A thermal interface material (TIM) structure for directing heat in a three-dimensional space including a TIM sheet. The TIM sheet includes a lower portion along a lower plane; a first side portion along a first side plane; a first upper portion along an upper plane; a first fold between the lower portion and the first side portion positioning the first side portion substantially perpendicular to the lower portion; and a second fold between the first side portion and the first upper portion positioning the first upper portion substantially perpendicular to the first side portion and substantially parallel to the lower portion.

A semiconductor laser module includes a semiconductor laser element that outputs a laser beam, a cathode that is for causing a current to flow through the semiconductor laser element, and a heat sink that dissipates heat generated in the semiconductor laser element. The heat sink includes an anode, a first insulating layer located at a position farther away from the semiconductor laser element than the anode, and a water passage portion located at a position farther away from the semiconductor laser element than the first insulating layer. The water passage portion is formed by metal and includes a part of a flow path of water for dissipation of heat generated in the semiconductor laser element.

A liquid-cooling heat dissipation device and a liquid-cooling heat dissipation system for improving heat transfer efficiency are disclosed. The liquid-cooling heat dissipation device includes a vapor chamber, a liquid-separating cover, and a housing. The housing has a cold liquid inlet and a hot liquid outlet. An accommodating cavity is formed between the vapor chamber and the housing. By providing the vapor chamber, the heat transfer efficiency of the liquid-cooling heat dissipation device is improved greatly to realize rapid heat dissipation.

A semiconductor device includes a package and a cooling cover. The package includes a first die having an active surface and a rear surface opposite to the active surface. The rear surface has a cooling region and a peripheral region enclosing the cooling region. The first die includes micro-trenches located in the cooling region of the rear surface. The cooling cover is stacked on the first die. The cooling cover includes a fluid inlet port and a fluid outlet port located over the cooling region and communicated with the micro-trenches.

Provided are a heat sink capable of suppressing overcooling of an electronic component which should not be overcooled and highly efficiently cooling only an electronic component which should be cooled, and a circuit device including the same. A heat sink includes a pipe and a cooling block. At least one projection is formed in the cooling block. The pipe is in contact with the projection. The pipe is arranged with a spacing from a portion of the cooling block other than the projection.

Methods and apparatus for a cooling plate for solid state power amplifiers are provided herein. In some embodiments, a cooling plate of a solid state power amplifier includes a body having a rectangular shape, a first sidewall opposite a second sidewall, and a third sidewall opposite a fourth sidewall; a plurality of holes disposed on a first side of the body configured to mount a plurality of heat generating microelectronic components; and a channel having a plurality of segments disposed within the body and extending from a first port disposed on the first sidewall to a second port disposed on the first sidewall.

Methods and apparatus for a cooling plate for solid state power amplifiers are provided herein. In some embodiments, a cooling plate of a solid state power amplifier includes a body having a rectangular shape, a first sidewall opposite a second sidewall, and a third sidewall opposite a fourth sidewall; a plurality of holes disposed on a first side of the body configured to mount a plurality of heat generating microelectronic components; and a channel having a plurality of segments disposed within the body and extending from a first port disposed on the first sidewall to a second port disposed on the first sidewall.

A cold plate apparatus that has an outlet plenum leading to an outlet opening includes an outlet transition that connects the outlet opening to the outlet plenum. The outlet transition defines a smoothly curving flow path from a direction along a long dimension of the outlet plenum, which is parallel to a plane defined by the outlet opening, to a direction along a centerline of the outlet opening, which is at an angle from the plane defined by the outlet opening. The outlet transition provides a smooth variation of cross-sectional area from the outlet plenum to the outlet opening.

A cold plate apparatus that has an outlet plenum leading to an outlet opening includes an outlet transition that connects the outlet opening to the outlet plenum. The outlet transition defines a smoothly curving flow path from a direction along a long dimension of the outlet plenum, which is parallel to a plane defined by the outlet opening, to a direction along a centerline of the outlet opening, which is at an angle from the plane defined by the outlet opening. The outlet transition provides a smooth variation of cross-sectional area from the outlet plenum to the outlet opening.

Disclosed is a pressure balancing clamp for a press-pack insulated gate bipolar transistor (IGBT) module. The pressure balancing clamp for a press-pack IGBT module includes a bracket, where the bracket is provided with two longitudinally arranged pressure equalizing plates in a sliding way; the pressure equalizing plates are connected through pressure sensors; the upper and lower ends inside the bracket are respectively connected with the pressure equalizing plates through hydraulic devices and a displacement compensation device; opposite surfaces of the two pressure equalizing plates are respectively provided with heat dissipation and confluence devices. The pressure sensors are in one-to-one correspondence with the hydraulic devices and are electrically connected. The hydraulic devices adjust the pressure according to the readings of the pressure sensors in corresponding directions, so that the pressure of the press-pack IGBT module is balanced.