The present disclosure provides a circuit board and a method for manufacturing the circuit board. The circuit board may include: a base board, an embedded component, and an attached component. The base board may define a groove, the embedded component can be disposed in the groove. The attached component can be attached to at least one surface of the base board and connected to the embedded component.

An integrated circuit chip includes a core circuit, a first bond pad, a first switch circuit, a second configuration resistor, a control circuit, and a storage unit. The first bonding pad is coupled to a first external reference voltage through a first node, and the first node is coupled to the first external reference voltage through a bonding wire or a first configuration resistor. The first switch circuit is coupled between a first internal reference voltage and the first node. The second configuration resistor is coupled between the first internal reference voltage and the first switch circuit or between the first switch circuit and the first node. In a first mode, the control circuit turns on the first switch circuit, and writes a configuration state of the first bonding pad to the storage unit. In a second mode, the control circuit turns off the first switch circuit.

The present disclosure relates to a substrate structure, including a substrate including at least one electronic device, a first SMD gasket configured to remove an electromagnetic wave formed on the substrate and radiated from the substrate, a second SMD gasket configured to remove an electromagnetic wave formed on the substrate and radiated from the substrate, and a cover shield installed on a surface confronting the substrate to externally discharge heat within the installed region. Here, if a frequency generated from the electronic device is a specific frequency, a spaced distance between the first SMD gasket and the second SMD gasket is set to a length different from a prescribed magnification of a wavelength corresponding to the specific frequency.

A method of running a printed circuit board (PCB) trace on a PCB. The PCB comprising a plurality of PCB layers. The method comprising forming a conductive trace on at least one of the plurality of PCB layers; coupling a first portion of the conductive trace to a capacitor formed on at least one of the plurality of PCB layers; coupling a second portion, different from the first portion, of the conductive trace to a conductive material formed within a first via extending through two or more of the plurality of PCB layers; and configurably setting a length of a conductive path of the conductive trace according to a predetermined impedance. The capacitor is separated laterally in a plan view at a first distance from the first via. The length of the conductive trace in the plan view is greater than the first distance. The conductive path of the conductive trace of the length has the predetermined impedance.

An apparatus comprising includes a first pair of conductors to carry differential signals, at least one ground conductor neighboring the first pair of conductors, the ground conductor to be connected to a ground plane, and at least one particular conductor to carry sideband signals. The particular conductor is to be connected to a ground plane via a resonance mitigation circuit, and the resonance mitigation circuit comprises a resistor.

A wideband termination circuit layout is provided for high power applications. The circuit layout may include a dielectric layer having a first surface and a second surface. The circuit layout may also include an input port disposed over the first surface. The circuit layout may further include at least two resistive film patches disposed over the first surface of the dielectric layer and a tuning line between the at least two resistive films disposed over the first surface of the dielectric layer. The at least two resistive film patches are connected in series with the at least one tuning line.

A printed circuit board has: a first wiring pattern laid in a first layer such that, when a predetermined component is mounted in a predetermined mounting region, a first current path in an open ring shape leading from a first end to a second end is formed; a second wiring pattern laid in a second layer different from the first layer such that a second current path in an open ring shape leading from a third end to a fourth end is formed; a first conductive member formed between the second and third ends; and a second conductive member formed between the first and fourth ends. The first and second wiring patterns are so laid that, as seen in their respective plan views, the directions of the currents flowing across the first and second current paths, respectively, are opposite to each other.

A microelectronic device includes a die less than 300 microns thick, and an interface tile. Die attach leads on the interface tile are electrically coupled to die terminals on the die through interface bonds. The microelectronic device includes an interposer between the die and the interface tile. Lateral perimeters of the die, the interposer, and the interface tile are aligned with each other. The microelectronic device may be formed by forming the interface bonds and an interposer layer, while the die is part of a wafer and the interface tile is part of an interface lamina. Kerfs are formed through the interface lamina, through the interposer, and partway through the wafer, around a lateral perimeter of the die. Material is subsequently removed at a back surface of the die to the kerfs, so that a thickness of the die is less than 300 microns.

A method of running a printed circuit board (PCB) trace on a PCB. The PCB comprising a plurality of PCB layers. The method comprising forming a conductive trace on at least one of the plurality of PCB layers; coupling a first portion of the conductive trace to a capacitor formed on at least one of the plurality of PCB layers; coupling a second portion, different from the first portion, of the conductive trace to a conductive material formed within a first via extending through two or more of the plurality of PCB layers; and configurably setting a length of a conductive path of the conductive trace according to a predetermined impedance. The capacitor is separated laterally in a plan view at a first distance from the first via. The length of the conductive trace in the plan view is greater than the first distance. The conductive path of the conductive trace of the length has the predetermined impedance.

A microelectronic device includes a die less than 300 microns thick, and an interface tile. Die attach leads on the interface tile are electrically coupled to die terminals on the die through interface bonds. The microelectronic device includes an interposer between the die and the interface tile. Lateral perimeters of the die, the interposer, and the interface tile are aligned with each other. The microelectronic device may be formed by forming the interface bonds and an interposer layer, while the die is part of a wafer and the interface tile is part of an interface lamina. Kerfs are formed through the interface lamina, through the interposer, and partway through the wafer, around a lateral perimeter of the die. Material is subsequently removed at a back surface of the die to the kerfs, so that a thickness of the die is less than 300 microns.