JP2018132478A - Electronic device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve electric connection reliability in a mounting portion of an electronic component.SOLUTION: An electronic component module 2 comprises a block-like package part 22 sealing an electronic component 21. A metallic lead part 4 comprises a terminal joining part 42 joined so as to be electrically conducted to a terminal member 5 and a connection part 43 extending toward the terminal joining part 42 from the package part 22 in a state in which the connection part is not fixed to a plastic support part 6, and forms electric connection between the terminal member 5 and the electronic component 21. The connection part 43 is deformably formed in association with relative movement to the package part 22 of the terminal joining part 42. A base end part 51 of the metallic terminal member 5 is fixed to the support part 6. A connector part 52 is installed in a protruding manner so as to be electrically connected to the outside.SELECTED DRAWING: Figure 3

Description

  The present invention relates to an electronic device.

  Patent document 1 is provided with the acceleration sensor, the connector terminal which mounts this acceleration sensor, and the housing which accommodates an acceleration sensor and a connector terminal. The housing has a connector terminal support part. The connector terminal support part is formed of a synthetic resin material.

JP 2003-28890 A

  In an electronic device, a configuration in which a printed wiring board is omitted as described above has been proposed for downsizing or cost reduction. In such a configuration, an electronic component such as an acceleration sensor is mounted on the metal plate member constituting the connector terminal.

  Due to a temperature change during the manufacturing process or use of the electronic device having the above-described configuration, a stress may be generated in a mounting portion of the electronic component, that is, a joint portion between the metal plate member and the electronic component. Specifically, for example, the stress can be generated as the synthetic resin portion supporting the metal plate member expands or contracts due to a temperature change. The generation of such stress may lead to a decrease in the reliability of electrical connection in the mounting part of the electronic component. The present invention has been made in view of the circumstances exemplified above.

The electronic device (1) according to claim 1,
An electronic component module (2) having a block-shaped package portion (22) for sealing the electronic component (21);
A base end portion (51) which is one end portion is fixed to a support portion (6) made of synthetic resin, and a connector portion (52) which is the other end portion is protruded so as to be electrically connected to the outside. A terminal member (5) of
A terminal joint part (42) joined to the terminal member so as to be energized, and a connection part formed to extend from the package part toward the terminal joint part in a state where it is not fixed to the support part ( 43), and a metal lead portion (4) provided to form an electrical connection between the terminal member and the electronic component,
With
The connection portion is formed to be deformable with relative movement of the terminal joint portion with respect to the package portion.

  Reference numerals in parentheses attached to each means in the above and claims column indicate an example of a correspondence relationship between the means and specific means described in the embodiments described later.

It is the schematic of the vehicle carrying the electronic device which concerns on embodiment. 1 is a partial cross-sectional view illustrating a schematic configuration of an electronic device according to an embodiment. FIG. 3 is a perspective view of the sensor subassembly shown in FIG. 2. FIG. 4 is an exploded perspective view of the sensor subassembly shown in FIG. 3.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that various modifications applicable to the embodiment will be described collectively as a modified example after the description of the series of embodiments.

(Constitution)
Referring to FIG. 1, an occupant protection system W is mounted on a vehicle body V1 of a vehicle V. The occupant protection system W includes an airbag control unit W1, an airbag mechanism W2, and an electronic device 1. The airbag control unit W1 is a so-called airbag ECU, and is configured to operate the airbag mechanism W2 based on an acceleration detection result by a built-in acceleration sensor (not shown) and the electronic device 1. ECU is an abbreviation for Electronic Control Unit.

  The electronic device 1 according to this embodiment is a so-called acceleration sensor unit. That is, the electronic device 1 is configured to detect acceleration acting on the vehicle body V1 by being mounted on the vehicle body V1. As shown in FIG. 1, a plurality of electronic devices 1 are mounted on the vehicle body V1.

  Referring to FIG. 2, an electronic device 1 according to this embodiment includes an electronic component module 2, an external electronic component 3, a lead portion 4, a terminal member 5, a support portion 6, a housing 7, and a bush 8. And. A combination of the electronic component module 2, the external electronic component 3, the lead portion 4, the terminal member 5, and the support portion 6 is referred to as a sensor subassembly 9.

  In the following description, directions are defined as shown for convenience. As will be described later, the directions defined below are merely used for convenience in describing the embodiment. Specifically, the left-right direction in FIG. 2 is referred to as “attachment / detachment direction”, the right direction is referred to as “mounting direction”, and the left direction is referred to as “detachment direction”. In FIG. 2, the direction perpendicular to the paper surface is referred to as “width direction”, one direction parallel to the width direction is referred to as “right direction”, and the other direction is referred to as “left direction”. The vertical direction in FIG. 2 is referred to as a “height direction”. That is, the X-axis positive direction in the right-handed XYZ orthogonal coordinate system when the upper direction in FIG. Become.

  An arbitrary direction orthogonal to the height direction, that is, a direction in the XY plane in the XYZ orthogonal coordinate system is referred to as an “in-plane direction”. Furthermore, the shape of each part in the sensor subassembly 9 when the sensor subassembly 9 is viewed from the Z-axis positive direction side in the right-handed XYZ orthogonal coordinate system is referred to as a “plan view” shape. The above definition also applies mutatis mutandis to FIGS.

  The electronic component module 2 includes an electronic component 21 and a package unit 22. The electronic component 21 is a so-called acceleration sensor element, and is configured to output an electrical signal corresponding to the acting acceleration.

  The package part 22 is a block-shaped synthetic resin member that seals the electronic component 21, and is arranged so that the thickness direction is parallel to the height direction. That is, the bottom surface 23 of the package part 22 is provided so as to extend in an in-plane direction orthogonal to the height direction.

  3 and 4, in this embodiment, the electronic component module 2 has a so-called leadless package structure (for example, an LGA structure or a QFN structure). That is, as shown in FIG. 4, a terminal portion 24 made of a metal thin film is provided on the bottom surface 23 of the package portion 22. LGA is an abbreviation for Land Grid Array. QFN is an abbreviation for Quad Flat No lead package.

  The package part 22 is formed in a substantially rectangular shape in plan view. That is, the outer edge portion 25 of the package portion 22 in plan view is formed by four end surfaces 26 whose normal direction is the width direction or the attachment / detachment direction. The package part 22 is fixedly supported by the housing 7. Specifically, the end portion on the mounting direction side of the outer edge portion 25 of the package portion 22 is fixed to the housing 7.

  The electronic component module 2 and the external electronic component 3 such as a capacitor are mounted on the lead portion 4 by soldering or the like. The lead portion 4 is a rod-like or strip-like member for forming an electrical connection between the electronic component module 2 and the terminal member 5 and has a longitudinal direction along the attaching / detaching direction. The lead part 4 is integrally formed with a seamless conductor metal such as copper.

  In the present embodiment, two lead portions 4 are provided. Hereinafter, one of the two lead portions 4 may be referred to as a first lead portion 40A and the other may be referred to as a second lead portion 40B. The first lead portion 40A and the second lead portion 40B are arranged in the width direction. The first lead portion 40A is disposed on the left side of the second lead portion 40B. In the following description, the expression “lead part 4” is used when one of the first lead part 40A and the second lead part 40B is not specified.

  The lead part 4 has a module joint part 41, a terminal joint part 42, and a connection part 43. The module joint portion 41 is provided on one end side in the longitudinal direction so as to be joined to the electronic component module 2 so that energization is possible. Specifically, the module joint portion 41 is formed as a connection terminal portion having a substantially rectangular shape in plan view, facing the terminal portion 24 in the electronic component module 2.

  The terminal joining portion 42 is provided on the other end side in the longitudinal direction so as to be joined to the terminal member 5 so as to be energized. Specifically, the terminal joint portion 42 is formed as a connection terminal portion that is opposed to the terminal member 5 and has a substantially rectangular shape in plan view.

  The state shown in FIG. 3 is referred to as a primary assembly state. The primary assembly state is a state in which the sensor subassembly 9 is formed. In the primary assembly state, the electronic component module 2 and the terminal member 5 are electrically connected via the lead portion 4. In such electrical connection, the terminal portion 24 in the electronic component module 2 and the module joint portion 41 in the lead portion 4 are joined so as to be energized by soldering or the like, and the terminal joint portion 42 and the terminal member 5 in the lead portion 4 are joined. It is formed by joining so as to be energized by welding or the like.

  The connection part 43 is extended along the attachment / detachment direction so as to connect the module joint part 41 and the terminal joint part 42. The connection portion 43 is formed to extend from the package portion 22 toward the terminal joint portion 42 in a state where it is not fixed to the support portion 6 and the housing 7 shown in FIG. The connection portion 43 is formed to be deformable along with the relative movement when the terminal joint portion 42 moves relative to the package portion 22 along the in-plane direction and / or the height direction. Specifically, an additional joint portion 44 and a curved portion 45 are formed in the connection portion 43.

  The additional joint portion 44 is provided between the module joint portion 41 and the bending portion 45. The external electronic component 3 is mounted on the additional joint portion 44. The curved portion 45 is a portion between the additional joint portion 44 and the terminal joint portion 42 and is provided so as to be curved in a substantially S shape in plan view. That is, the bending portion 45 is formed to be deformable when the terminal joint portion 42 moves along the in-plane direction. In the present embodiment, the first lead portion 40A and the second lead portion 40B are formed symmetrically with respect to a center line parallel to the attaching / detaching direction.

  The connection part 43 is provided with a first bent part 46 and a second bent part 47. The first bent portion 46 and the second bent portion 47 are formed so that the position of the terminal joint portion 42 in the height direction is offset below the module joint portion 41. Specifically, the first bent portion 46 is a mountain fold portion that is convex upward in the drawing, and is provided between the additional joint portion 44 and the curved portion 45. The second bent portion 47 is a valley fold portion projecting downward in the figure, and is provided between the curved portion 45 and the terminal joint portion 42.

  Referring to FIGS. 2 to 4, the terminal member 5 electrically connected to the outside is a rod-like or strip-like member having a longitudinal direction along the attaching / detaching direction, and extends in the attaching / detaching direction. The terminal member 5 is formed by performing a surface treatment such as tin plating on the surface of a copper base material that is integrally formed seamlessly. In the present embodiment, two terminal members 5 are provided corresponding to the two lead portions 4 being provided.

  Hereinafter, one of the two terminal members 5 may be referred to as a first terminal member 50A, and the other may be referred to as a second terminal member 50B. The first terminal member 50A and the second terminal member 50B are arranged in the width direction. The first terminal member 50A is disposed on the left side of the second terminal member 50B. In the following description, the expression “terminal member 5” is used when one of the first terminal member 50A and the second terminal member 50B is not specified. The first terminal member 50A and the second terminal member 50B are formed symmetrically with respect to a center line parallel to the attaching / detaching direction.

  A base end portion 51 that is one end portion in the longitudinal direction of the terminal member 5 is fixed to the support portion 6. The connector part 52 which is the other end part in the longitudinal direction of the terminal member 5 is a part which comprises the rod-shaped connector terminal in a male connector, and is protrudingly provided in the attachment / detachment direction so that it may be electrically connected outside. A lead connecting portion 54 and a stepped portion 55 are formed in an intermediate portion 53 between the base end portion 51 and the connector portion 52.

  The lead connection portion 54 is a substantially flat portion extending in the in-plane direction while facing the terminal joint portion 42, and is provided between the base end portion 51 and the step portion 55. The lead connection portion 54 is connected to the lower end portion of the step portion 55 extending in the height direction. An upper end portion of the step portion 55 is connected to the connector portion 52.

  The support part 6 is a plate-like member made of synthetic resin, and is provided so as to support the terminal member 5 in a fixed manner and to support the package part 22 from below. Specifically, the support portion 6 is formed by covering the base end portion 51 of the terminal member 5 with a synthetic resin. The outer edge portion 61 in the width direction of the support portion 6 is fixed to the housing 7 shown in FIG.

  The module mounting portion 62 inside the outer edge portion 61 in the width direction of the support portion 6 has a support surface 63 that is a surface extending in the in-plane direction. The module mounting portion 62 is provided with a recess 64 and a rib 65.

  The concave portion 64 is formed so as to accommodate the lead portion 4 by opening upward toward the package portion 22. That is, the lead part 4 is arranged between the package part 22 and the support part 6 in a state where it is not fixed to the support part 6. In the present embodiment, the lead portion 4 is provided in a non-contact state with the support portion 6.

  The rib 65 is a wall-like protrusion that extends upward from the support surface 63 and is disposed at the end of the module mounting portion 62 on the mounting direction side. Specifically, the rib 65 has a substantially U-shaped or square bracket-like shape that opens in the attaching / detaching direction in plan view. That is, the rib 65 is formed so as to define a relative position along the attaching / detaching direction and the width direction of the electronic component module 2 and the support portion 6 by contacting the outer edge portion 25 of the package portion 22 in the in-plane direction. ing.

  Referring to FIG. 2, the housing 7 is a member constituting the casing of the electronic device 1 and is integrally formed of synthetic resin. That is, the housing 7 is provided so as to surround the periphery of the electronic component module 2 and the terminal member 5 while fixedly supporting the sensor subassembly 9 including the terminal member 5.

  The main body 71 of the housing 7 has an accommodation hole 72 extending in the attaching / detaching direction. The accommodation hole 72 is formed so as to open at the end portion on the attachment / detachment direction side, while closing the end portion on the attachment direction side. That is, the accommodation hole 72 is provided so that the connector portion 52 in the terminal member 5 is exposed toward the outside of the housing 7. In addition, the portion of the main body 71 that closes the end portion on the mounting direction side of the accommodation hole 72 is located on the end portion on the mounting direction side and the outer edge portion 61 in the support portion 6 and the end portion on the mounting direction side in the package portion 22. By closely contacting, the sensor subassembly 9 is fixedly supported.

  The main body 71 has a protruding cylinder 73. The protruding cylinder part 73 is a cylinder part protruding in the attachment / detachment direction, and is formed at a position corresponding to the end of the accommodation hole 72 on the attachment / detachment side. An engaging protrusion 74 is provided on the outer peripheral surface of the protruding cylinder portion 73. The engagement protrusion 74 is a protrusion extending along the height direction, and is formed so that a socket (not shown) through which the connector portion 52 is inserted is engaged. That is, the “attachment / detachment direction” is the attachment / detachment direction of the socket with respect to the electronic device 1. The same applies to the “mounting direction” and “detaching direction”. In the present embodiment, the engaging protrusions 74 are provided in a pair of upper and lower sides.

  The housing 7 has a bush fixing portion 75. The bush fixing portion 75 is a portion that fixedly supports the bush 8, which is a metal cylindrical member, and extends from the main body portion 71 in the height direction (that is, the upward direction in FIG. 2). That is, the bush 8 is fixed to the bush fixing portion 75 so that the axial direction of the through hole 81 is parallel to the width direction.

(effect)
Hereinafter, the outline of the manufacturing method of the electronic device 1 of the present embodiment and the effects of the configuration of the present embodiment will be described.

  Referring to FIG. 4, in a state where the first terminal member 50A and the second terminal member 50B are arranged in the width direction, the support portion 6 is formed by covering the base end portion 51 of both with a synthetic resin. The support 6 can be formed by a known method such as insert molding. A combined body of the first terminal member 50A, the second terminal member 50B, and the support portion 6 is referred to as a terminal subassembly 91.

  Further, the terminal portion 24 in the electronic component module 2 and the module joint portion 41 in the lead portion 4 are joined so as to be energized by soldering or the like. Similarly, the external electronic component 3 and the additional joint portion 44 in the lead portion 4 are joined so as to be energized by soldering or the like. Thereby, the electronic component module 2 and the external electronic component 3 are mounted on the lead portion 4.

  The joined body of the electronic component module 2 and the lead portion 4 is placed on the module placement portion 62 in the terminal subassembly 91. At this time, by pressing the outer edge portion 25 of the package portion 22 against the rib 65, the relative position between the electronic component module 2 and the support portion 6 in the in-plane direction is defined. That is, the electronic component module 2 is positioned in the in-plane direction.

  In the state where the above positioning is performed, the terminal joint portion 42 in the first lead portion 40A and the lead connection portion 54 in the first terminal member 50A come close to each other or come into contact with each other. Similarly, the terminal joint portion 42 in the second lead portion 40B and the lead connection portion 54 in the second terminal member 50B are in close proximity to or in contact with each other.

  In this state, the terminal joint portion 42 and the lead connection portion 54 are joined so as to be energized by welding or the like. In the case of welding, for example, any applicable welding method such as resistance welding, laser welding, electron beam welding, ultrasonic welding, TIG welding, or the like can be used. Thereby, as shown in FIG. 3, the sensor sub-assembly 9 is formed. In the formed sensor subassembly 9, the lead portion 4 is disposed between the package portion 22 and the module mounting portion 62 in a state of being accommodated in the recess 64 in the support portion 6. Is not fixed.

  The sensor subassembly 9 is mounted on a mold for insert molding, and a synthetic resin material is cast to mold the housing 7 shown in FIG. At this time, the end of the sensor subassembly 9 on the mounting direction side is fixed to the housing 7 by being in close contact with the synthetic resin material forming the housing 7. In this way, the electronic device 1 is manufactured.

  In the primary assembly state, the concave portion 64 is substantially closed by the package portion 22. Therefore, the cast synthetic resin material does not enter the recess 64. Therefore, even after casting, the lead portion 4 is not fixed to the support portion 6 or the housing 7. Therefore, the connection portion 43 in the lead portion 4 is not mechanically restrained by the support portion 6 or the housing 7.

  An end portion on the mounting direction side in the sensor subassembly 9 fixed to the housing 7 includes an end portion on the mounting direction side in the package portion 22. Therefore, the vibration or impact input to the bush 8 can be transmitted to the electronic component module 2 via the housing 7. Therefore, good acceleration detection by the electronic component module 2 becomes possible.

  By the way, during the manufacturing process or use of the electronic device 1 having the above configuration, the synthetic resin material constituting the housing 7 may expand or contract due to a temperature change. With the expansion or contraction, the first terminal member 50A and the second terminal member 50B move relative to the package part 22 in the electronic component module 2 along the in-plane direction and / or the height direction.

  Specifically, for example, the first terminal member 50A and the second terminal member 50B move so as to approach or separate from each other along the width direction. Accordingly, the terminal joint portion 42 in the first lead portion 40A joined to the first terminal member 50A and the terminal joint portion 42 in the second lead portion 40B joined to the second terminal member 50B are arranged in the width direction. Move along or away from each other. That is, the terminal joint portion 42 in the first lead portion 40A and the terminal joint portion 42 in the second lead portion 40B move relative to the package portion 22 along the in-plane direction.

  Alternatively, for example, the first terminal member 50 </ b> A and the second terminal member 50 </ b> B relatively move along the height direction so as to approach or separate from the electronic component module 2. With this relative movement, the terminal joint portion 42 in the first lead portion 40A joined to the first terminal member 50A and the terminal joint portion 42 in the second lead portion 40B joined to the second terminal member 50B are packaged. It moves relative to the portion 22 along the height direction.

  As described above, one of the relative movement along the in-plane direction of the terminal joint portion 42 with respect to the package portion 22 and the relative movement along the height direction of the terminal joint portion 42 with respect to the package portion 22 is independent, or Both can occur in combination. When the relative movement as described above occurs, in the conventional configuration, there is a concern that stress is applied to the mounting portion of the electronic component module 2 and peeling of the joint occurs.

  However, in the configuration of the present embodiment, the electronic component module 2 is mounted on the lead part 4 which is a separate member from the terminal member 5, and the lead part 4 is mounted on the terminal member 5, whereby the electronic component module 2. And the terminal member 5 are electrically connected. Further, the lead portion 4 can be deformed by a connection portion 43 that is not fixed to the support portion 6 or the housing 7, particularly the bending portion 45.

  For this reason, even if the relative movement as described above occurs, the stress on the mounting portion of the electronic component module 2 in the module joint portion 41 can be favorably relaxed by the deformation of the connection portion 43. The same applies to the mounting portion of the external electronic component 3 in the additional joint 44. Therefore, according to this embodiment, the electrical connection between the electronic component module 2 and the terminal member 5 and the electrical connection between the external electronic component 3 and the terminal member 5 are formed with higher reliability than before. Can be done.

  In the present embodiment, the electronic component module 2 having a leadless package structure is mounted on the lead portion 4 by being directly joined to the lead portion 4. Therefore, according to the present embodiment, highly reliable electrical connection between the electronic component module 2 and the terminal member 5 can be realized by an inexpensive structure.

(Modification)
The present invention is not limited to the above embodiment. Therefore, it can change suitably with respect to the said embodiment. Hereinafter, typical modifications will be described. In the following description of the modified example, only the parts different from the above embodiment will be described. Moreover, in the said embodiment and modification, the same code | symbol is attached | subjected to the part which is mutually the same or equivalent. Therefore, in the following description of the modified example, regarding the components having the same reference numerals as those in the above embodiment, the description in the above embodiment can be appropriately incorporated unless there is a technical contradiction or special additional explanation.

  The directions such as up, down, left and right are used for convenience in the description of the embodiment. Therefore, for example, the electronic device 1 can be mounted on the vehicle V such that the attaching / detaching direction is parallel to the gravity action direction. Alternatively, for example, the electronic device 1 can be mounted on the vehicle V such that the axial direction of the through hole 81 in the bush 8 is parallel to the direction of gravity action.

  The present invention is not limited to the specific configuration shown in the above embodiment. For example, the electronic component 21 is not limited to an acceleration sensor element. The external electronic component 3 can be omitted.

  The present invention is not limited to a leadless package structure. For example, the lead portion 4 may be formed integrally with the lead frame in the electronic component module 2 without any joint. That is, the lead portion 4 may be an end portion of a lead frame in the electronic component module 2.

  The number of lead portions 4 is not limited to two. That is, the number of lead portions 4 may be the same as the number of terminal members 5. Therefore, for example, three or more lead portions 4 can be provided.

  The shape of the lead part 4 can also be changed as appropriate. For example, the bending portion 45 that bends or bends in the in-plane direction may be omitted. That is, the connecting portion 43 can be formed in a substantially straight rod shape that does not curve in the in-plane direction and extends straight in the attaching / detaching direction in plan view. In this case, the connection portion 43 can be bent and deformed as the terminal joint portion 42 moves along the in-plane direction. Alternatively, the curved portion 45 may be formed as a portion that is not curved in the in-plane direction but is curved or bent in a substantially S shape or a substantially Z shape along the height direction.

  The shape of the terminal member 5 can also be changed as appropriate. For example, the step portion 55 can be omitted. Surface treatment such as tin plating may be omitted as appropriate.

  The support portion 6 may not cover the base end portion 51 of the terminal member 5. In this case, the support part 6 may have a groove part for fitting the base end part 51 of the terminal member 5, for example. The presence of the recess 64 and the rib 65 is not essential.

  The lead portion 4 may be in contact with the surface of the module placement portion 62 that faces the package portion 22 as long as the lead portion 4 is not fixed (that is, fixed) to the support portion 6. Specifically, the lead part 4 may be slidably in contact with the surface of the recess 64 facing the package part 22. Even in this case, since the connection portion 43 in the lead portion 4 is not mechanically restrained by the support portion 6 or the housing 7, the same effect as described above can be obtained.

  There is no particular limitation on the number of engaging protrusions 74 and the protruding direction. Further, the position of the bush 8 and the axial direction of the through hole 81 in the bush 8 are not particularly limited. That is, for example, the bush fixing portion 75 may be further extended from the end portion on the mounting direction side of the main body portion 71 toward the mounting direction. The bush 8 may be provided such that the axial direction of the through hole 81 is the height direction.

  There is no particular limitation on the manufacturing method. That is, for example, the electronic component module 2 may be mounted on the lead portion 4 after the terminal subassembly 91 and the lead portion 4 are joined.

  There is no particular limitation on the mounting method and the joining method. For example, the bonding between the terminal portion 24 in the electronic component module 2 and the module bonding portion 41 in the lead portion 4 is not limited to soldering, and may be bonding with a conductive adhesive, for example. The same applies to the external electronic component 3. The joining of the terminal joining portion 42 and the terminal member 5 in the lead portion 4 is not limited to welding, and may be, for example, friction joining such as friction stir welding, soldering, or conductive adhesive. Adhesion by may also be used.

  In the above description, the plurality of constituent elements that are integrally formed with each other seamlessly may be formed by bonding separate members to each other. Similarly, a plurality of constituent elements formed by sticking separate members to each other may be formed integrally with each other without a seam. Further, the materials constituting each part can be changed as appropriate.

  The modification is not limited to the above example. A plurality of modifications may be combined with each other. Furthermore, all or a part of the above-described embodiment and all or a part of the modified examples can be combined with each other.

DESCRIPTION OF SYMBOLS 1 Electronic device 2 Electronic component module 21 Electronic component 22 Package part 4 Lead part 42 Terminal junction part 43 Connection part 5 Terminal member 51 Base end part 52 Connector part 6 Support part

Claims (9)

An electronic device (1) comprising:
An electronic component module (2) having a block-shaped package portion (22) for sealing the electronic component (21);
A base end portion (51) which is one end portion is fixed to a support portion (6) made of synthetic resin, and a connector portion (52) which is the other end portion is protruded so as to be electrically connected to the outside. A terminal member (5) of
A terminal joint part (42) joined to the terminal member so as to be energized, and a connection part formed to extend from the package part toward the terminal joint part in a state where it is not fixed to the support part ( 43), and a metal lead portion (4) provided to form an electrical connection between the terminal member and the electronic component,
With
The connection portion is formed to be deformable with relative movement of the terminal joint portion with respect to the package portion.
Electronic equipment. The connection portion is extended along an in-plane direction orthogonal to the thickness direction of the package portion,
The electronic device according to claim 1. The connection portion has a curved portion (45) that is deformably curved with the relative movement.
The electronic device according to claim 1. The electronic component module has a leadless package structure,
The lead portion is
It has a longitudinal direction along an in-plane direction orthogonal to the thickness direction of the package part, and is formed as a rod-shaped or strip-shaped metal member that electrically connects the electronic component module and the terminal member,
A module joint (41) provided to be joined to the electronic component module so as to be energized at one end side in the longitudinal direction;
The terminal joint provided on the other end in the longitudinal direction;
The connecting portion provided to connect the module connecting portion and the terminal connecting portion; and
Having
The electronic device according to claim 1. Synthetic resin housing (7) provided to surround the electronic component module and the terminal member
Further comprising
The support portion and the package portion are fixed to the housing,
The lead portion is disposed between the package portion and the support portion.
The electronic device as described in any one of Claims 1-4. The support portion has a module placement portion (62) formed so that the package portion can be placed;
The module mounting unit is
The relative position between the electronic component module and the support portion along the in-plane direction is defined by contacting the outer edge portion (25) of the package portion in the in-plane direction orthogonal to the thickness direction of the package portion. A rib (65) extending along the thickness direction,
A recess (64) formed to accommodate the lead portion by opening toward the package portion;
Having
The electronic device according to claim 5. The terminal member is formed as a rod-like or strip-like metal member having a longitudinal direction along an in-plane direction orthogonal to the thickness direction of the package part,
One end side of the terminal member in the longitudinal direction is covered by the support part,
The electronic device according to claim 5 or 6. An external electronic component (3) different from the electronic component is mounted on the connection portion.
The electronic device according to claim 1. The electronic component is an acceleration sensor element configured to output an electrical signal corresponding to acceleration acting on the vehicle body (W1).
The electronic device according to claim 1.

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