JP2019200349A5 - - Google Patents

Claims (11)

An imaging device having a housing and a movable unit that can move in a direction orthogonal to the optical axis with respect to the housing.
A substrate fixed to the movable unit and mounting an image sensor,
A flexible printed circuit board that is electrically connected to the substrate,
A control board fixed to the housing, arranged parallel to the board with respect to a plane orthogonal to the optical axis, and electrically connected to the board via the flexible printed circuit board.
With
The flexible printed circuit board
The first connection part for connecting to the board and
A first wiring portion and a second wiring portion that are flexible, extend in a symmetrical direction about the first connecting portion, and have the same length and substantially the same width as the first connecting portion. Department and
A second connection portion provided at the end of the first wiring portion and for connecting to the control board,
A third connecting portion provided at the end of the second wiring portion and for connecting to the control board is provided.
In a posture in which the effective pixel center of the image pickup element coincides with the center of the optical axis, the first wiring portion and the second wiring portion are curved to form the second connection portion and the third connection portion. Is electrically connected to the control board, and the distance from the boundary between the first connection portion and the first wiring portion to the boundary between the second connection portion and the first wiring portion is An image pickup characterized by being formed at the same distance as the distance from the boundary between the first connecting portion and the second wiring portion to the boundary between the third connecting portion and the second wiring portion. Device. Said second connecting portion and the third connecting portion, the first wiring portion and by bending the second wiring portion, the side opposite to the from the outside of the control board flexible printed circuit board surface facing the The image pickup apparatus according to claim 1, wherein the image pickup apparatus is connected to the control board in terms of the above. An imaging device having a housing and a movable unit that can move in a direction orthogonal to the optical axis with respect to the housing.
A substrate fixed to the movable unit and mounting an image sensor,
A flexible printed circuit board that is electrically connected to the substrate,
A control board fixed to the housing, arranged parallel to the board with respect to a plane orthogonal to the optical axis, and electrically connected to the board via the flexible printed circuit board.
With
The flexible printed circuit board
The first connection part for connecting to the board and
A first wiring portion and a second wiring portion that are flexible, extend in a symmetrical direction about the first connecting portion, and have the same length and substantially the same width as the first connecting portion. Department and
A second connection portion provided at the end of the first wiring portion and for connecting to the control board,
A third connection portion provided at the end of the second wiring portion and for connecting to the control board,
A first fixing portion formed between the first connecting portion and the second connecting portion and fixedly held in the housing,
A second fixing portion formed between the first connecting portion and the third connecting portion and fixedly held in the housing is provided.
In a posture in which the effective pixel center of the image pickup element coincides with the center of the optical axis, the first wiring portion and the second wiring portion are curved to form the second connection portion and the third connection portion. Is electrically connected to the control board, and the distance from the boundary between the first connecting portion and the first wiring portion to the boundary between the first fixing portion and the first wiring portion is An image pickup characterized by being formed at the same distance as the distance from the boundary between the first connecting portion and the second wiring portion to the boundary between the second fixed portion and the second wiring portion. Device. The imaging apparatus according to any one of claims 1 to 3, wherein the center of the first connecting portion and the center of the optical axis are arranged at coincident positions. The flexible printed circuit board
A plurality of differential signal wiring patterns for electrically connecting the image pickup device and the control board are further provided.
The plurality of differential signal wiring patterns include a first differential signal wiring pattern wired to the first wiring portion and a second differential signal wiring pattern wired to the second wiring portion. The imaging device according to any one of claims 1 to 4, wherein the transmission lines are formed so as to have substantially the same length. The control board has an image pickup control unit that is electrically connected to the plurality of differential signal wiring patterns to control the image pickup element.
The image pickup control unit is arranged on a surface connecting the second connection part and the third connection part, and the distance from the second connection part to the image pickup control part is from the third connection part. The imaging device according to claim 5, wherein the distance is the same as the distance to the imaging control unit. The image pickup control unit has a plurality of electrode units that are formed in a rectangular shape and are electrically connected to the control substrate.
The imaging device according to claim 6, wherein a part of the electrode portions close to the end portion of the imaging control unit among the plurality of electrode portions are electrically connected to the differential signal wiring pattern. A third differential signal wiring pattern for connecting a part of the plurality of electrode portions to the first differential signal wiring pattern, and a second differential signal wiring from a part of the plurality of electrode portions. A fourth differential signal wiring pattern for connecting to the pattern is formed on the control board.
The control board has a multi-layer structure in which the laminated structure is formed, and the third differential signal wiring pattern and the fourth differential signal wiring pattern are described from the second and third connection portions. The seventh aspect of claim 7, wherein the wiring extends from the surface layer of the control board on the side on which the image pickup control unit is mounted so as to be connected to a part of the plurality of electrode portions. Imaging device. The movable unit includes a drive member that drives the movable unit relative to the housing, and a second flexible printed circuit board on which the drive member is mounted and electrically connected to the drive member. Have and
The flexible printed circuit board is in the vicinity of the first connection portion or inside the first connection portion, and is a fourth connection between the first wiring portion and the second wiring portion. Has a part,
The second flexible printed circuit board is electrically connected to the flexible printed circuit board at the fourth connection portion, and the driving member and the control board are electrically connected via the flexible printed circuit board. The imaging apparatus according to any one of claims 1 to 8, wherein the image pickup apparatus is made. The flexible printed circuit board has a drive member mounting portion on which a drive member that drives the movable unit relative to the housing can be mounted.
A part of the outer shape of the first connecting portion extends to form the driving member mounting portion, and the first wiring portion and the second wiring portion, or the first wiring portion and the same. The imaging device according to any one of claims 1 to 9, wherein the driving member and the control board are electrically connected to each other via any one of the second wiring portions. .. The movable unit, before a drive member that relatively drives the movable unit with respect Kikatami body, mounting the driving member, and a third flexible printed circuit board which is the driving member and electrically connected A heat transfer member configured by joining one end to a part of the movable unit and joining the other end to a part of the housing to enable heat transfer between the movable unit and the housing. Have,
A heat sink fixed to the housing is provided between the flexible printed circuit board and the control board.
The third flexible printed circuit board has a first joint portion to be joined to the heat radiating plate, and the heat transfer member has a second joint portion to be joined to the heat radiating plate.
In the projection view from the optical axis direction, the third flexible printed substrate extends in a direction orthogonal to the extending direction of the first wiring portion, is fixedly held by the heat sink, and has the heat. The transfer member according to any one of claims 1 to 10, wherein the transfer member extends from a direction facing the extending direction of the third flexible printed substrate and is fixedly held by the heat radiating plate. Imaging device.