Abstract: Apparatus and methods for secure attachment of a heat sink to its respective retention clip as well as attachment to an electronic device are presented. One embodiment of a retention clip retention apparatus consists of a protruding hip depending from a side of a heat sink protrusion adapted to capture the retention clip between the hip and the heat sink body. One embodiment of a method for forming the hip consists of using a tool to deform the heat sink protrusion. One embodiment of heat sink lateral retention apparatus consists of one or more split bobbins adapted to attach to the retention clip to prevent lateral motion of the heat sink with respect to the clip.

Abstract: Coupling components to an underlying substrate using a composition of a polymer and magnetic material particles. Upon applying the composition between the component and the printed circuit board, the composition may be subjected to a magnetic field to align the magnetic material particles into a conductive path between the component and the underlying substrate. At the same time the polymer-based material may be cured or otherwise solidified to affix the conductive path formed by the magnetic material particles.

Abstract: Coupling components to an underlying substrate using a composition of a polymer and magnetic material particles. Upon applying the composition between the component and the printed circuit board, the composition may be subjected to a magnetic field to align the magnetic material particles into a conductive path between the component and the underlying substrate. At the same time the polymer-based material may be cured or otherwise solidified to affix the conductive path formed by the magnetic material particles.

Abstract: An integrated circuit (IC) has logic and timing circuits that are coupled to discrete circuitry to provide protection and indications whenever an AC adapter that is faulty or has improper voltage levels or polarity are plugged into a system. In particular, the IC device provides over-voltage, under-voltage, and reversed-polarity protections to an electronic system to keep the electronic system from being damaged by an alternating current (AC) adapter having an improper voltage range or voltage polarity. It also provides a protection that prevents an adapter from powering a host system that has a short-circuit fault.

Abstract: A steel rod connector comprises a tube, a left nut and a right nut. The tube has an inner thread and a peripheral locking part, with the peripheral locking part having elongated checking holes. The left and right nuts secure a left and right steel rod, fastened to the tube, respectively. After inserting the left and right steel rods into the tube by left and right insertion lengths, respectively, the checking holes allow to judge immediately by eyesight whether the left and right insertion lengths have reached safe minimal values.

Abstract: A electronic device and method for extracting heat from a heat producing component having front and back sides, the front side is disposed across from the back side, and the front side is attached to a substrate including multiple holes. A thermal interface material is disposed over the back side of the heat producing component. A heat sink including multiple pins corresponding to the multiple holes in the substrate is disposed over the thermal interface material such that the pins are disposed through the holes. The thermal interface material melts and wets to form a thermal coupling between the back side and the heat sink when passed over pre-heaters of a wave soldering machine. Further, the pins are soldered to form solder joints between the respective pins and the substrate when passed over a solder wave in the wave soldering machine to lock-in the thermal coupling formed during the preheating of the thermal interface material to provide a low-cost thermal solution.

Abstract: Coupling components to an underlying substrate using a composition of a polymer and magnetic material particles. Upon applying the composition between the component and the printed circuit board, the composition may be subjected to a magnetic field to align the magnetic material particles into a conductive path between the component and the underlying substrate. At the same time the polymer-based material may be cured or otherwise solidified to affix the conductive path formed by the magnetic material particles.

Abstract: A power converter including a first stage, a reservoir capacitor and a second stage. The first stage converts the voltage of a primary energy source, such as a battery, to a voltage on the reservoir capacitor, which stores a large amount of energy in the form of a voltage substantially larger than the voltage of the primary energy source. The second stage converts the voltage on the reservoir capacitor to a substantially constant voltage for a load device that demands current having the form of large, short, current pulses. The cascaded converter prevents the pulsating load currents of the load device, such as a GSM power amplifier, from causing a severe voltage loss at the battery. This increases the power available from the battery and reduces loses from the internal resistance of the battery.

Abstract: Apparatus and methods are presented for reinforcing and stiffening a printed circuit board (PCB) in selected locations by utilizing preferentially oriented fibers. Selected fibers within the polymeric material matrix of the PCB fiber-matrix layer are removed and replaced with a similar quantity of fibers in a preferential orientation. Various combinations of layering of modified fiber-matrix layer material with conventional fiber-matrix layer material are presented to achieve the desired PCB stiffening. Printed circuit boards, under the weight of heavy attached electronic components, may deflect or flex along an axis, defined as the characteristic fold. This flexing is exasperated with manufacturing and handling loading, particularly when mounted in a chassis. Preferentially orientated fibers laid transverse to the characteristic fold reinforces the area to resist flexure within the area surrounding the characteristic fold.

Abstract: Embodiments of stiffening members in accordance with the present invention provide a mechanical support that is wave soldered to the frontside of the system substrate simultaneously with other wave soldered components. The stiffening member comprises a flat plate with a plurality of mounting pins. The number of mounting pins are predetermined to provide the plate with sufficient support to resist expected loading conditions when wave soldered in plated through holes on a system substrate. The mounting pins are adapted for insertion into plated through holes on the system substrate. The length of the mounting pins are predetermined to account for the height of the SMT component upon which it is attached, the thickness of the system substrate, and the desired amount of mounting pin protrusion from the backside of the system substrate. The stiffening members consume very little system substrate space while retaining a platform for heat dissipation.

Abstract: Coupling components to an underlying substrate using a composition of a polymer and magnetic material particles. Upon applying the composition between the component and the printed circuit board, the composition may be subjected to a magnetic field to align the magnetic material particles into a conductive path between the component and the underlying substrate. At the same time the polymer-based material may be cured or otherwise solidified to affix the conductive path formed by the magnetic material particles.

Abstract: Coupling components to an underlying substrate using a composition of a polymer and magnetic material particles. Upon applying the composition between the component and the printed circuit board, the composition may be subjected to a magnetic field to align the magnetic material particles into a conductive path between the component and the underlying substrate. At the same time the polymer-based material may be cured or otherwise solidified to affix the conductive path formed by the magnetic material particles.

Abstract: Apparatus and methods for secure attachment of a heat sink to its respective retention clip as well as attachment to an electronic device are presented. One embodiment of a retention clip retention apparatus consists of a protruding hip depending from a side of a heat sink protrusion adapted to capture the retention clip between the hip and the heat sink body. One embodiment of a method for forming the hip consists of using a tool to deform the heat sink protrusion. One embodiment of heat sink lateral retention apparatus consists of one or more split bobbins adapted to attach to the retention clip to prevent lateral motion of the heat sink with respect to the clip.

Abstract: Apparatus and methods are presented for reinforcing and stiffening a printed circuit board (PCB) in selected locations by utilizing preferentially oriented fibers. Selected fibers within the polymeric material matrix of the PCB fiber-matrix layer are removed and replaced with a similar quantity of fibers in a preferential orientation. Various combinations of layering of modified fiber-matrix layer material with conventional fiber-matrix layer material are presented to achieve the desired PCB stiffening. Printed circuit boards, under the weight of heavy attached electronic components, may deflect or flex along an axis, defined as the characteristic fold. This flexing is exasperated with manufacturing and handling loading, particularly when mounted in a chassis. Preferentially orientated fibers laid transverse to the characteristic fold reinforces the area to resist flexure within the area surrounding the characteristic fold.

Abstract: An assembly includes a substrate with mounting apertures. A frame is disposed through the apertures, optionally in a non-core area of the substrate, where a chassis at least partially encompasses a portion of the substrate. A component is coupled with the frame, and the frame is coupled with the chassis.

Abstract: A heat sink assembly includes an electronic device, a heat sink and a clip that compresses the heat sink against the electronic device. A spacer is mounted on the clip to restrain motion of the heat sink relative to the electronic device. A method of securing a heat sink to an electronic device includes compressing the heat sink against the electronic device with a clip, and attaching a spacer to the clip in order to restrain motion.

Abstract: Coupling components to an underlying substrate using a composition of a polymer and magnetic material particles. Upon applying the composition between the component and the printed circuit board, the composition may be subjected to a magnetic field to align the magnetic material particles into a conductive path between the component and the underlying substrate. At the same time the polymer-based material may be cured or otherwise solidified to affix the conductive path formed by the magnetic material particles.

Abstract: An assembly includes a substrate with mounting apertures. A frame is disposed through the apertures, optionally in a non-core area of the substrate, where a chassis at least partially encompasses a portion of the substrate. A component is coupled with the frame, and the frame is coupled with the chassis.

Abstract: A heat sink assembly includes an electronic device, a heat sink and a clip that compresses the heat sink against the electronic device. A spacer is mounted on the clip to restrain motion of the heat sink relative to the electronic device. A method of securing a heat sink to an electronic device includes compressing the heat sink against the electronic device with a clip, and attaching a spacer to the clip in order to restrain motion.

Abstract: A substrate, such as a printed circuit board (PCB), has pairs of pads to which terminals of electronic components, such as capacitors, can be mounted. The pads have perimeters, for example, in the shape of rectangles, circles, or ovals. In one embodiment, to reduce asymmetrical, lateral, surface-tension forces that can cause the components to tombstone due to uneven heating of solder fillets on the pads during solder reflow, the edge of the perimeter of each pad opposite the inter-pad region contains one or more notches or indentations. Also described are an electronic assembly, an electronic system, and various methods of fabrication.