Abstract:
A dual printed circuit board assembly, a printed circuit board, and a modular printed circuit board are provided. The printed circuit board includes a plurality of first connection points. The modular printed circuit board includes a plurality of second connection points. The modular printed circuit board is adapted to be mounted on the printed circuit board and includes a sensing unit, a first detecting unit, and a first notifying unit. The sensing unit outputs a detecting voltage according to a contact state between the first connection points and the second connection points. The first detecting unit determines whether the first connection points are respectively connected to the corresponding second connection points according to the detecting voltage. When one of the first connection points is not connected to the corresponding one of the second connection points, the first detecting unit controls the first notifying unit to issue a notification.
Abstract:
[Object] There is suggested a printed circuit board capable of realizing impedance matching by securing joint reliability between signal pins of a surface mount connector and signal pin pads and preventing the reduction of impedance of signal pin pads while minimizing the reduction of a wirable area.[Solution] A printed circuit board equipped with a signal pin pad, which is soldered to a signal pin from a surface mount connector, and a ground layer located as a lower layer below the signal pin pad; wherein a fillet is formed around a joint area between the signal pin and the signal pin pad after soldering; wherein a cut-out portion is provided in the signal pin pad within a joint area with the signal pin; and wherein the size of the cut-out portion is set within the range of being completely covered within the joint area with the signal pin based on size tolerance of the signal pin, fabrication tolerance of the printed circuit board, and mount position tolerance of the surface mount connector.
Abstract:
To provide a substrate for a medical device and a medical device in which the reference potential of a patient circuit can be stabilized, the noise between the patient circuit and a ground-side circuit can be reduced, and the insulation distance between the patient circuit and the ground-side circuit can be sufficiently ensured without using a large-sized electronic component. A patient circuit that is a circuit on the side of being brought into contact with or inserted into a subject, a ground-side circuit that is a circuit provided on the side of performing processing on a signal transmitted from the side of being brought into contact with or inserted into the subject and protectively grounded, an insulating layer provided between the patient circuit and the ground-side circuit and providing insulation between the patient circuit and the ground-side circuit, and an isolated circuit provided apart from the patient circuit and the ground-side circuit on the surface of the insulating layer and having a different reference potential from the patient circuit and the ground-side circuit are included.
Abstract:
To provide a substrate for a medical device and a medical device in which the reference potential of a patient circuit can be stabilized, the noise between the patient circuit and a ground-side circuit can be reduced, and the insulation distance between the patient circuit and the ground-side circuit can be sufficiently ensured without using a large-sized electronic component. A patient circuit that is a circuit on the side of being brought into contact with or inserted into a subject, a ground-side circuit that is a circuit provided on the side of performing processing on a signal transmitted from the side of being brought into contact with or inserted into the subject and protectively grounded, an insulating layer provided between the patient circuit and the ground-side circuit and providing insulation between the patient circuit and the ground-side circuit, and an isolated circuit provided apart from the patient circuit and the ground-side circuit on the surface of the insulating layer and having a different reference potential from the patient circuit and the ground-side circuit are included.
Abstract:
An electronic module includes a plurality of loads, a first wiring portion, a second wiring portion, a power source unit, and a feedback portion. The first wiring portion includes a plurality of first portions to which the plurality of loads are respectively connected, and a plurality of second portions each closest to a corresponding one of the plurality of first portions. The second wiring portion is connected to the plurality of second portions. The power source unit includes a feedback terminal, an output terminal, and a power source circuit. In the first wiring portion, a minimum path length from each of the plurality of second portions to the corresponding one of the plurality of first portions is smaller than 1/2 of a minimum path length from a part of the first wiring portion connected to the output terminal to the corresponding one of the plurality of first portions.
Abstract:
Vertical launch impedance matched through-hole vias to ensure proper impedance matching is maintained after a printed circuit board connector is attached to a printed circuit board. A conductive via having a center aperture and a via body having a slot adjacent either the via top surface and/or via bottom surface, and a dielectric component insertable within the via center aperture, and having a slot aligned with the conductive via body slot. The dielectric component having a center aperture with a conductive member in electrical communication with a PCB signal trace without contact to the conductive via. A printed circuit board connector having a center signal pin with a slotted dielectric component attached thereto, or a slotted dielectric component in conjunction with a slotted, conductive via body attached thereto.
Abstract:
Apparatuses and methods including conductive vias of a printed circuit board are described. An example apparatus includes a first layer including a first conductive plate; a component on the first layer, a second layer including a second conductive plate that may be coupled to an external power source; a third layer between the first layer and the second layer, the third layer including a third conductive plate; a first via coupling the first conductive plate to the second conductive plate; and a second via coupled to the first conductive plate. The first conductive plate includes a first portion coupled to the first via and the first conductive plate further includes a second portion coupled to the second via between the first portion and the component. The second via is coupled to either the second conductive plate or the third conductive plate.
Abstract:
Apparatuses and methods including conductive vias of a printed circuit board are described. An example apparatus includes a first layer including a first conductive plate; a component on the first layer, a second layer including a second conductive plate that may be coupled to an external power source; a third layer between the first layer and the second layer, the third layer including a third conductive plate; a first via coupling the first conductive plate to the second conductive plate; and a second via coupled to the first conductive plate. The first conductive plate includes a first portion coupled to the first via and the first conductive plate further includes a second portion coupled to the second via between the first portion and the component. The second via is coupled to either the second conductive plate or the third conductive plate.
Abstract:
Provided herein is a method for manufacturing a conductive transparent substrate, the method including forming a plurality of main electrodes on the substrate such that the main electrodes are distanced from one another; and forming a connecting electrode that electrically connects two or more main electrodes such that the plurality of main electrodes are grouped into a plurality of group electrodes that are electrically disconnected from one another, thereby producing a conductive transparent substrate with excellent transmittance in a process of high yield.