Abstract: An integrated motor and drive assembly is disclosed and includes a housing, a motor and a drive. The housing includes a motor-accommodation portion and a drive-accommodation portion. The drive includes a power board and a control board. The power board is made of a high thermal conductivity substrate and includes a power element and an encoder disposed on the first side, the first side faces the motor, the power board and the motor are stacked along a first direction, and the second side contacts the housing to from a heat-dissipating route. The control board is disposed adjacent to the power board. The control board and the power board are arranged along a second direction perpendicular to the first direction, and the first direction is parallel to an axial direction of the motor. A part of the power board and a part of the control board are directly contacted to form an electrical connection.

Abstract: A substrate structure is provided, including: a carrier having at least a wiring area defined and positioned on a portion of a surface of the carrier; a first insulating layer formed on the wiring area; a wiring layer formed on the first insulating layer formed on the wiring area; and a second insulating layer formed on the wiring area. Therefore, a contact surface between the carrier and the first and second insulating layers is reduced by reducing the areas of the first and second insulating layers, whereby a substrate warpage due to mismatch of coefficients of thermal expansion (CTE) is avoided. The present invention further provides a method of manufacturing the substrate structure as described above.

Abstract: A substrate structure includes: a substrate body defined with a layout area, a sealing member and a cutting area, the sealing member being adjacent to the layout area, and the cutting area being adjacent to the sealing member; a wiring layer formed on the layout area; an insulating layer formed on the layout area and the wiring layer; and a metal layer formed on the insulating layer and the layout area. The insulating layer is prevented from being delaminated due to the formation of the metal layer.

Abstract: A substrate structure is provided, which includes: a substrate body having a plurality of conductive pads; an insulating layer formed on the substrate body and having a plurality of openings for correspondingly exposing the conductive pads; and a plurality of ring bodies formed in the openings and corresponding in position to edges of the conductive pads. As such, a plurality of conductive elements can be subsequently formed inside the ring bodies so as to be prevented by the ring bodies from expanding outward during a reflow process, thereby protecting the insulating layer from being compressed by the conductive elements and preventing cracking of the insulating layer.

Abstract: A substrate structure includes: a substrate body defined with a layout area, a sealing member and a cutting area, the sealing member being adjacent to the layout area, and the cutting area being adjacent to the sealing member; a wiring layer formed on the layout area; an insulating layer formed on the layout area and the wiring layer; and a metal layer formed on the insulating layer and the layout area. The insulating layer is prevented from being delaminated due to the formation of the metal layer.

Abstract: A substrate structure is provided, including: a carrier having at least a wiring area defined and positioned on a portion of a surface of the carrier; a first insulating layer formed on the wiring area; a wiring layer formed on the first insulating layer formed on the wiring area; and a second insulating layer formed on the wiring area. Therefore, a contact surface between the carrier and the first and second insulating layers is reduced by reducing the areas of the first and second insulating layers, whereby a substrate warpage due to mismatch of coefficients of thermal expansion (CTE) is avoided. The present invention further provides a method of manufacturing the substrate structure as described above.

Abstract: A substrate structure is provided, which includes: a substrate body having a plurality of conductive pads; an insulating layer formed on the substrate body and having a plurality of openings for correspondingly exposing the conductive pads; and a plurality of ring bodies formed in the openings and corresponding in position to edges of the conductive pads. As such, a plurality of conductive elements can be subsequently formed inside the ring bodies so as to be prevented by the ring bodies from expanding outward during a reflow process, thereby protecting the insulating layer from being compressed by the conductive elements and preventing cracking of the insulating layer.