JP2008300576A - Flexible printed board and electronic equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a flexible printed board which secures grounding, and electronic equipment. <P>SOLUTION: The flexible printed board 50 comprises a first layer 50a having a wiring pattern 50c formed, and a second layer 50b which is laminated and disposed on the first layer 50a and has a ground portion 50d electrically connected to a reference potential (circuit board 70). On a top surface of the second layer 50b associated with the connector portion 100, a folded portion 100a which can be folded along a certain direction as an axis in a mutual opposing direction of the second layer 50b is formed by peeling the ground portion 50d in the certain direction with a prescribed width, and as the folded portion 100a is formed, a conductive portion 100b is formed at a prescribed position electrically isolated from the ground portion 50f across the folded portion 100a. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a flexible printed circuit board and an electronic apparatus having the flexible printed circuit board.

  In electronic devices, flexible printed circuit boards (FPC, Flexible Printed Circuits) are used as wiring components.

  Flexible printed circuit boards are used for three-dimensional wiring and printed circuit boards. For example, wiring for transmitting electrical signals to components such as liquid crystal displays that are distant from the main circuit board, or bending wiring and circuit boards due to space constraints It is used in places where it is necessary (for example, see Patent Document 1).

  In addition, a flexible printed circuit board having two layers is known. In this case, components may be mounted on one layer and a wiring pattern may be formed on the other layer. . Examples of components mounted on the one layer include a metal dome of a metal plate formed in a three-dimensional shape by bending a key switch in a bowl shape, an LED (Light Emitting Diode) that irradiates the key switch from the back surface, and the like. There is. The flexible printed circuit board has a connector for electrical connection with a circuit board or the like.

  Here, when the portion related to the connector is connected to the circuit board or the like, the portion related to the connector may be folded in two in a certain direction due to the positional relationship with the circuit board or the like.

Further, the flexible printed circuit board is likely to emit noise from the wiring portion, and noise emission is particularly noticeable in the portion where the wiring is dense. Therefore, there is a case where a ground portion is formed on the entire back surface of the portion where the wiring is dense to suppress noise emission.
Japanese Patent Laid-Open No. 11-306869

  However, when the portion related to the connector is folded in half in a certain direction, if the ground portion is formed in the bent portion, it becomes difficult to bend. In view of this, it may be possible not to form a ground portion in the bent portion in order to suppress the difficulty in bending. However, in such a case, since the ground portion is not formed in the bent portion, a complete ground is not secured in the bent portion, and it becomes difficult to suppress noise.

  Furthermore, since signal reflection occurs at the bent portion, noise emission tends to be large.

  Accordingly, the present invention has been made in view of the above-described problems, and one of the purposes is to radiate noise from the bent portion even in a structure in which a ground is not formed in the bent portion. An object of the present invention is to provide a flexible printed circuit board and an electronic device that can be suitably suppressed.

  In order to solve the above-described problems, a flexible printed circuit board according to the present invention is provided with a first layer on which a wiring pattern is formed, and is laminated on the first layer and electrically connected to a reference potential. A second layer in which a ground portion is formed, and a bent portion configured to be foldable in a direction in which the second layer faces each other, and the second layer includes the bent portion. A conductive conductive portion is formed that is electrically isolated from the ground portion with the portion interposed therebetween, and the conductive portion is electrically connected to the ground portion when the bent portion is bent. It is characterized by that.

  In the flexible printed board, it is preferable that the conductive portion is electrically connected to the ground portion by contacting the ground portion when the bent portion is bent.

  In the flexible printed circuit board, it is preferable that the conductive portion and the ground portion are electrically connected via a conductive member when the bent portion is bent.

  In order to solve the above-described problem, an electronic apparatus according to the present invention includes a housing and the flexible printed circuit board disposed in the housing.

  In the electronic device, the electronic device further includes a circuit board on which the first connector connected to the flexible printed circuit board is mounted, and the flexible printed circuit board includes the first layer. And a second connector connected to the first connector of the circuit board, and the first connector and the second connector are connected to the wiring pattern. It is preferable that the connection is made in a state where the bent portion is bent.

  In the electronic device, it is preferable that the flexible printed circuit board and the circuit board are fixedly disposed at predetermined positions in the housing.

  According to the present invention, the ground can be reliably taken in the entire flexible printed circuit board.

  FIG. 1 is an external perspective view of a mobile phone device 1 which is an example of an electronic device that communicates with an external device (base station) according to the present invention.

  The cellular phone device 1 includes an operation unit side body 2 composed of a front case 2a and a rear case 2b on the surface, and a display unit side body 3 composed of a front panel 3a and a rear panel 3b on the surface. It is prepared for. The operation unit side body unit 2 is configured such that the operation button group 11 and the voice input unit 12 to which the voice uttered by the user of the mobile phone device 1 is input are exposed on the surface of the front case 2a. The The operation button group 11 includes a function setting operation button 13 for operating various functions such as various settings, a telephone book function, and a mail function, and an input operation for inputting a telephone number and characters such as mail. The button 14 and a determination operation button 15 for performing determination and scrolling in various operations are configured. Further, a cap 16 that covers an interface for communicating with an external device (for example, a host device) is provided on the side surface of the operation unit side body 2.

  Further, the display unit side body unit 3 is configured such that a display 21 for displaying various information and an audio output unit 22 for outputting the voice of the other party of the call are exposed on the front panel 3a.

  Moreover, the upper end part of the operation part side housing | casing part 2 and the lower end part of the display part side housing | casing part 3 are connected via the hinge mechanism 4, as shown in FIG. In addition, the cellular phone device 1 relatively moves the operation unit side body 2 and the display unit side body 3 connected via the hinge mechanism 4 to display the operation unit side body 2 and the display. It can be in a state where the unit side body 3 is open to each other (open state), or the operation unit side body 2 and the display unit side body 3 are folded (folded state). In the present embodiment, the foldable mobile phone device 1 using the hinge mechanism 4 is described. However, the foldable mobile phone device 1 is not foldable. A slide type that is slid on the axis, a rotary type that is configured to rotate one casing around an axis along the overlapping direction, and a configuration in which both casings 2 and 3 are connected via a biaxial hinge, Furthermore, the operation unit side body 2 and the display unit side body 3 may be arranged in a single housing (so-called straight type).

  FIG. 2 is an exploded perspective view of members built in the operation unit side body 2.

  As shown in FIG. 2, the operation unit side body 2 has a front case 2a, a key sheet 40 that constitutes the operation button group 11 described above, a flexible printed board 50, a shield case 60, and a reference potential. A circuit board 70 including various layers and various electronic components such as an RF (Radio Frequency) module for a mobile phone, a rear case 2b, a battery 80, and a battery lid 90 are stacked and configured. The In addition, the battery 80 is detachably accommodated from the outside of the rear case 2 b and is covered with a battery lid 90.

  Further, the front case 2a and the rear case 2b are arranged so that their concave inner surfaces face each other, and are joined so that their outer peripheral edges overlap each other. The key sheet 40, the flexible printed board 50, the shield case 60, and the circuit board 70 are built in between the front case 2a and the rear case 2b. That is, the shield case 60 is laminated so as to cover the circuit board 70, the flexible printed board 50 is laminated on the upper surface side of the shield case 60, and the key sheet 40 is laminated on the upper surface of the flexible printed board 50. Be placed.

  Moreover, the circuit board 70 and the shield case 60 are partially fixed in a detachable manner at a plurality of connecting portions. Various electronic components are disposed on the circuit board 70. Various electronic components form a plurality of circuit blocks by a predetermined combination of electronic components. For example, various circuit blocks including a wireless circuit, a power supply circuit, a digital circuit, and the like are formed.

  The shield case 60 is a metal member having a shape in which one wide surface of a thin rectangular parallelepiped is opened. The shield case 60 may be made of a metal and a skeleton formed of a resin and a conductor film formed on the surface thereof.

  The flexible printed circuit board 50 has a plurality of key switches 51, 52, 53 on the surface on the front case 2 a side, and is placed on the flat plate portion 42 in the shield case 60. Details of the flexible printed circuit board 50 will be described later.

  The key sheet 40 is configured by attaching the operation button group 11 to the surface of a silicon rubber sheet 41 with an adhesive. The function setting operation button 13, the input operation button 14, and the determination operation button 15 constituting the operation button group 11 in the key sheet 40 are disposed at positions facing the key switches 51, 52, and 53 on the flexible printed circuit board 50. It arrange | positions so that it may expose from the key hole formed in the front case 2a mentioned later.

  A plurality of key holes are formed on the inner surface of the front case 2a facing the display 21 of the display unit side body 3 in a state in which the cellular phone device 1 is folded. From each of the plurality of key holes, the pressing surfaces of the function setting operation button 13, the input operation button 14 and the determination operation button 15 formed on the key sheet 40 are exposed. By pressing down the pressing surfaces of the function setting operation button 13, the input operation button 14 and the determination operation button 15 constituting the exposed operation button group 11, the metal dome in each of the corresponding key switches 51, 52 and 53 is pressed. The apex of (saddle-like shape) is pressed and comes into electrical contact with the switch terminal.

  As shown in FIG. 3, an antenna 66 housed in a base 65 is disposed on one end side of the rear case 2b. That is, the antenna 66 is disposed on one end side of the mobile phone device 1. Specifically, the antenna 66 is disposed on the end side opposite to the hinge mechanism 4 side in the mobile phone device 1. The antenna 66 is formed of a strip-shaped sheet metal.

  The antenna 66 is fed from the circuit board 70 via a feed terminal. The antenna 66 is supplied with power from the circuit board 70 through a wiring pattern formed on the flexible printed board 50 and is connected to an RF module or the like of the circuit board 70.

  Here, details of the flexible printed circuit board 50 will be described.

  The flexible printed circuit board 50 includes a first layer 50a formed with a wiring pattern 50c, and a ground portion that is stacked on the first layer 50a and electrically connected to a reference potential (circuit board 70). And a second layer 50b formed with 50d (see FIG. 4). In addition, as will be described later, the ground portion 50d has a ground portion 50e (a metal dome or the like formed on one side) sandwiching the bent portion 100a as the bent portion 100a is formed on the flexible printed circuit board 50. And the ground part 50f on the other side (side on which the connector part 100 is formed).

  As shown in FIG. 5, the flexible printed board 50 has a plurality of key switches 51, 52, 53 on the surface on the front case 2 a side, and is placed on the flat plate portion 42 in the shield case 60. The key switches 51, 52, and 53 of the flexible printed circuit board 50 have a structure having a metal dome of a metal plate that is curved in a bowl shape and is three-dimensionally formed. When the apex of the bowl-shaped shape is pressed, the metal dome comes into contact with a switch terminal formed in an electric circuit (not shown) printed on the surface of the flexible printed board 50 and is electrically connected. The flexible printed board 50 is a flexible board in which wiring is sandwiched between a plurality of insulating films.

  Further, as shown in FIG. 5, the flexible printed board 50 is connected to a wiring pattern 50c formed on the first layer 50a on one end side, and a connector on another board (for example, the circuit board 70) on the other end side. The connector part 100 connected to is provided. The flexible printed board 50 is electrically connected to the reference potential of the circuit board 70 by connecting the connector unit 100 to the circuit board 70.

  Further, on the surface of the second layer 50b of the connector part 100, as shown in FIG. 6A, the ground part 50d is peeled with a predetermined width in a certain direction, and the second layer is centered on the certain direction. A bent portion 100a is formed so that it can be bent in a direction in which 50b faces each other. Along with the formation of the bent portion 100a, a bent portion 100a is sandwiched between the ground portion 50f and a predetermined position on a portion that is electrically isolated. Conductive conductive portion 100b is formed. FIG. 6 shows a state when the broken line area 101 shown in FIG. 5 is viewed from the back side.

  The conductive portion 100b is electrically connected to the ground portion 50f when the bent portion 100a is bent in the Y direction with the constant direction X as an axis (see FIG. 6B).

  With this configuration, since the ground portion 50f and the conductive portion 100b are electrically connected in a state where the flexible printed board 50 is bent, the ground state of the ground portion 50e is ensured. In addition, since the ground state of the ground part 50e is ensured in this way, noise radiated from the wiring pattern 50c can be suitably reduced, and further noise coming from the outside can enter the wiring pattern. It can also be prevented.

  Further, it is preferable that the conductive portion 100b is electrically connected by contacting the ground portion 50f when the bent portion 100a is bent in the Y direction with the constant direction X as an axis.

  With this configuration, since the ground part 50f and the conductive part 100b are electrically connected by direct surface contact when the flexible printed circuit board 50 is bent, the ground state of the ground part 50e is Secured well. In addition, according to the present configuration, since no other component (for example, a separate conductive member or the like) is required for the contact between the conductive portion 100b and the ground portion 50e, the degree of freedom in design can be improved. .

  Further, the conductive portion 100b and the ground portion 50f are preferably electrically connected via the conductive member 100c when the bent portion 100a is bent in the Y direction with the constant direction X as an axis (FIG. 7). (See (A).)

  Further, since the conductive member 100c is brought into contact with the bent portion 100a and bent in the Y direction with the fixed direction X as an axis, the bending diameter r of the bent portion 100a can be controlled by the size of the conductive member 100c. it can. Therefore, the bending strength is improved, and further, the possibility of disconnection of the wiring pattern 50c is reduced (see FIG. 7B).

  Further, the conductive member 100c is, for example, an elliptical column or a conductive flat plate having a height of about 0.5 to 1.0 mm. Note that the conductive member 100c is preferably fixed to the bent portion 100a with a conductive adhesive.

  Further, according to such a configuration, since the ground part 50f and the conductive part 100b are electrically connected via the conductive member 100c in a state in which the flexible printed board 50 is bent, the ground state of the ground part 50e is Therefore, it is possible to reduce noise emitted from the periphery of the bent portion 100a while improving the bending strength of the flexible printed circuit board 50.

  In this way, the cellular phone device 1 according to the present invention has the ground part 50f and the conductive part 100b when the connector part 100 is connected to the connector on the circuit board 70 with the flexible printed board 50 folded. Are electrically connected to each other, the ground state can be ensured in the entire second layer 50b of the flexible printed circuit board 50, and noise radiated from the wiring pattern 50c of the first layer 50a is suitably reduced. Furthermore, it is possible to prevent noise coming from the outside from entering the wiring pattern.

  Further, in the mobile phone device 1 according to the present invention, the flexible printed circuit board 50 and the circuit board 70 are fixedly disposed at predetermined positions in the casing, whereby the flexible printed circuit board 50 and the circuit board 70 are arranged. It is preferable that the relative positional relationship is fixed.

  According to such a configuration, in a state where the connector on the circuit board 70 and the connector portion 100 of the flexible printed board 50 are connected, the bent state of the flexible printed board 50 is fixed. The electrical connection state with the conductive part 100b can be maintained more firmly.

  In the present embodiment, the bent portion 100a and the conductive portion 100b are described as being formed in the portion related to the connector portion 100. However, the present invention is not limited to this, and the flexible printed circuit board 50 can be used anywhere. May be.

It is a perspective view which shows the external appearance of the mobile telephone apparatus which concerns on this invention. It is a disassembled perspective view of the member incorporated in the operation part side housing | casing part. It is a figure when the rear case of the operation part side housing | casing part permeate | transmits from the side surface. It is a figure which shows typically the 1st layer and 2nd layer which comprise a flexible printed circuit board. It is a top view of a flexible printed circuit board. It is a figure which shows the structure of a connector part. It is a figure which shows a mode when a connector part is bent using an electrically-conductive member.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cellular phone apparatus 2 Operation part side housing | casing part 50 Flexible printed circuit board 50a 1st layer 50b 2nd layer 50c Wiring pattern 50d, 50e, 50f Ground part 70 Circuit board 100 Connector part 100a Bending part 100b Conductive part 100c Conductive Element

Claims (6)

A first layer on which a wiring pattern is formed;
A second layer formed on the first layer and having a ground portion electrically connected to a reference potential;
The second layer has a bent portion configured to be bendable in a direction facing each other, and
In the second layer, a conductive conductive portion is formed that is arranged to be electrically isolated from the ground portion with the bent portion interposed therebetween,
The flexible printed circuit board, wherein the conductive portion is electrically connected to the ground portion when the bent portion is bent.   The flexible printed circuit board according to claim 1, wherein the conductive portion is electrically connected to the ground portion by contacting the ground portion when the bent portion is bent.   The flexible printed circuit board according to claim 1, wherein the conductive portion and the ground portion are electrically connected via a conductive member when the bent portion is bent. A housing,
An electronic apparatus comprising: the flexible printed circuit board according to any one of claims 1 to 3 disposed in the housing. A circuit board disposed in the housing and mounted with a first connector connected to the flexible printed circuit board;
The flexible printed circuit board is connected to the wiring pattern formed in the first layer, and has a second connector connected to the first connector of the circuit board,
5. The electronic apparatus according to claim 4, wherein the first connector and the second connector are connected in a state where the bent portion is bent.   6. The electronic apparatus according to claim 5, wherein the flexible printed circuit board and the circuit board are fixedly disposed at predetermined positions in the housing.

Images