JP6963645B2 - Electronics - Google Patents

Description

The present invention relates to electronic devices.

An electronic device such as a notebook type personal computer (notebook PC) includes an antenna for wireless communication and a communication module (see, for example, Patent Document 1). The antenna is connected to the communication module.

Japanese Unexamined Patent Publication No. 2013-162413

In the electronic device, the transmission loss between the antenna and the communication module may increase depending on the specifications of the antenna and the like.

One aspect of the present invention is to provide an electronic device capable of suppressing a transmission loss between an antenna and a communication module.

One aspect of the present invention includes a housing, a main board provided in the housing and mounted with a central processing device, and a first communication module provided in the housing and electrically connected to the main board. A battery provided in the housing and supplying power to at least the main board, a first antenna for wireless communication provided in a first side surface region including the first side surface of the housing, and the first side surface are A second antenna for wireless communication provided in a second side surface region including the opposite second side surface is provided, and the first antenna is connected to the first communication module via a first signal line so as to be able to transmit and receive. The second antenna is connected to the first communication module via a second signal line so as to be able to transmit and receive, and the main board and the battery are provided at different positions in a plan view, and the first communication is performed. The module provides an electronic device provided in an intermediate region between the main board and the battery in plan view.

The first antenna and the second antenna preferably correspond to radio waves in the millimeter wave band.

The main board and the battery are provided at different positions in a second direction orthogonal to the first direction in which the first side surface and the second side surface face each other in a plan view, and the first communication module is provided. It is preferable that the housing is provided at a position including the center of the housing in the first direction.

The electronic device further includes a third antenna for wireless communication provided in a third side surface region including a first side surface of the housing and a third side surface substantially orthogonal to the second side surface, and the third side surface. The antenna is connected to the first communication module via a third signal line so as to correspond to radio waves in the millimeter wave band, and the first communication module connects the first to third antennas in a plan view. It is preferable that the antenna is provided in the triangular region as the apex.

The electronic device is provided in a third side surface region including the first side surface of the housing and a third side surface substantially orthogonal to the second side surface, and can transmit and receive to and from the first communication module via a fourth signal line. A fourth antenna for wireless communication connected to the above, and a fifth antenna for wireless communication provided in the third side surface region and connected to the first communication module via a fifth signal line so as to be able to transmit and receive. It is preferable that the fourth antenna and the fifth antenna correspond to wireless communication having a communication standard different from that of the first antenna and the second antenna.

The electronic device further includes a second communication module provided in the housing and electrically connected to the main board, provided in the first side surface region, and the second communication via a sixth signal line. An eighth antenna for wireless communication connected to the module so that it can be transmitted and received, and a second antenna for wireless communication provided in the second side surface region and connected to the second communication module via the seventh signal line so that the antenna can be transmitted and received. The 8th antenna and the 9th antenna further include 9 antennas, and the 8th antenna and the 9th antenna correspond to wireless communication of a communication standard different from the communication standards used in the 1st antenna and the 2nd antenna, and the 2nd communication module , It is preferable that the antenna is provided in the intermediate region in a plan view.

The electronic device includes a proximity sensor built in the first antenna and the second antenna, respectively, to detect the approach of a living body, and a connection board interposed between the first communication module and the main board. Further provided, the first communication module reduces the output of the first antenna with the approach of the living body detected by the proximity sensor built in the first antenna, and makes the second antenna It is preferable to reduce the output of the second antenna with the approach of the living body detected by the built-in proximity sensor.

The electronic device further includes a keyboard provided in the housing, a display housing that is openably and closably connected to the housing via a hinge, and a display mounted on the display housing. Is preferable.

According to one aspect of the present invention, there is provided an electronic device capable of suppressing a transmission loss between an antenna and a communication module.

It is a perspective view of the electronic device which concerns on embodiment. It is a top view of the 2nd housing of the electronic device which concerns on embodiment. FIG. 5 is a plan view of the internal structure of the second housing of the electronic device according to the embodiment as viewed from the outer surface (back surface) side. It is a top view which shows the internal structure of the 2nd housing of the electronic device which concerns on embodiment with abbreviated signal lines. It is a top view which shows the internal structure of the 2nd housing of the electronic device which concerns on embodiment abbreviated some parts.

The electronic device according to the embodiment will be described. FIG. 1 is a perspective view of the electronic device 100 according to the embodiment. FIG. 2 is a plan view of the second housing 102 of the electronic device 100.

As shown in FIG. 1, the electronic device 100 includes a first housing 101, a second housing 102 (housing), first to ninth antennas 11 to 19, and a main board 1 (see FIG. 3). , Battery unit 2 (see FIG. 3), first communication module 3 (see FIG. 3), connection board 4 (see FIG. 3), second communication module 5 (see FIG. 3), first and second. Proximity sensors 31 and 32 (see FIG. 3) are provided. The electronic device 100 is, for example, a notebook PC (PC: personal computer).

The ends of the first housing 101 and the second housing 102 are connected to each other via a hinge mechanism 110. The first housing 101 is relatively rotatable about the rotation axis formed by the hinge mechanism 110 with respect to the second housing 102. When the first housing 101 is closed with respect to the second housing 102, the inner surface 102c of the second housing 102 faces the display 103 of the first housing 101. The outer surface (back surface) 102d is the opposite surface of the inner surface 102c.

The first housing 101 is also called a display housing. The second housing 102 is also called a system housing. The first housing 101 and the second housing 102 are formed in a rectangular plate shape. Of the ends of the first housing 101 and the second housing 102, the ends provided with the hinge mechanism 110 are referred to as the first base end portion 101b and the second base end portion 102b, respectively. The ends opposite to the first base end portion 101b and the second base end portion 102b are referred to as a first open end portion 101a and a second open end portion 102a, respectively.

In the second housing 102, the direction from the second base end 102b to the second open end 102a is referred to as "forward". The direction opposite to the front is called "rear". The front and rear are collectively referred to as "front-back direction". The left and right sides in FIG. 2 are referred to as "left side" and "right side", respectively. The left and right sides are collectively referred to as "left-right direction".

Regarding the second housing 102, the positional relationship of each configuration may be described using the XYZ Cartesian coordinate system. The X direction (second direction) is the front-back direction. The + X direction is forward. The −X direction is backward. The X direction (second direction) is a direction orthogonal to the Y direction (first direction) and the thickness direction (Z direction) of the second housing 102.
The Y direction (first direction) is a left-right direction orthogonal to the X direction. The + Y direction is to the right. The −Y direction is to the left. The second base end portion 102b extends in the Y direction. The Y direction (first direction) is the direction in which the first side surface 113a and the second side surface 113b face each other.
The Z direction is the thickness direction of the second housing 102, and is a direction orthogonal to the X direction and the Y direction. The + Z direction is upward. The −Z direction is downward. The Z direction is the vertical direction. The Z direction is the height direction. Viewing from the Z direction (vertical direction) is called plan view.

The first housing 101 is equipped with a display 103. The display 103 is, for example, a liquid crystal display, an organic EL (EL: Electro-Luminescence) display, or the like.

The second housing 102 includes an upper plate 111 (first main plate), a lower plate 112 (second main plate), a pair of side plates 113 and 113, a front plate 114, and a rear plate 115. The second housing 102 is a flat plate-shaped case body. The second housing 102 is made of, for example, a metal such as an aluminum alloy or a magnesium alloy.

The upper plate 111 is along the XY plane. The upper plate 111 faces the lower plate 112 at a distance from the lower plate 112. The upper plate 111 has a rectangular shape in a plan view.
The lower plate 112 faces the mounting surface when the second housing 102 is placed on the mounting surface (such as the upper surface of a desk). The lower plate 112 has a rectangular shape in a plan view.

One side plate 113 (first side plate 113A) of the pair of side plates 113 is formed from the left side edge 111b of the upper plate 111 to the left side edge of the lower plate 112. The outer surface of the first side plate 113A is referred to as the first side surface 113a (side surface). A part or all of the first side plate 113A (for example, a part corresponding to at least the first antenna 11 and the eighth antenna 16) is a radio wave transmitting portion made of a material (for example, synthetic resin) capable of transmitting radio waves. ing.

The other side plate 113 (second side plate 113B) of the pair of side plates 113 is formed from the right side edge 111b of the upper plate 111 to the right side edge of the lower plate 112. The outer surface of the second side plate 113B is referred to as the second side surface 113b (side surface). A part or all of the second side plate 113B (for example, a part corresponding to at least the second antenna 12 and the ninth antenna 17) is a radio wave transmitting portion made of a material (for example, synthetic resin) capable of transmitting radio waves. ing.

The front plate 114 is formed from the front end of the upper plate 111 to the front end of the lower plate 112. The outer surface (front surface) of the front plate 114 is referred to as the front surface 114a (third side surface). The front surface 114a is orthogonal (or substantially orthogonal) to the first side surface 113a and the second side surface 113b. The rear plate 115 is formed from the rear end of the upper plate 111 to the rear end of the lower plate 112.

The second housing 102 mounts the keyboard 107 and the touch pad 108. The keyboard 107 and the touchpad 108 are input devices.

As shown in FIG. 2, in a plan view, a rectangular frame-shaped region including the outer peripheral edge 111d of the upper plate 111 is referred to as an outer peripheral edge region 117. The outer peripheral region 117 is composed of a front side region 117A, a pair of side side regions 117B and 117B, and a rear side region 117C.
The front side region 117A is a linear strip region including the leading edge 111a of the upper plate 111. The front side region 117A is a region extending over the entire length of the upper plate 111 in the left-right direction, that is, a region extending in the Y direction from one side edge 111b of the upper plate 111 to the other side edge 111b.
The front side region 117A is referred to as a "third side surface region 117A". The third side surface region 117A is a region including the front surface 114a in a plan view.

The side side regions 117B and 117B are linear strip regions including the side edges 111b and 111b of the upper plate 111, respectively. The side side regions 117B and 117B are regions extending over the entire length of the upper plate 111 in the front-rear direction, that is, regions extending in the X direction from the leading edge 111a to the trailing edge 111c. The side side regions 117B and 117B extend rearward from both ends of the front side region 117A, respectively.
The width W1 of the side area 117B is, for example, the same as or smaller than the distance between the side edge 107b of the keyboard 107 and the side edge 111b facing the side edge 107b.

Of the two side areas 117B and 117B, the left side area 117B is referred to as a "first side area 117B1". The first side surface region 117B1 is a region including the first side surface 113a in a plan view. Of the two side areas 117B and 117B, the right side area 117B is referred to as a "second side area 117B2". The second side surface region 117B2 is a region including the second side surface 113b in a plan view.

The trailing edge region 117C is a linear strip region including the trailing edge 111c of the upper plate 111. The rear side region 117C covers the entire length of the upper plate 111 in the left-right direction. The rear side region 117C extends in the Y direction from the rear end of one side side region 117B to the rear end of the other side side region 117B.

The outer peripheral region 117 is, for example, an region that does not include the keyboard 107 in a plan view. The width of the front side region 117A, the width of the side side regions 117B and 117B, and the width of the rear side region 117C are equal to each other.

The first antenna 11, the second antenna 12, and the third antenna 13 are antennas for wireless communication.
The first antenna 11 is provided in the second housing 102 at a position included in the first side surface region 117B1 in a plan view. The first antenna 11 is provided at an intermediate position in the length direction of the first side surface region 117B1 in a plan view. For example, the first antenna 11 is located at a position closer to the rear than the center in the length direction of the first side surface region 117B1 in a plan view.

The second antenna 12 is provided in the second housing 102 at a position included in the second side surface region 117B2 in a plan view. The second antenna 12 is provided at an intermediate position in the length direction of the second side surface region 117B2 in a plan view. For example, the second antenna 12 is located at a position closer to the rear than the center in the length direction of the second side surface region 117B2 in a plan view.

Since the first antenna 11 and the second antenna 12 are arranged at positions close to the side surfaces 113a and 113b of the second housing 102, radio waves from the outside can easily reach the antennas 11 and 12 without being attenuated. In addition, the radio waves radiated from the antennas 11 and 12 are easily radiated to the outside without being attenuated. Therefore, the transmission / reception characteristics (characteristics of at least one of transmission and reception) of the antennas 11 and 12 are enhanced.

The third antenna 13 is provided in the second housing 102 at a position included in the third side surface region 117A (front side region 117A) in a plan view. The third antenna 13 is provided at an intermediate position in the length direction of the third side surface region 117A in a plan view. The third antenna 13 is located, for example, at a position including the center in the length direction of the third side surface region 117A in a plan view.
Since the third antenna 13 is arranged at a position close to the front surface 114a of the second housing 102, the transmission / reception characteristics (characteristics of at least one of transmission and reception) are enhanced as in the antennas 11 and 12.

The first antenna 11, the second antenna 12, and the third antenna 13 correspond to radio waves in the millimeter wave band. That is, the first to third antennas 11, 12, and 13 can transmit and receive at least one of radio waves in the millimeter wave band. The radio wave in the millimeter wave band is, for example, a radio wave in a frequency band of 24 GHz to 300 GHz (for example, 24 GHz to 100 GHz).

A part of the upper plate 111, in which the first antenna 11, the second antenna 12, and the third antenna 13 face each other, is a radio wave transmitting portion (not shown) through which radio waves can be transmitted. A part of the side plates 113 and 113 corresponding to the antennas 11 and 12 is a radio wave transmitting portion (not shown). The region corresponding to the antenna 13, which is a part of the front plate 114, is a radio wave transmitting portion (not shown). The radio wave transmitting portion is made of a material capable of transmitting radio waves, for example, a synthetic resin.
The first antenna 11, the second antenna 12, and the third antenna 13 have a built-in proximity sensor (not shown).

The fourth antenna 14, the fifth antenna 15, the sixth antenna 18, and the seventh antenna 19 are antennas for wireless communication.
The fourth antenna 14 and the fifth antenna 15 are provided in the second housing 102 at a position included in the third side surface region 117A (front side region 117A). The fourth antenna 14 and the fifth antenna 15 are provided at intermediate positions in the length direction of the third side surface region 117A in a plan view.
The fourth antenna 14 is located to the left of the center in the length direction of the third side surface region 117A in a plan view. The fifth antenna 15 is located to the right of the center in the length direction of the third side surface region 117A in a plan view.

The sixth antenna 18 is provided in the second housing 102 at a position included in the first side surface region 117B1 (see FIG. 2) in a plan view. In the present embodiment, the 7th antenna 18 is arranged adjacent to (close to) the 4th antenna 14. The seventh antenna 19 is provided in the second housing 102 at a position included in the second side surface region 117B2 (see FIG. 2) in a plan view. In the present embodiment, the 7th antenna 19 is arranged adjacent to (close to) the 5th antenna 15.

The fourth antenna 14, the fifth antenna 15, the sixth antenna 18, and the seventh antenna 19 correspond to wireless communication having a communication standard different from the communication standard used by the first to third antennas 11 to 13. Examples of the communication standard supported by the antennas 14 to 19 include a wireless WAN (WAN: Wide Area Network).
The fourth antenna 14 is a main antenna that functions as a transceiver (Tx / Rx), and the fifth antenna 15 is an ox antenna that functions as a receiver (Rx).

The sixth antenna 18 and the seventh antenna 19 are antennas for supporting 4 × 4 MIMO (Multi-Input Multi-Output). The sixth antenna 18 functions as a receiver (Rx), and the seventh antenna 19 functions as a transceiver (Tx / Rx). If it is not necessary to support 4x4 MIMO, the sixth antenna 18 and the seventh antenna 19 may be omitted as appropriate.

The eighth antenna 16 and the ninth antenna 17 are antennas for wireless communication.
The eighth antenna 16 is provided in the second housing 102 at a position included in the first side surface region 117B1 (see FIG. 2) in a plan view. The eighth antenna 16 is located in front of the first antenna 11. The ninth antenna 17 is provided in the second housing 102 at a position included in the second side surface region 117B2 (see FIG. 2) in a plan view. The ninth antenna 17 is located in front of the second antenna 12.

The eighth antenna 16 and the ninth antenna 17 correspond to wireless communication having a communication standard different from the communication standard used in the first to third antennas 11 to 13. Examples of the communication standard supported by the eighth antenna 16 and the ninth antenna 17 include a wireless LAN (LAN: Local Area Network) such as Wifi (Wireless Fidelity) (registered trademark). The eighth antenna 16 and the ninth antenna 17 are, for example, one is a main antenna and the other is an ox antenna.

FIG. 3 is a plan view of the internal structure of the second housing 102 of the electronic device 100 as viewed from the outer surface (back surface) 102d side (see FIG. 1). FIG. 4 is a plan view showing the internal structure of the second housing 102 with abbreviated signal lines. FIG. 5 is a plan view showing the internal structure of the second housing 102 with some parts omitted.

As shown in FIGS. 3 and 4, the main substrate 1 has a substantially rectangular shape in a plan view. The main board 1 is a motherboard. The main substrate 1 has, for example, a rectangular shape with the length direction directed to the left-right direction (Y direction). A central processing unit 1A is mounted on the main board 1. The central processing unit 1A is a CPU (Central Processing Unit). The main board 1 is provided in the second housing 102, for example, at a position closer to the rear than the center (center position C1 shown in FIG. 4) in the front-rear direction (X direction) in a plan view.

The battery unit 2 includes a main battery 2A (battery) and two auxiliary batteries 2B.
The main battery 2A has a rectangular shape in a plan view. The main battery 2A has, for example, a rectangular shape with the length direction directed to the left-right direction (Y direction). The main battery 2A is provided in the second housing 102, for example, at a position closer to the front than the center (center position C1 shown in FIG. 4) in the front-rear direction (X direction) in a plan view.

The main board 1 and the main battery 2A are provided at different positions in the front-rear direction (second direction) in a plan view. The main board 1 and the main battery 2A are provided at intervals in the front-rear direction. The region between the main substrate 1 and the main battery 2A is referred to as an intermediate region R1. The intermediate region R1 is a region between the leading edge 1a of the main substrate 1 and the trailing edge 2Aa of the main battery 2A, and is a strip-shaped region extending in the left-right direction. The intermediate region R1 may be a region extending over the entire length of the second housing 102 in the left-right direction.

The auxiliary battery 2B has a rectangular shape in a plan view. The auxiliary battery 2B is adjacent to the main battery 2A on the rear side. The two auxiliary batteries 2B and 2B are installed at intervals in the left-right direction. On the other hand, the auxiliary battery 2B (2B1) is provided at a position closer to the −Y direction than the center (center position C2 shown in FIG. 4) in the left-right direction (Y direction) in a plan view. The other auxiliary battery 2B (2B2) is provided at a position closer to the + Y direction than the center (center position C2 shown in FIG. 4) in the left-right direction (Y direction) in a plan view.
The battery unit 2 supplies power to electronic components (for example, main board 1, first communication module 3, display 103, etc.) in the electronic device 100.

The first communication module 3 is an electronic component for communicating with an external device (access point or the like) via an antenna. The first communication module 3 includes, for example, a receiving circuit, a transmitting circuit, a switching circuit, and the like. The first communication module 3 is electrically connected to the main board 1 via, for example, a connection board 4.

As shown in FIG. 4, the first communication module 3 is provided in the intermediate region R1 (the region between the main substrate 1 and the main battery 2A) in a plan view. The first communication module 3 is formed at a position including, for example, the center in the left-right direction (Y direction) (center position C2 shown in FIG. 4).
The first communication module 3 is provided in a triangular region R2 having the first to third antennas 11 to 13 as vertices in a plan view. The three vertices of the region R2 are at the centers of gravity of the first to third antennas 11 to 13 in a plan view.

As shown in FIGS. 3 and 5, the first antenna 11 is connected to the first communication module 3 via the first signal line 21 so as to be able to transmit and receive. The second antenna 12 is connected to the first communication module 3 via the second signal line 22 so as to be able to transmit and receive. The third antenna 13 is connected to the first communication module 3 via the third signal line 23 so as to be able to transmit and receive. The fourth antenna 14 is connected to the first communication module 3 via the fourth signal line 24 so as to be able to transmit and receive. The fifth antenna 15 is connected to the first communication module 3 via the fifth signal line 25 so as to be able to transmit and receive. The sixth antenna 18 is connected to the first communication module 3 via the eighth signal line 28 so as to be able to transmit and receive. The seventh antenna 19 is connected to the first communication module 3 via the ninth signal line 29 so as to be able to transmit and receive. The eighth antenna 16 is connected to the second communication module 5 via the sixth signal line 26 so as to be able to transmit and receive. The ninth antenna 17 is connected to the second communication module 5 via the seventh signal line 27 so as to be able to transmit and receive.

The connection board 4 is interposed between the first communication module 3 and the main board 1. The connection board 4 is electrically connected to the first communication module 3 and the main board 1 by, for example, a connector connection. The connection board 4 is, for example, a flexible printed circuit board (FPC). The connection board 4 may be a rigid board.
The connection board 4 is provided in an intermediate region R1 (a region between the main board 1 and the main battery 2A) in a plan view.

The second communication module 5 is an electronic component for communicating with an external device (access point or the like) via an antenna. The second communication module 5 includes, for example, a receiving circuit, a transmitting circuit, a switching circuit, and the like. The second communication module 5 is mounted on the connection board 4. Therefore, the second communication module 5 is provided in the intermediate region R1 (the region between the main substrate 1 and the main battery 2A) in a plan view. The second communication module 5 is electrically connected to the main board 1 via, for example, the connection board 4.

The first proximity sensor 31 and the second proximity sensor 32 are sensors that detect the approach of a living body such as a human body. Proximity sensors built into the first antenna 11, the second antenna 12, and the third antenna 13 are also sensors that detect the approach of a living body such as a human body. As these proximity sensors, for example, an electromagnetic induction type sensor, an infrared ray sensor, a capacitance type sensor and the like can be used.

The first proximity sensor 31 is provided at a position close to the fourth antenna 14 having a transmission function. The second proximity sensor 32 is provided at a position close to the seventh antenna 19 having a transmission function. The first proximity sensor 31 and the second proximity sensor 32 are electrically connected to the connection board 4 via a signal line (not shown).

When the first proximity sensor 31 detects a living body, a control unit (not shown) controls the operation of the first communication module 3 so as to reduce the transmission output by the fourth antenna 14. When the second proximity sensor 32 detects a living body, the control unit controls the operation of the first communication module 3 so as to reduce the transmission output by the seventh antenna 19.

Proximity sensors (not shown) incorporated in the first antenna 11, the second antenna 12, and the third antenna 13 are electrically connected to the connection board 4 via signal lines 41 to 43, respectively. When the proximity sensor detects a human body, the control unit controls the operation of the first communication module 3 so as to reduce the transmission output of each of the built-in antennas. The proximity sensor built into the antennas 11 to 13 may be connected to the first communication module 3 via a signal line.

According to the electronic device 100 of the present embodiment, the first communication module 3 is provided in the intermediate region R1 between the main board 1 and the main battery 2A. Therefore, the first communication module 3 can be arranged at a position close to the center of the second housing 102. Therefore, the distance between the first communication module 3 and the antennas 11, 12, and 13 can be reduced, and the signal lines 21, 22, and 23 can be shortened. Therefore, the transmission loss between the first communication module 3 and the antennas 11, 12, and 13 can be suppressed.
In the electronic device 100, since the first communication module 3 is provided in the intermediate region R1, the degree of freedom in the wiring form of the signal lines 21, 22, and 23 can be increased.

When the antenna supports radio waves in the millimeter wave band, it is necessary to transmit an IF signal between the communication module and the antenna. Further, since the antenna is arranged at a position close to the side surface of the housing, the distance from the communication module tends to be large. Therefore, transmission loss is likely to occur. On the other hand, in the electronic device 100, since the signal lines 21, 22, and 23 can be shortened as described above, the transmission loss can be suppressed even when the antennas 11, 12, and 13 corresponding to the radio waves in the millimeter wave band are used. ..

The first communication module 3 is formed at a position including the center in the left-right direction (Y direction). Therefore, the distance from the first antenna 11 to the first communication module 3 and the distance from the second antenna 12 to the first communication module 3 can be equalized. Therefore, the signal lines 21 and 22 can be shortened and the transmission loss can be suppressed.

Since the first communication module 3 is provided in the triangular region R2 shown in FIG. 4, the difference in distance from the antennas 11, 12, 13 to the first communication module 3 can be reduced. Therefore, the signal lines 21, 22, 23 can be shortened and the transmission loss can be suppressed.

In the electronic device 100, the fourth to seventh antennas 14, 15, 18, and 19 are provided. The fourth to seventh antennas 14, 15, 18, and 19 are connected to the first communication module 3 in the same manner as the first to third antennas 11, 12, and 13. Since the signal lines of the plurality of types of antennas are integrated into the common first communication module 3, the connection structure from the antennas to the main board 1 is simplified. Therefore, it is possible to save space in the second housing 102.

The electronic device 100 is provided with eighth and ninth antennas 16 and 17 connected to the second communication module 5. Since the second communication module 5 is provided in the intermediate region R1, the electronic device 100 can consolidate the signal lines of a plurality of types of antennas into the communication modules 3 and 5 in the intermediate region R1. Therefore, the connection structure from the antenna to the main board 1 is simplified. Therefore, it is possible to save space in the second housing 102.

In the electronic device 100, the signal lines of the proximity sensors built in the first to third antennas 11, 12, and 13 can be aggregated in the intermediate region R1. Therefore, the connection structure from the antenna to the main board 1 is simplified. Therefore, it is possible to save space in the second housing 102.

The specific configuration of the present invention is not limited to the above-described embodiment, and includes a design and the like within a range that does not deviate from the gist of the present invention. The configurations described in the above embodiments can be arbitrarily combined.
As shown in FIG. 2, in the electronic device 100, the third antenna 13 is provided at a position included in the front side region 117A of the outer peripheral region 117 in the plan view, but the third antenna is provided in the plan view. It may be provided at a position included in the rear side region of the outer peripheral region.
The electronic device 100 includes the first to third antennas 11, 12, and 13, but the electronic device of the embodiment does not have to have the third antenna.
The electronic device of the embodiment is not limited to a notebook PC, and may be a smartphone, a tablet terminal, or the like.

1 ... Main board, 1A ... Central processing device, 2A ... Main battery (battery), 3 ... 1st communication module, 4 ... Connection board, 5 ... 2nd communication module, 11 ... 1st antenna, 12 ... 2nd antenna , 13 ... 3rd antenna, 14 ... 4th antenna, 15 ... 5th antenna, 16 ... 8th antenna, 17 ... 9th antenna, 21 ... 1st signal line, 22 ... 2nd signal line, 23 ... 3rd signal Lines, 24 ... 4th signal line, 25 ... 5th signal line, 26 ... 6th signal line, 27 ... 7th signal line, 31 ... 1st proximity sensor, 32 ... 2nd proximity sensor, 41-43 ... signal line , 100 ... Electronic device, 101 ... First housing (display housing), 102 ... Second housing (housing), 103 ... Display, 107 ... Keyboard, 113a ... First side surface, 113b ... Second side surface, 114a ... Front surface (third side surface), 117A ... Third side surface area, 117B1 ... First side surface area, 117B2 ... Second side surface area, C1 ... Central position in the front-rear direction (X direction) in plan view, R1 ... Intermediate area, R2 ... Triangular region, X ... Y direction and direction orthogonal to the thickness direction of the housing (second direction), Y ... direction in which the first side surface and the second side surface face each other (first direction), Z ... second casing Body thickness direction.

Claims (7)

With the housing
A main board provided in the housing and on which a central processing unit is mounted,
A connection board provided in the housing and electrically connected to the main board,
A first communication module provided in the housing and electrically connected to the main board via the connection board.
A battery provided in the housing and supplying power to at least the main board,
A first antenna for wireless communication provided in the first side surface area including the first side surface of the housing, and
A second antenna for wireless communication provided in a second side surface region including a second side surface opposite to the first side surface, and
With
The first antenna is connected to the first communication module via a first signal line so as to be able to transmit and receive.
The second antenna is connected to the first communication module via a second signal line so as to be able to transmit and receive.
The main board and the battery are provided at different positions in a first direction in which the first side surface and the second side surface face each other in a plan view and in a second direction orthogonal to the thickness direction of the housing. ,
The battery is
A main battery provided apart from the main board in the second direction, and
Two auxiliary batteries provided at intervals in the first direction, and
With
The connection board is provided so as to project from the main board in a direction approaching the main battery in a plan view.
The first communication module is located in an intermediate region between the main board and the main battery in a plan view and is located between the two auxiliary batteries and is connected to the connection board.
The first antenna and the second antenna correspond to radio waves in the millimeter wave band.
Electronics. The electronic device according to claim 1 , wherein the first communication module is provided at a position including the center of the housing in the first direction. Further having a third antenna for wireless communication provided in a third side surface region including the first side surface of the housing and the third side surface substantially orthogonal to the second side surface.
The third antenna corresponds to radio waves in the millimeter wave band, and is connected to the first communication module via a third signal line so as to be able to transmit and receive.
The electronic device according to claim 1 or 2, wherein the first communication module is provided in a triangular region having the first to third antennas as vertices in a plan view. A radio provided in a third side surface region including the first side surface of the housing and a third side surface substantially orthogonal to the second side surface, and connected to the first communication module via a fourth signal line so as to be able to transmit and receive. 4th antenna for communication and
A fifth antenna for wireless communication provided in the third side surface region and connected to the first communication module via a fifth signal line so as to be able to transmit and receive.
With more
The electronic device according to any one of claims 1 to 3 , wherein the fourth antenna and the fifth antenna correspond to wireless communication having a communication standard different from that of the first antenna and the second antenna. A second communication module provided in the housing and electrically connected to the main board is further provided.
An eighth antenna for wireless communication provided in the first side surface region and connected to the second communication module via a sixth signal line so as to be able to transmit and receive.
A ninth antenna for wireless communication provided in the second side surface region and connected to the second communication module via a seventh signal line so as to be able to transmit and receive.
With more
The eighth antenna and the ninth antenna correspond to wireless communication having a communication standard different from the communication standard used in the first antenna and the second antenna.
The electronic device according to any one of claims 1 to 4 , wherein the second communication module is provided in the intermediate region in a plan view. Proximity sensors built into the first antenna and the second antenna to detect the approach of a living body, and
A connection board interposed between the first communication module and the main board,
With more
The first communication module reduces the output of the first antenna and is built in the second antenna as the living body approaches, which is detected by the proximity sensor built in the first antenna. The electronic device according to any one of claims 1 to 5 , wherein the output of the second antenna is reduced as the living body approaches, which is detected by the proximity sensor. The keyboard provided in the housing and
A display housing that is openable and closable to the housing via a hinge,
The display mounted on the display housing and
The electronic device according to any one of claims 1 to 6, further comprising.

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