Provided is a display apparatus including: a display panel including a display area and a peripheral area; a printed circuit board attached to the peripheral area and including a ground portion and a test electrode spaced apart from the ground portion; a connector including a plurality of connector terminals connected to an external control apparatus and electrically connecting the printed circuit board and the external control apparatus to each other; and a cover layer arranged on the printed circuit board and covering at least a part of the printed circuit board. Accordingly, not only the display quality and reliability of the electric characteristics of the display apparatus are improved, but also a loss is reduced and a yield is improved during manufacturing processes.

The present invention provides a method for detecting failed back-drills in PCBs in the process of fabricating a PCB so that the failed back-drill can be screened out or repaired. The present invention accomplishes this by adding a short to ground connection for every back-drill via that will be cut when the back-drill removes the via stub. If the back-drill is bad or failed the short to ground will fail the subsequent electrical tests. The PCB can be repaired by re-drilling the hole or via. The present invention allows for detecting failed back-drills with easy detection in the manufacturing stage using standard equipment and test procedures. This process creates a simple pass-fail measurement that uses an existing common test process to catch failed back drills in the PCB fabrication facility. This allows for easy and cost-effective repair and guarantees back-drill failures do not pass into the field.

A battery monitoring module includes a printed circuit board including a first signal line, a second signal line, and a conductive pad, the conductive pad being configured to be connected to an electrode of a cell; an integrated circuit on the printed circuit board, the integrated circuit to measure a cell voltage at the cell and control cell balancing; a measuring interface on the printed circuit board and connected between the conductive pad and the integrated circuit, and providing a voltage measuring path; and a balancing circuit on the printed circuit board and connected between the conductive pad and the integrated circuit, the balancing circuit providing a discharge path for the cell. The first signal line may electrically connect the conductive pad to the measuring interface, and the second signal line may be physically separated from the first signal line, and electrically connect the conductive pad to the balancing circuit.

A printed circuit board (PCB) includes a plurality of layers disposed at different depths of the PCB, circuit components disposed at different layers of the PCB, and a plurality of temperature measurement sensors located at one or more layers of the PCB, where each temperature measurement sensor is associated with a corresponding circuit component. A measured temperature is obtained at an embedded temperature measurement sensor located at an embedded layer within the PCB, and the measured temperature is correlated with an electrical property of an embedded circuit component located at the same embedded layer within the PCB as the embedded temperature measurement sensor. A plurality of moisture measurement sensors can also be located at one or more layers of the PCB to facilitate a measured moisture with an electrical property of an embedded circuit component.

An electronic apparatus including a display module having a front surface and a rear surface opposing the front surface and including pixels disposed on the front surface and a display pad connected to the pixels and exposed from the rear surface, a protective film disposed on the rear surface of the display module, a circuit board disposed between the display module and the protective film and having a front surface facing the rear surface of the display module and a rear surface, the circuit board including a first substrate pad connected to the display pad and exposed from the front surface of the circuit board and a second substrate pad exposed from the rear surface of the circuit board, and a driving element connected to the second substrate pad to drive the pixels, in which the second substrate pad and the protective film are spaced apart from each other.

An electronic apparatus includes an electronic panel including a plurality of pads, a circuit board including a plurality of leads, and a conductive adhesive member configured to electrically connect the circuit board and the electronic panel. The plurality of pads include a plurality of pixel pads, an arrangement pad, and a resistance measurement pad disposed between the arrangement pad and the pixels pads and insulated from the pixel pads. The plurality of leads include a plurality of pixel leads, an arrangement lead, and a resistance measurement lead disposed between the pixel leads and the arrangement lead and insulated from the pixel leads, The resistance measurement lead includes a plurality of resistance measurement leads disposed between the arrangement lead and the pixel leads and electrically connected with the resistance measurement pad, and a dummy lead spaced apart from the plurality of resistance measurement leads in a plan view.

Provided is an immunity evaluation system that enables design feedback in consideration of a subject wiring and an improvement amount for improving an electromagnetic noise resistance of a circuit board. An immunity evaluation device includes: a storage unit configured to store characteristic data including probe-circuit board wiring coupling characteristics which are determined by a combination of a near-field probe and circuit board characteristics, and a test result; and an IC reaching signal level estimation unit configured to estimate a signal level reaching a terminal of an evaluation target IC. The immunity evaluation device receives board design information, information of the near-field probe, and test waveform instruction information of a signal applied to the near-field probe. The IC reaching signal level estimation unit reads the coupling characteristics from the storage unit based on the board design information of a test subject circuit board and the information of the near-field probe, and outputs a value of the IC reaching signal level reaching a terminal of the evaluation target IC from the board design information of the test subject circuit board, the information of the near-field probe, and the coupling characteristics.

A flexible circuit board includes a flexible substrate, a chip and a patterned circuit layer. A surface of the flexible substrate is separated into a working area and a nonworking area according to a cutting line. The chip is disposed on the working area. The patterned circuit layer is disposed on the surface and includes signal transmission wires and bypass wires, the bypass wires are not electrically connected to the chip. Each of the bypass wires includes a bypass transmission portion located on the working area and an anti-peeling portion located on the nonworking area. A blank area exists between the anti-peeling area and the bypass transmission portion, and the cutting line passes through the blank area. A distance between 100 um and 400 um exists from the anti-peeling portion to the cutting line.

A film type package includes: a base film having first and second sides; a driver integrated circuit mounted on the base film; first connection pads disposed on a first area of the base film that is adjacent to the first side of the base film, and configured to be connected to a first external circuit; second connection pads disposed on a second area of the base film that is adjacent to the second side of the base film, and configured to be connected to a second external circuit; first signal lines disposed on the base film, and connecting the driver integrated circuit and the first connection pads; second signal lines disposed on the base film, and connecting the driver integrated circuit and the second connection pads; and a plurality of test lines extending from the driver integrated circuit to the first side of the base film.

A motor driving circuit includes a wiring pattern formed in a circuit board, which is configured such that electrical current flowing into a motor flows through the wiring pattern; and a current measurement circuit configured to measure an amount of electrical current flowing through the wiring pattern, based on an amount of voltage drop occurring in response to flowing of the electrical current. The motor driving circuit includes a drive unit configured to adjust a current measurement value measured by the current measurement circuit, based on first adjustment data that compensates for variation in resistance of the wiring pattern caused by an individual difference in the circuit board, and to drive the motor based on an adjusted current value which is the adjusted current measurement value.