CN220797140U - AD 9361-based assembly structure - Google Patents

Abstract

The utility model discloses an AD 9361-based assembly structure, which comprises a shell, a circuit board main body and a connector module, wherein the circuit board main body and the connector module are both arranged on the shell and are connected with the circuit board main body, the circuit board main body is provided with a first component and a second component which are integrally formed, and one side of the first component, which is far away from the second component, is provided with a first connector installation area, a second connector installation area, a third connector installation area, a fourth connector installation area, a fifth connector installation area, a first chamfering structure, a second chamfering structure, a first installation hole and a second installation hole. The assembling structure based on the AD9361 disclosed by the utility model has the advantages that the connectors corresponding to the AD9361 are all installed in a matched mode through the circuit board main body and the connector module, so that the assembling structure is connected when in use, the structure is stable, the practicability is high, the installation efficiency is high, and the like.

Description

AD 9361-based assembly structure

Technical Field

The utility model belongs to the technical field of chip assembly structures, and particularly relates to an assembly structure based on AD 9361.

Background

The AD9361 device integrates an RF front end with a flexible mixed signal baseband section, integrates a frequency synthesizer, and provides a configurable digital interface for the processor.

The existing AD9361 is not assembled with the matched connector and other structures during assembly, so that the existing AD9361 needs to be installed and connected again during use, and efficiency is affected.

Accordingly, the above problems are further improved.

Disclosure of Invention

The utility model mainly aims to provide an AD 9361-based assembly structure, which is characterized in that connectors corresponding to AD9361 are all installed in a matched mode through a circuit board main body and a connector module, so that the connectors are connected when in use, and the AD 9361-based assembly structure has the advantages of stable structure, high practicability, high installation efficiency and the like.

To achieve the above object, the present utility model provides an assembly structure based on AD9361, comprising a housing, a circuit board main body (provided with devices such as an AD9361 chip) and a connector module, both of which are mounted to the housing and the connector module is connected to the circuit board main body, wherein:

the circuit board main body is provided with a first component and a second component which are integrally formed, one side, far away from the second component, of the first component is provided with a first connector installation area, a second connector installation area, a third connector installation area, a fourth connector installation area, a fifth connector installation area, a first chamfering structure, a second chamfering structure, a first installation hole and a second installation hole, the first installation hole is positioned at one end close to the first chamfering structure, and the second installation hole is positioned at one end close to the second chamfering structure; the second component is provided with a sixth connector mounting area, a third mounting hole and a fourth mounting hole, and the third mounting hole and the fourth mounting hole are positioned on one side of the second component away from the first component;

the connector module comprises a first radio frequency connector, a second radio frequency connector, a third radio frequency connector, a fourth radio frequency connector, a radio frequency coaxial electric connector and a board-to-board connector, wherein the first radio frequency connector is installed in the first connector installation area, the second radio frequency connector is installed in the second connector installation area, the third radio frequency connector is installed in the third connector installation area, the fourth radio frequency connector is installed in the fourth connector installation area, the radio frequency coaxial electric connector is installed in the fifth connector installation area, and the board-to-board connector is installed in the sixth connector installation area.

As a further preferable aspect of the above technical aspect, the first radio frequency connector, the second radio frequency connector, the third radio frequency connector, and the fourth radio frequency connector are all located at side ends of the first component and all face the first direction.

As a further preferable aspect of the foregoing technical solution, the radio frequency coaxial electrical connector is located at a distance from a side end of the first component and is located between the second radio frequency connector and the third radio frequency connector, and the radio frequency coaxial electrical connector faces a second direction, which is perpendicular to the first direction.

As a further preferable technical scheme of the technical scheme, a concave structure (convenient for installation and positioning) is arranged on one side of the second component away from the first component.

As a further preferable aspect of the foregoing aspect, the length of the second component is smaller than the length of the first component (the side where the first component and the second component are connected is set to be long).

Drawings

Fig. 1 is a schematic structural diagram of an assembly structure based on AD9361 of the present utility model.

Fig. 2 is a schematic structural diagram of an assembly structure based on AD9361 of the present utility model.

Fig. 3 is a schematic structural diagram of an assembly structure based on AD9361 of the present utility model.

The reference numerals include: 100. a circuit board main body; 110. a first component; 111. a first connector mounting area; 112. a second connector mounting area; 113. a third connector mounting area; 114. a fourth connector mounting area; 115. a fifth connector mounting area; 116. a first chamfer structure; 117. a second chamfer structure; 118. a first mounting hole; 119. a second mounting hole; 120. a second component; 121. a sixth connector mounting area; 122. a third mounting hole; 123. a fourth mounting hole; 124. a concave structure; 200. a connector module; 210. a first radio frequency connector; 220. a second radio frequency connector; 230. a third radio frequency connector; 240. a fourth radio frequency connector; 250. a radio frequency coaxial electrical connector; 260. a board-to-board connector.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

The utility model discloses an assembling structure based on AD9361, and the specific embodiment of the utility model is further described below with reference to the preferred embodiment.

In the embodiments of the present utility model, those skilled in the art note that the AD9361 and the like to which the present utility model relates can be regarded as the prior art.

Preferred embodiments.

As shown in fig. 1 to 3, the present utility model discloses an assembling structure based on AD9361, which comprises a housing (not shown), a circuit board main body 100 (provided with devices such as an AD9361 chip) and a connector module 200, wherein the circuit board main body 100 and the connector module 200 are both mounted to the housing and the connector module 200 is connected to the circuit board main body 100, wherein:

the circuit board main body 100 is provided with a first component 110 and a second component 120 which are integrally formed, a first connector mounting area 111, a second connector mounting area 112, a third connector mounting area 113, a fourth connector mounting area 114, a fifth connector mounting area 115, a first chamfering structure 116, a second chamfering structure 117, a first mounting hole 118 and a second mounting hole 119 are arranged on one side of the first component 110 away from the second component 120, the first mounting hole 118 is positioned near one end of the first chamfering structure 115 and the second mounting hole 119 is positioned near one end of the second chamfering structure 117; the second component 120 is provided with a sixth connector mounting area 121, a third mounting hole 122 and a fourth mounting hole 123, wherein the third mounting hole 122 and the fourth mounting hole 123 are positioned on the side of the second component 120 away from the first component 110;

the connector module 200 includes a first rf connector 210, a second rf connector 220, a third rf connector 230, a fourth rf connector 240, an rf coaxial electrical connector 250, and a board-to-board connector 260, wherein the first rf connector 210 is mounted to the first connector mounting region 111, the second rf connector 220 is mounted to the second connector mounting region 112, the third rf connector 230 is mounted to the third connector mounting region 113, the fourth rf connector 240 is mounted to the fourth connector mounting region 114, the rf coaxial electrical connector 250 is mounted to the fifth connector mounting region 115, and the board-to-board connector 260 is mounted to the sixth connector mounting region 121.

Specifically, the first rf connector 210, the second rf connector 220, the third rf connector 230, and the fourth rf connector 240 are located at side ends of the first component 110 and all face in the first direction.

More specifically, the rf coaxial electrical connector 250 is spaced apart from the lateral end of the first component 110 and the rf coaxial electrical connector 250 is positioned between the second rf connector 220 and the third rf connector 230, the rf coaxial electrical connector 250 being oriented in a second direction that is perpendicular to the first direction.

Further, a concave structure 124 (for easy installation and positioning) is provided on a side of the second component 120 away from the first component 110.

Further, the length of the second component 120 is smaller than the length of the first component 110 (the side where the first component and the second component are connected is long).

It should be noted that technical features such as AD9361 related to the present application should be considered as the prior art, and specific structures, working principles, and control manners and spatial arrangements related to the technical features may be selected conventionally in the art, and should not be considered as the point of the present application, which is not further specifically described in detail herein.

Modifications of the embodiments described above, or equivalents of some of the features may be made by those skilled in the art, and any modifications, equivalents, improvements or etc. within the spirit and principles of the present utility model are intended to be included within the scope of the present utility model.

Claims (5)

1. An assembly structure based on AD9361, characterized by, including shell, circuit board main part and connector module, the circuit board main part with the connector module all install in the shell and the connector module in the circuit board main part is connected, wherein:

the circuit board main body is provided with a first component and a second component which are integrally formed, one side, far away from the second component, of the first component is provided with a first connector installation area, a second connector installation area, a third connector installation area, a fourth connector installation area, a fifth connector installation area, a first chamfering structure, a second chamfering structure, a first installation hole and a second installation hole, the first installation hole is positioned at one end close to the first chamfering structure, and the second installation hole is positioned at one end close to the second chamfering structure; the second component is provided with a sixth connector mounting area, a third mounting hole and a fourth mounting hole, and the third mounting hole and the fourth mounting hole are positioned on one side of the second component away from the first component;

the connector module comprises a first radio frequency connector, a second radio frequency connector, a third radio frequency connector, a fourth radio frequency connector, a radio frequency coaxial electric connector and a board-to-board connector, wherein the first radio frequency connector is installed in the first connector installation area, the second radio frequency connector is installed in the second connector installation area, the third radio frequency connector is installed in the third connector installation area, the fourth radio frequency connector is installed in the fourth connector installation area, the radio frequency coaxial electric connector is installed in the fifth connector installation area, and the board-to-board connector is installed in the sixth connector installation area.

2. The AD 9361-based mounting structure of claim 1, wherein the first radio frequency connector, the second radio frequency connector, the third radio frequency connector, and the fourth radio frequency connector are each located at a lateral end of the first component and are each oriented in a first direction.

3. The AD 9361-based mounting structure of claim 2, wherein the rf coaxial electrical connector is spaced from a lateral end of the first component and is positioned between the second rf connector and the third rf connector, the rf coaxial electrical connector oriented in a second direction that is perpendicular to the first direction.

4. A mounting structure based on AD9361 according to claim 3, wherein the side of the second component remote from the first component is provided with a recess.

5. The AD 9361-based mounting structure of claim 4, wherein the length of the second component is less than the length of the first component.