140: LCD unit

150: peripheral device

The present invention relates to a mobile communication terminal and an operation control method thereof, and more particularly, to a mobile communication terminal using a universal serial bus (USB) interface for controlling the internal function module and the like and a method for controlling the operation thereof.

With the expansion of Mobile Convergence, mobile communication terminals such as mobile phones are evolving into multimedia complex devices rather than simple communication devices. Accordingly, there is a trend that a functional module unit for performing various functions such as a camera, a camcorder, an MP3, a game console, a TV, and the like is embedded in one mobile communication terminal.

1 is a block diagram showing some components of a conventional mobile communication terminal having a camera function. The mobile communication terminal shown in FIG. 1 includes a camera module unit 10, an LCD unit 20, and a baseband processor 30. The camera module unit 10 and the LCD unit 20 are function module units that perform a camera function and a display function, respectively, and are controlled by the baseband processor 30.

The camera module unit 10 transmits Y / Cb / Cr data, Y / U / V data, etc. to transfer the image data of the subject to the baseband processor 30, V-Sync, A signal line or the like for transmitting a SYNC signal such as H-sync should be connected to the baseband processor 30.

In addition, the baseband processor 30 needs to connect an address line, a control signal line, a data line, and the like to the LCD unit 20 to transfer data to be displayed to the LCD unit 20. In addition to the CPU interface method, the LCD unit 20 may be driven by an RGB interface method through which RGB data is transferred or an interface method such as Qualcomm's MDDI (Mobile Display Digital Interface). However, the CPU interface method has a limitation in handling bandwidth due to an increase in resolution of the LCD, and the RGB interface method and the MDDI interface method are not widely used because they are not highly compatible.

As such, when various functional module units added to the mobile terminal use different interface methods, not only the internal circuit design of the mobile communication terminal is complicated, but also the reduction of bandwidth and porting of related device drivers are required. This results in an increase in the time required. Therefore, as an interface method for controlling the functional module units of the mobile communication terminal, a relatively simple bus structure has high compatibility, and a method capable of supporting the various functional module units should be considered.

Accordingly, an object of the present invention is to provide a mobile communication terminal using a USB interface method for controlling the internal function module and the like and a method for controlling the operation thereof.

A mobile communication terminal according to the present invention for achieving the above object, a baseband processor for performing baseband signal processing and call processing, and at least one function connected to the baseband processor through a universal serial bus (USB) bus It includes a module unit. The function module unit may be an LCD unit performing a display function or a camera module unit performing a camera function. In addition, the USB bus preferably supports any one of USB 2.0 and USB OTG protocol methods.

On the other hand, the operation control method of the mobile communication terminal according to the present invention, in the mobile communication terminal having a baseband processor and a functional module unit communicatively connected to the baseband processor, the baseband processor to the function module unit USB Transmitting packet data by a universal serial bus interface, and transmitting, by the function module unit, a response signal corresponding to the packet data to the baseband processor.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

2 is a block diagram of a mobile communication terminal according to an embodiment of the present invention. 2, the mobile communication terminal includes a wireless communication unit 110, a baseband processor 120, a camera module unit 130, an LCD unit 140, and a peripheral unit 150.

The wireless communication unit 110 provides an interface for communicating with an external device connected to a mobile communication network, a duplexer filter for separating transmission and reception signals from an antenna, a power amplifier for amplifying a transmission signal, a frequency upconversion circuit of a transmission path, and reception. A frequency downconversion circuit of the path, and the like. The camera module unit 120 is a function module unit that performs a camera function. An image sensor converts light formed in the imaging optical system, the imaging optical system into an electrical signal, and converts a signal output from the image sensor into a digital signal converter. It includes wealth.

The LCD unit 130 performs a display function using a liquid crystal display (LCD). The LCD unit 130 performs a display function. Information regarding the operation status is displayed. The peripheral unit 140 includes a keypad having a plurality of keys including numeric keys and function keys, a program or data necessary for operating a mobile communication terminal, and a memory for storing various data desired by the user. do.

The baseband processor 150 controls the operations of the respective parts to control the overall operation of the mobile communication terminal. In particular, the baseband processor 150 controls the baseband signal processing after the wireless communication unit 110, and controls the call processing.

In such a configuration, the baseband processor 120, the camera module unit 130, and the LCD unit 140 are communicatively connected through a universal serial bus (USB) bus, and the baseband processor 120 is connected to a USB host. Perform the function. Accordingly, the baseband processor 150, the camera module unit 120, and the LCD unit 130, as shown in Figure 3, the differential data line (D +, D-), power supply (VBUS), ground (GND) Connection is possible using four signal lines.

Operation control of the camera module 130 or the LCD unit 140 by the baseband processor 120 is as follows. First, the baseband processor 120 selects a target function module unit to be controlled, and when the selected target function module unit is the LCD unit 140, transmits image data and control data, and the camera module unit 130. In case of, control data is transmitted in packet data format. In the USB interface method, data transmission is composed of frames, transactions, and packets. The packet is a minimum transmission unit in the USB interface method. Packet data starts with SYNC data (simultaneous pattern) and then continues with a PID (Packet Identifier) indicating the type of packet.

The packet data transmitted from the baseband processor 120 is received by any one of the camera module unit 130, the functional unit unit of the D unit 130 and the LCD unit 140, the data received by decomposing the received packet data After classifying the format, an ACK packet is transmitted to the baseband processor 120 corresponding to the host. Other transfer methods can be performed according to general USB protocol, and the desired bandwidth can be achieved by using USB 2.0 or USB OTG (On-The-Go).

In this manner, the baseband processor 120 may control the functional module unit such as the camera module unit 130 and the LCD unit 140 using only four signal lines. That is, the baseband processor 120 controls the camera module unit 130 and the LCD unit 140 by the USB interface method, thereby making it easy to expand and manage the device. Driver) can be easily implemented.

On the other hand, when using a standard USB method between the baseband processor and the functional module unit, if the other baseband chipset (Wireless USB) supports the wireless (USB), using a wireless USB general computer environment (Desktop, Notebook) The contents displayed on the mobile communication terminal can be viewed through the monitor of the computer. In addition, data such as a web camera may also be transmitted and used in real time using a wireless USB. This is possible because wireless USB is also the only physical layer that has been changed from wired to wireless, and the upper layer is not a structure that changes significantly.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

As described above, according to the present invention, since the baseband processor and the functional module units such as the camera module unit, the LCD unit, and the like are connected by the USB interface method, only four signal lines can be connected. Therefore, the hardware design of the mobile communication terminal is facilitated. In addition, by using USB 2.0 or USB OTG method, desired bandwidth can be obtained as well as expansion and management, regardless of the performance of the function module unit such as LCD resolution and size of camera data. In addition, by using a single interface, development and porting of a related device driver can be easily performed.

Claims (7)

A baseband processor for performing baseband signal processing and call processing; And And at least one function module unit communicatively connected to the baseband processor via a universal serial bus (USB) bus. The method of claim 1, The function module unit is a mobile communication terminal, characterized in that for performing a display function. The method of claim 1, The function module unit is a mobile communication terminal, characterized in that the camera module for performing a camera function. The method of claim 1, The USB bus, the mobile communication terminal characterized in that it supports any one of the USB 2.0 and USB OTG protocol. In the method of controlling the operation of a mobile communication terminal having a baseband processor and a function module unit communicatively connected to the baseband processor, Transmitting, by the baseband processor, packet data to the function module unit by a universal serial bus (USB) interface scheme; And And transmitting, by the function module unit, a response signal corresponding to the packet data to the baseband processor. The method of claim 5, The function module unit, the operation control method of the mobile communication terminal, characterized in that for performing a display function. The method of claim 5, The function module unit, the operation control method of the mobile communication terminal, characterized in that the camera module unit performing a camera function.

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