CN209897047U - Miniature full frequency channel terminal characteristic acquisition equipment - Google Patents

Abstract

The embodiment of the utility model discloses miniature full frequency channel terminal feature acquisition equipment, include: the antenna comprises a shell, a main baseband board, a communication baseband module and an antenna module; the antenna module is connected with the main baseband board, and the main baseband board is connected with the communication baseband module; the main baseband board is provided with a first terminal characteristic information acquisition module, a second terminal characteristic information acquisition module and a third terminal characteristic information acquisition module in an integrated design mode, the antenna module comprises a first antenna, a second antenna and a third antenna, the first antenna is connected with the first terminal characteristic information acquisition module, the second antenna is connected with the second terminal characteristic information acquisition module, and the third antenna is connected with the third terminal characteristic information acquisition module. The embodiment of the utility model provides a feature acquisition equipment has improved the integrated level of equipment, has reduced the equipment volume.

Description

Miniature full frequency channel terminal characteristic acquisition equipment

Technical Field

The embodiment of the utility model provides a relate to the information acquisition field, especially relate to a miniature full frequency channel terminal feature acquisition equipment.

Background

With the development of mobile communication technology, mobile communication devices are more and more widely used, and in order to facilitate management of mobile users and terminals, information of the mobile users and the terminals is generally required to be collected.

The existing feature collection equipment can collect information of users and terminals, but at present, network systems are various, and the feature collection equipment can only be designed for a single network system. Although there is also a feature acquisition device designed for multiple network systems at present, the integration level is often low, and the device volume is large.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a feature acquisition equipment to improve feature acquisition equipment's integrated level, reduce the equipment volume.

The embodiment of the invention provides a miniature full-band terminal characteristic acquisition device, which comprises: the antenna comprises a shell, a main baseband board, a communication baseband module and an antenna module;

the main baseband board, the communication baseband module and the antenna module are all arranged inside the shell, the main baseband board is integrally provided with a first terminal characteristic information acquisition module, a second terminal characteristic information acquisition module and a third terminal characteristic information acquisition module, the antenna module comprises a first antenna, a second antenna and a third antenna, the first antenna is connected with the first terminal characteristic information acquisition module, the second antenna is connected with the second terminal characteristic information acquisition module, and the third antenna is connected with the third terminal characteristic information acquisition module; the communication baseband module is connected with the main baseband board;

the first antenna is used for receiving a first environment radio frequency signal and sending the first environment radio frequency signal to the corresponding first terminal characteristic information acquisition module; the first terminal characteristic information acquisition module is used for receiving the first environment radio frequency signal and processing the first environment radio frequency signal to acquire first terminal characteristic information;

the second antenna is used for receiving a second environment radio frequency signal and sending the second environment radio frequency signal to the corresponding second terminal characteristic information acquisition module; the second terminal characteristic information acquisition module is used for receiving the second environment radio frequency signal and processing the second environment radio frequency signal to acquire second terminal characteristic information;

the third antenna is used for receiving a third environment radio frequency signal and sending the third environment radio frequency signal to the corresponding third terminal characteristic information acquisition module; the third terminal characteristic information acquisition module is used for receiving the third environment radio frequency signal and processing the third environment radio frequency signal to acquire third terminal characteristic information;

the communication baseband module is used for receiving the first terminal characteristic information, the second terminal characteristic information and/or the third terminal characteristic information and sending the first terminal characteristic information, the second terminal characteristic information and/or the third terminal characteristic information to a designated platform through a connected external fixed network or a wireless network.

Optionally, the housing includes an upper housing and a lower housing, the upper housing has a smooth surface, and the surface of the lower housing is provided with a heat dissipation structure.

Optionally, a SIM card cover is arranged on the side surface of the lower casing, and the SIM card cover is used for preventing the SIM from falling out of the miniature full-band terminal feature acquisition device.

Optionally, the side of the lower shell is further provided with a vent valve, and the vent valve is used for adjusting the air pressure inside and outside the miniature full-band terminal feature acquisition device.

Optionally, the upper shell and the lower shell are further provided with a waterproof rubber strip, and the waterproof rubber strip is used for guaranteeing the overall waterproof sealing performance of the miniature full-band terminal feature acquisition equipment.

Optionally, the first terminal feature information acquisition module includes one of a mobile TDD module, a communication FDD module, or a telecommunications FDD module;

the second terminal characteristic information acquisition module comprises one of a mobile TDD module, a communication FDD module or a telecommunication FDD module;

the third terminal characteristic information acquisition module comprises one of a mobile TDD module, a communication FDD module or a telecommunication FDD module.

Optionally, the first terminal characteristic information acquisition module, the second terminal characteristic information acquisition module and the third terminal characteristic information acquisition module are all provided with a baseband chip, a power amplifier chip and a filter chip.

Optionally, the device further includes a MAC acquisition board for acquiring the MAC address signal.

Optionally, the heat conduction silica gel pad is further included, and the heat conduction silica gel pad is used for transferring the heat generated by the main base band plate to the shell for leading out.

Optionally, the main baseband board is further configured to control operating states of devices of the miniature full-band terminal feature acquisition device.

The miniature full-band terminal characteristic acquisition equipment provided by the embodiment of the invention adopts a high-integration design, and the main baseband board is integrated with the first terminal characteristic information acquisition module, the second terminal characteristic information acquisition module and the third terminal characteristic information acquisition module, so that the space occupied by independently arranging the terminal characteristic information acquisition modules in the characteristic acquisition equipment in the prior art is reduced, the volume of the whole miniature full-band terminal characteristic acquisition equipment is greatly reduced, and the concealment of the equipment is improved.

Drawings

Fig. 1 is a block diagram of a miniature full-band terminal feature acquisition device according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a full-band wireless terminal feature acquisition device according to a second embodiment of the present invention;

fig. 3 is a schematic perspective view of a full-band wireless terminal feature acquisition device provided by the embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Before discussing exemplary embodiments in more detail, it should be noted that the terms "first," "second," and the like may be used herein to describe various orientations, actions, steps, elements, or the like, but these orientations, actions, steps, or elements are not limited by these terms. These terms are only used to distinguish one direction, action, step or element from another direction, action, step or element. For example, a first terminal characteristic information acquisition module may be referred to as a second terminal characteristic information acquisition module, and similarly, a second terminal characteristic information acquisition module may be referred to as a first terminal characteristic information acquisition module, without departing from the scope of the present application. The first terminal characteristic information acquisition module and the second terminal characteristic information acquisition module are both terminal characteristic information acquisition modules, but are not the same terminal characteristic information acquisition module. The terms "first", "second", etc. are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Example one

Fig. 1 is the embodiment of the utility model provides a structural block diagram of miniature full frequency channel terminal characteristic acquisition equipment who provides, applicable in the scene that various needs gathered user and terminal information. As shown in fig. 1, the embodiment of the utility model provides a miniature full frequency channel terminal feature acquisition equipment includes: casing 10, main baseband board 20, communication baseband module 30 and antenna module 40 all locate inside casing 10, and antenna module 40 and main baseband board 20 are connected, and main baseband board 20 and communication baseband module 30 are connected. The antenna module 40 includes a first antenna 41, a second antenna 42, and a third antenna 43, and the main baseband board 20 is provided with a first terminal characteristic collection module 21, a second terminal characteristic collection module 22, and a third terminal characteristic collection module 23. The first terminal characteristic acquisition module 21 is connected with the first antenna 41, the second terminal characteristic acquisition module 22 is connected with the second antenna 42, the third terminal characteristic acquisition module 23 is connected with the third antenna 43, and the main baseband board 20 is connected with the communication baseband module 30.

Taking the first antenna 41 and the first terminal characteristic acquisition module 21 as examples, the working principle of the miniature full-band terminal characteristic acquisition device provided by the first embodiment of the present invention is described. The first antenna 41 receives a first environment radio frequency signal and sends the first environment radio frequency signal to the first terminal characteristic acquisition module 21, the first terminal characteristic acquisition module 21 extracts and processes first terminal characteristic information and sends the processed first terminal characteristic information to the parallel communication baseband module 30, and the communication baseband module 30 sends the first terminal characteristic information to a designated platform through a fixed network or a wireless network, so that the acquisition and transmission of the terminal characteristic information are completed.

Based on the same working principle, the second antenna 42 receives the second environment rf signal and transmits the second environment rf signal to the second terminal characteristic acquisition module 22, the second terminal characteristic acquisition module 22 extracts and processes the second terminal characteristic information, and transmits the processed second terminal characteristic information to the parallel communication baseband module 30, and the communication baseband module 30 transmits the second terminal characteristic information to the designated platform through the fixed network or the wireless network.

Based on the same working principle, the third antenna 43 receives the third environment radio frequency signal and transmits the third environment radio frequency signal to the third terminal characteristic acquisition module 23, the third terminal characteristic acquisition module 23 performs extraction and processing of the third terminal characteristic information and transmits the processed third terminal characteristic information to the parallel communication baseband module 30, and the communication baseband module 30 transmits the third terminal characteristic information to the designated platform through the fixed network or the wireless network.

Further, the first terminal characteristic acquisition module 21, the second terminal characteristic acquisition module 22 and the third terminal characteristic acquisition module 23 are all provided with a baseband chip, a power amplifier chip and a filter chip, and the environment radio-frequency signal is extracted as terminal characteristic information through the filter chip, the power amplifier chip and the baseband chip in sequence.

Optionally, the first terminal characteristic acquiring module 21, the second terminal characteristic acquiring module 22 and the third terminal characteristic acquiring module 23 include but are not limited to: one of a mobile terminal characteristic information acquisition module, a telecommunication terminal characteristic information acquisition module and a communication terminal characteristic information acquisition module. The collected first terminal characteristic information, second terminal characteristic information and third terminal characteristic information include but are not limited to: an international mobile equipment identity IMEI and an international mobile subscriber identity IMSI.

Optionally, the first terminal characteristic acquisition module 21, the second terminal characteristic acquisition module 22, and the third terminal characteristic acquisition module 23 may be different terminal characteristic information acquisition modules, or may be the same terminal characteristic information acquisition module. For example, the first terminal characteristic collection module 21 is a mobile terminal characteristic information collection module, the second terminal characteristic collection module 22 is a communication terminal characteristic information collection module, and the third terminal characteristic collection module 23 is a telecommunication terminal characteristic information collection module; or, the first terminal characteristic acquisition module 21 and the second terminal characteristic acquisition module 22 are both mobile terminal characteristic information acquisition modules, and the third terminal characteristic acquisition module 23 is a communication terminal characteristic information acquisition module. If different terminal characteristic information acquisition modules are adopted, terminal characteristic information acquisition can be carried out on equipment of a plurality of different operators, and if a plurality of same terminal characteristic information acquisition modules are adopted, terminal characteristic information acquisition can be carried out on a single operator, so that the acquisition efficiency of terminal characteristic information of the single operator can be improved.

Alternatively, the terminal feature information may be transmitted to a specific platform through the antenna module 40.

According to the embodiment of the invention, the radio frequency signals of the external environment are collected through the built-in antenna, the terminal characteristic information is extracted and processed through the at least three terminal characteristic information acquisition modules which are integrally designed on the main baseband board, and the terminal characteristic information is sent through the communication baseband module, so that the terminal characteristic information of a plurality of operators is acquired through one miniature full-band terminal characteristic acquisition equipment team, the integration level is high, the size of the equipment is reduced, and the concealment of the equipment can be improved when the equipment is installed in a public area.

Example two

Fig. 2 is the embodiment of the utility model provides a two structural schematic diagrams that provide a full frequency channel wireless terminal characteristic collection equipment, applicable scene in various needs collection user and terminal information.

As shown in fig. 2, the embodiment of the utility model provides a second full frequency channel wireless terminal feature acquisition equipment that provides includes: the antenna comprises an upper shell 11, a lower shell 12, a main baseband board 20, a communication baseband module 30, a first antenna 41, a second antenna 42, a third antenna 43, a MAC acquisition board 50, a waterproof adhesive tape 60, a heat-conducting silica gel pad 70, a vent valve 80 and a SIM card cover 90.

Specifically, go up casing 11 and casing 12 and constitute the casing of full frequency channel wireless terminal characteristic collection equipment jointly, the surface of going up casing 11 is level and smooth plane or curved surface, and the surface of casing 12 is provided with heat radiation structure 121 down, and heat radiation structure 121 has covered the biggest surface of casing 12 down, can effectively reduce the inside temperature of equipment, guarantees the normal operating temperature of each inside device of equipment. Still include joint strip 60 between last casing 11 and the lower casing 12, joint strip 60 has improved the waterproof leakproofness of equipment, makes each device in the equipment not receive external environment's influence.

The interior of the lower housing 12 is provided with a cavity 122, and the main baseband board 20, the communication baseband module 30, the antenna 40 and the MAC collecting board 50 are all disposed in the cavity 122.

Communication baseband module 30 sets up in the below that holds chamber 122, and communication baseband module 30 top sets up main baseband board 20, and main baseband board 20 top sets up mainboard support 21, and the side between main baseband board 20 and mainboard support 21 sets up first antenna 41, second antenna 42 and third antenna 43, and mainboard support 21 top sets up MAC and gathers board 50.

A first terminal characteristic information acquisition module, a second terminal characteristic information acquisition module and a third terminal characteristic information acquisition module (not shown in the figure) are integrated on the main baseband board 20, wherein the first terminal characteristic information acquisition module includes one of a mobile TDD (Time Division duplex) module, a communication FDD (Frequency Division duplex) module or a telecommunication FDD module; the second terminal characteristic information acquisition module comprises one of a mobile TDD module, a communication FDD module or a telecommunication FDD module; the third terminal characteristic information acquisition module comprises one of a mobile TDD module, a communication FDD module or a telecommunication FDD module.

Preferably, the first terminal characteristic information acquisition module is a mobile TDD module, the second terminal characteristic information acquisition module is a communication FDD module, the third terminal characteristic information acquisition module is a telecommunication FDD module, the first antenna 41 is connected with the mobile TDD module, the second antenna 42 is connected with the communication FDD module, and the third antenna 43 is connected with the telecommunication FDD module.

The main board support 21 not only plays a role in fixing the main base band board 20, but also can isolate the terminal characteristic information acquisition modules of the main base band board 20, thereby preventing electromagnetic interference between the terminal characteristic information acquisition modules and increasing the stability of equipment operation.

The MAC collection board 50 is used to collect the MAC address of the terminal device. The MAC acquisition board 50 sends the MAC address of the terminal device after the acquisition processing to the main baseband board 20, the main baseband board 20 forwards the MAC address data of the terminal device to the communication baseband module 30, and finally the communication baseband module 30 sends the MAC address of the terminal device to the designated platform. By using the separate MAC acquisition board 50 to acquire the MAC address of the terminal device, the workload of the main baseband board 20 is effectively reduced.

Further, the main baseband board 20 is further configured to control the operating states of the devices of the miniature full-band terminal feature collection device. For example, if only the micro full-band wireless terminal feature acquisition device needs to acquire the terminal feature information of the mobile operator and the MAC address of the terminal device, the main baseband board 20 may close the working mode of the communication FDD module and the telecommunication FDD module, and control the mobile TDD module and the MAC acquisition board 50 to work.

Further, the micro full-band wireless terminal feature acquisition device provided by the second embodiment of the present invention may be inserted with an SIM card, and the communication baseband module 30 may implement data transmission with a designated platform by using data traffic of the SIM card, so that the side wall of the lower housing 12 is further provided with an SIM card cover 90 for preventing the SIM card from falling out of the SIM card slot.

Further, the side wall of the lower casing 12 is further provided with a vent valve 80, and the vent valve 80 is in a normally open state and is used for adjusting the air pressure inside and outside the equipment to ensure the air pressure of each part in the equipment to be stable.

Further, still be equipped with a plurality of heat conduction silica gel pad 70 between lower casing 12 and the main baseband board 20, heat conduction silica gel pad 70 dispels the heat through the heat radiation structure 121 that the surface of lower casing 12 set up with the heat transfer to lower casing 12 that main baseband board 20 and main baseband board 20 produced.

Further, as shown in fig. 3, the side wall of the lower case 12 is further provided with a first port 123, a second port 124, a third port 125 and a fourth port 126. The first interface 123 and the second interface 124 are external fixed network interfaces, and the first interface 123 and/or the second interface 124 may be selected to connect to a network cable according to actual needs, or may be connected to a GPS cable, so as to locate the device. The third interface 125 is a power interface, and an external power source is connected to the inside of the device through the third interface 125 to supply power to each device inside the device. The fourth interface 126 is an external antenna interface, and when data transmission needs to be performed by using an external antenna, the antenna may be disposed on the fourth interface 126.

The miniature full-band terminal characteristic acquisition equipment provided by the embodiment of the invention realizes the acquisition of terminal characteristic information of multiple operators, can adjust the number of operators needing to acquire the terminal characteristic information actually, effectively reduces the workload of a main baseband board by arranging the MAC acquisition board, ensures a stable working environment in the equipment by arranging the heat dissipation structure, the heat conduction silica gel pad and the vent valve, improves the equipment integration level, reduces the equipment volume and also improves the running stability of the equipment.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a miniature full frequency channel terminal characteristic acquisition equipment which characterized in that includes: the antenna comprises a shell, a main baseband board, a communication baseband module and an antenna module;

the main baseband board, the communication baseband module and the antenna module are all arranged in the shell, the antenna module is connected with the main baseband board, and the main baseband board is connected with the communication baseband module; the main baseband board is integrally designed with a first terminal characteristic information acquisition module, a second terminal characteristic information acquisition module and a third terminal characteristic information acquisition module, wherein the antenna module comprises a first antenna, a second antenna and a third antenna, the first antenna is connected with the first terminal characteristic information acquisition module, the second antenna is connected with the second terminal characteristic information acquisition module, and the third antenna is connected with the third terminal characteristic information acquisition module;

the first antenna is used for receiving a first environment radio frequency signal and sending the first environment radio frequency signal to the corresponding first terminal characteristic information acquisition module; the first terminal characteristic information acquisition module is used for receiving the first environment radio frequency signal and processing the first environment radio frequency signal to acquire first terminal characteristic information;

the second antenna is used for receiving a second environment radio frequency signal and sending the second environment radio frequency signal to the corresponding second terminal characteristic information acquisition module; the second terminal characteristic information acquisition module is used for receiving the second environment radio frequency signal and processing the second environment radio frequency signal to acquire second terminal characteristic information;

the third antenna is used for receiving a third environment radio frequency signal and sending the third environment radio frequency signal to the corresponding third terminal characteristic information acquisition module; the third terminal characteristic information acquisition module is used for receiving the third environment radio frequency signal and processing the third environment radio frequency signal to acquire third terminal characteristic information;

the communication baseband module is used for receiving the first terminal characteristic information, the second terminal characteristic information and/or the third terminal characteristic information and sending the first terminal characteristic information, the second terminal characteristic information and/or the third terminal characteristic information to a designated platform through a connected external fixed network or a wireless network.

2. The miniature full band terminal feature collection device of claim 1, wherein the housing comprises an upper housing and a lower housing, the upper housing having a smooth surface, the lower housing having a heat sink structure disposed on the surface.

3. The miniature full-band terminal feature collection device according to claim 2, wherein a SIM card cover is disposed on a side surface of the lower housing, and the SIM card cover is configured to prevent a SIM from falling out of the miniature full-band terminal feature collection device.

4. The micro full band terminal feature collecting device according to claim 2, wherein a vent valve is further provided on a side surface of the lower case, and the vent valve is used to adjust air pressures inside and outside the micro full band terminal feature collecting device.

5. The miniature full-band terminal feature collection device according to claim 2, wherein a waterproof adhesive tape is further disposed between the upper casing and the lower casing, and the waterproof adhesive tape is used for ensuring overall waterproof sealing performance of the miniature full-band terminal feature collection device.

6. The micro full band terminal feature acquisition device of claim 1, wherein the first terminal feature information acquisition module comprises one of a mobile TDD module, a unicom FDD module, or a telecommunications FDD module;

the second terminal characteristic information acquisition module comprises one of a mobile TDD module, a communication FDD module or a telecommunication FDD module;

the third terminal characteristic information acquisition module comprises one of a mobile TDD module, a communication FDD module or a telecommunication FDD module.

7. The apparatus of claim 6, wherein the first terminal characteristic information collection module, the second terminal characteristic information collection module, and the third terminal characteristic information collection module are each provided with a baseband chip, a power amplifier chip, and a filter chip.

8. The miniature full band terminal signature collection device of claim 1, further comprising a MAC collection board for collecting MAC address signals.

9. The miniature full-band terminal feature collection device of claim 1, further comprising a thermally conductive silicone pad for transferring heat generated by the main baseband board to the housing for extraction.

10. The miniature full-band signature capture device of any of claims 1-9, wherein said master baseband board is further configured to control the operating state of components of said miniature full-band signature capture device.

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