WO2015161597A1

WO2015161597A1 - Mobile communication terminal

Info

Publication number: WO2015161597A1
Application number: PCT/CN2014/085033
Authority: WO
Inventors: 宁舒曼
Original assignee: 中兴通讯股份有限公司
Priority date: 2014-04-23
Filing date: 2014-08-22
Publication date: 2015-10-29
Also published as: CN204014095U

Abstract

A mobile communication terminal, comprising a first chip used for providing a first communication function and a second chip used for providing a second communication function, and the mobile communication terminal also comprises a gating unit and an antenna unit, wherein the gating unit comprises a switching end, a first end and a second end, the first end being connected to the first chip to form a first path, the second end being connected to the second chip to form a second path, and the switching end being switched to be connected to any one of the first end and the second end according to a control signal, thereby conducting the first path or the second path; and the antenna unit is configured to be connected to the switching end of the gating unit. In the mobile communication terminal of the technical solution, by means of the technical solution of multiplexing two antennas partially overlapped within a frequency range, the number of antennas of the mobile communication terminal is reduced, the design space of the antennas is saved, and the debugging difficulty of the antennas is reduced, thereby improving the antenna performance.

Description

Mobile communication terminal

Technical field

The present invention relates to the field of communications, and in particular, to a mobile communication terminal.

Background technique

With the increasingly fierce competition in the hardware configuration of intelligent communication terminals, excellent antenna design has become another magic weapon for manufacturers to compete for the market. The exquisite design of the antenna will inevitably lead to the reduction of the layout area of the printed circuit board (PCB) in the hardware design process and the reduction of the effective use of the antenna.

How to use the limited space for antenna design and improve the antenna performance is one of the important research directions of antenna engineers.

FIG. 1 is a schematic structural diagram of a related art mobile communication terminal. As shown in Figure 1. A related art mobile communication terminal generally requires four antennas, namely:

Main antenna 101 (support frequency range is generally 824~2690MHz);

Diversity antenna 102 (support frequency range is generally 1880MHz ~ 2690MHz);

GPS (Global Positioning System) antenna 103 (supports frequency range 1575MHz +/- 20MHz);

Wi-Fi (Wireless Fidelity) antenna 104 (supports the frequency range is generally 2400~2500MHz). Among them, the control lines of the antennas are relatively independent, and the antennas are separated, thereby generating a technical problem that the antenna components occupy a large space.

Summary of the invention

In view of this, the present invention provides a mobile terminal to solve the problem that the antenna of the mobile terminal has a large space occupied by the related art.

In order to solve the above problems, the following technical solutions are used:

A mobile communication terminal comprising a first chip for providing a first communication function and for providing a second chip of the second communication function, wherein the mobile communication terminal further includes a gating unit and an antenna unit, wherein:

The strobe unit includes a switching end, a first end and a second end, the first end is connected to the first chip to form a first path, and the second end is connected to the second chip to form a second path The switching end is switched to be connected to any one of the first end and the second end according to a control signal, thereby turning on the first path or the second path;

The antenna unit is disposed to be connected to a switching end of the gating unit.

Optionally, the first path is a diversity path, the first chip is a radio frequency chip, the second path is a Wi-Fi path, and the second chip is a Wi-Fi chip.

Optionally, the control signal is passed by the baseband chip through the GPIO (Bus Expander - General

Purpose Input Output ) Port provided.

Optionally, the radio frequency chip is connected to the baseband chip through an IQ port, an SPI port, and a GPI0 port;

The Wi-Fi chip is connected to the baseband chip through the GPI0 port.

Optionally, the radio frequency chip further provides a main antenna and a GPS antenna through control of the baseband chip.

Optionally, the gating unit is an SP2T radio frequency switch.

The mobile communication terminal of the present invention reduces the number of antennas of the mobile communication terminal by reducing the number of antennas of the mobile communication terminal by using the two antennas partially overlapping the frequency range, thereby reducing the antenna design space, reducing the difficulty of antenna debugging, and improving the antenna. performance.

BRIEF abstract

1 is a schematic structural diagram of a related art mobile communication terminal;

FIG. 2 is a schematic structural diagram of a mobile communication terminal according to an embodiment of the present invention.

Preferred embodiment of the invention

The detailed description will be made below in conjunction with the accompanying drawings and specific embodiments. The frequency range supported by the diversity antenna is generally 1880MHz~2690MHz; the frequency range supported by the Wi-Fi antenna is generally 2400~2500MHz. It can be seen that the diversity antenna and the Wi-Fi antenna support frequency band partially overlap, so that antenna multiplexing can be realized. Based on the above idea, the present invention discloses the following technical solutions.

A mobile communication terminal includes a first chip for providing a first communication function and a second chip for providing a second communication function, wherein the mobile communication terminal further includes a gate unit and an antenna unit, wherein:

Optionally, the control signal is provided by a baseband chip through a GPIO (General Purpose Input Output) port.

The Wi-Fi chip is connected to the baseband chip through the GPI0 port.

Optionally, the gating unit is an SP2T radio frequency switch. In the technical solution of the embodiment, only one physical antenna, the antenna unit, is reserved, and the antenna unit is respectively configured to implement the functions of the diversity antenna or the Wi-Fi antenna. When the gating unit turns on the diversity path according to the control signal, the antenna unit implements a function of a diversity antenna, and when the gating unit turns on the Wi-Fi path according to the control signal, The function of the antenna unit Wi-Fi antenna.

According to the technical solution of the present invention, it is equivalent to reducing a conventional Wi-Fi antenna, and the function of the Wi-Fi antenna can be combined using a conventional diversity antenna, so that the day of the mobile communication terminal The wire components reduce the overall footprint.

Optionally, the control signal receiving end of the gating unit is connected to the baseband chip 1 through the GPIO. The control signal is derived from a baseband chip and is signaled through a general purpose input/output port.

Optionally, the gating unit is a radio frequency switch. Optional SP2T RF switch 4 is available. As shown in FIG. 2, the mobile communication terminal of the embodiment of the present invention includes a baseband chip 1, a radio frequency chip 2, and a Wi-Fi chip 3. The radio frequency chip 2 is connected to the baseband chip 1 through an IQ port, an SPI port, and a GPIO port; the Wi-Fi chip 3 is connected to the baseband chip 1 through the GPIO port. The radio frequency chip controls the main antenna 21 and the GPS antenna 22.

The mobile communication terminal further has an antenna 23, and the antenna 23 is respectively connected to the radio frequency chip 2 and the Wi-Fi chip 3 through the gating unit 4, and is connected to the diversity channel or the Wi- by receiving the control signal sent by the baseband chip 1 through the GPIO port. Fi path. When the diversity path is turned on, the antenna 23 operates as a diversity antenna, and when the WI-FI path is turned on, the antenna 23 operates as a WIFI antenna.

The strobe unit 4 includes a switching end, a first end, and a second end. The first end is connected to the radio frequency chip 2 to form a diversity path, and the second end is connected to the Wi-Fi chip 3 to form a WIFI path. The switching end is switched to be connected to any one of the first end and the second end according to a control signal, thereby turning on the diversity path or the WIFI path;

The antenna 23 is connected to the switching end of the gating unit 4.

Optionally, the gating unit 4 is an SP2T radio frequency switch.

The technical solution of the present invention works as follows:

When the user sets the terminal to open the data, the diversity receiving antenna needs to be used, and the WI-FI path is to be closed. At this time, the SP2T RF switch is connected to the diversity path, so that the diversity path is connected to the antenna 23;

When the user sets the terminal to data off, there is no need to use the diversity receiving antenna. At this time, the SP2T radio frequency switch is connected to the WI-FI path, so that the WI-FI path is connected to the antenna 23.

The above is a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention. Industrial applicability

The mobile communication terminal of the present invention reduces the number of antennas of the mobile communication terminal by reducing the number of antennas of the mobile communication terminal by using the two antennas partially overlapping the frequency range, thereby reducing the antenna design space, reducing the difficulty of antenna debugging, and improving the antenna. performance. Therefore, it has strong industrial applicability.

Claims

Claim

A mobile communication terminal comprising a first chip for providing a first communication function and a second chip for providing a second communication function, wherein the mobile communication terminal further includes a gate unit and an antenna unit, wherein :

2. The mobile communication terminal according to claim 1, wherein:

The first path is a diversity path, and the first chip is a radio frequency chip;

The second path is a Wi-Fi path, and the second chip is a Wi-Fi chip.

The mobile communication terminal according to claim 2, wherein the control signal is provided by a baseband chip through a GPIO port.

4. The mobile communication terminal according to claim 3, wherein:

The radio frequency chip is connected to the baseband chip through an IQ port, an SPI port, and a GPIO port; the Wi-Fi chip is connected to the baseband chip through the GPIO port.

The mobile communication terminal according to claim 4, wherein the radio frequency chip further provides a main antenna and a GPS antenna by control of the baseband chip.

The mobile communication terminal according to any one of claims 1 to 5, wherein the gating unit is an SP2T radio frequency switch.