Patent ID: 9155224
Filing Date: 2015-10-06
Classification: H01L,H05K

Abstract:
1. An assembly comprising: a first PCB having a first side and a second side one or more first electrical components being positioned at the first side of the first PCB, a cooling surface a biasing means for biasing the cooling surface toward an upper surface of at least one of the one or more first electrical components with a force, wherein the biasing means comprise at least three resilient elements having substantially a same spring constant, a second PCB with a first side and a second side, one or more second electrical components being positioned at the first side of the second PCB, the first side of the first PCB facing the first side of the second PCB, a channel forming element comprising one or more fixed elements fixed in relation to the first PCB, and with at a least part of the first side of the first PCB and at least a part of the first side of the second PCB, forming a channel, the channel having a first end and a second end, the at least three resilient elements abutting the channel forming element, the biasing means engaging the one or more fixed elements at positions which, in a plane view of the first PCB, are positioned at different distances from a centre of at least one electrical component of the one or more first components, the one or more fixed elements providing a stiffness, so that the force exerted is not applied to the first PCB, so that the first PCB is not flexed, an air forcing element positioned to force air through the channel from the first end thereof toward the second end thereof, wherein the at least three resilient elements are positioned so that, along each of two axes perpendicular to each other and positioned in the plane view, a first combined distance along each of the two axes from a centre of the at least one first components to each resilient element of the at least three resilient elements positioned in one direction along each of the two axes in relation to the centre is within a predetermined distance along each of the two axes from a second combined distance along each of the two axes from the centre to each resilient element positioned in the opposite direction along each of the two axes in relation to the centre, the predetermined distance along each of the two axes being within 10% of a largest distance from any resilient elements having the largest distance to the centre.