A card reader for use with a card may include a card insertion part provided with an insertion port into which the card is inserted, a protruded part which is provided on a front face of the card insertion part and is protruded to a front side with respect to the card insertion part, a breakage detection wiring which is provided in an inside of the protruded part, and a detection part which detects at least one of disconnection and a short circuit of the breakage detection wiring.

A tamper detection system may include organic material and a tamper detection circuit embedded in the organic material. A portion of the organic material is ablated away to form an incision in the organic material. A portion of the tamper detection circuit obstructs a fragment of the ablation path. The tamper detection circuit remains intact. The incision enables a gas flow between a first side of the organic material and a second side of the organic material.

An information handling system may include a battery, a circuit board, an enclosure, and a control circuit. The circuit board may include at least one electric component, a first electrically conductive pad, and a second electrically conductive pad in proximity to the first electrically conductive pad. The enclosure may be configured to house components of the information handling system including the battery and the circuit board, and the enclosure may include a first member, a second member configured to be mechanically coupled to the first member, and a mechanical component comprising conductive material and configured to electrically short the first electrically conductive pad to the second electrically conductive pad when the first member is mechanically coupled to the second member, and cause electrical isolation of the first electrically conductive pad from the second electrically conductive pad when the first member is mechanically decoupled from the second member. The control circuit may be configured to, when the first electrically conductive pad is shorted to the second electrically conductive pad, cause the at least one electrical component to be electrically coupled to the battery and when the first electrically conductive pad is electrically isolated from the second electrically conductive pad, cause the at least one electrical component to be electrically decoupled from the battery.

A rigid-flex printed circuit board (PCB) includes at least one rigid PCB including at least one electrical component, a flex circuit, and a built-in diagnostic circuit. The flex circuit includes at least one end connected to the at least one rigid PCD. The flex circuit includes at least one signal trace configured to deliver an electrical signal to the at least one electrical component. The built-in diagnostic circuit is configured to detect a fault in the rigid-flex PCB.

An electronic system can include an electronic module and a trace circuit that provides a perimeter that encloses the electronic module. A sensing circuit within the electronic system can be configured to detect a discontinuity in the perimeter. In response to detecting the discontinuity in the perimeter, the sensing circuit can initiate, from a response device, a response signal.

A laminate carrier-like module lid including multiple laminate layers of non-conductive materials stacked one atop another, sensor circuitry embedded within the laminate carrier-like module lid, the sensor circuitry providing a continuous electrical circuit surrounding the electronic components of the multi-chip module package, and thermal circuitry embedded within the laminate carrier-like module lid, the thermal circuitry comprising solid copper traces to thermally conduct heat from the electronic components of the multi-chip module package.

The present invention provides a system for detecting access to a pre-defined area on a Printed Circuit Board, wherein the system comprises: the Printed Circuit Board comprising, on at least one of its external surfaces, at least one pre-defined area comprising electrical components, a potting material arranged over at least the pre-defined area, wherein the potting material comprises a first layer of transparent material configured to allow light to pass through, and a second layer of opaque material arranged so that completely blocks light towards the first layer, wherein the first layer is arranged between the Printed Circuit Board and the second layer and extends at least over the pre-defined area, and at least one photo-sensor arranged within the first layer of transparent material and configured to generate a tamper signal upon detection of light in the first layer.

Tamper-respondent sensors with random three-dimensional security patterns and methods of fabrication are provided. The method includes establishing a security circuit pattern for a security circuit of a tamper-respondent sensor to enclose, at least in part, one or more components of a circuit board within a secure volume. The establishing includes obtaining in three-dimensions boundaries for the security circuit of the tamper-respondent sensor. The boundaries define a sensor volume within which the security circuit is to reside. The establishing also includes generating at least one trace configuration for the security circuit pattern. The at least one trace configuration defines a random, three-dimensional security pattern within the sensor volume, and the at least one trace configuration establishes, at least in part, the security circuit pattern. The process further includes fabricating the tamper-respondent sensor using, at least in part, the established security circuit pattern.

A point of sale (POS) device includes tamper detection circuitry in which one or more flexible members that each include multiple side-by-side conductive traces connect two circuit boards, optionally so that one circuit board must remain very close to the other if the device remains in a secure un-tampered-with state. Severance of a trace of the flexible member, or disconnection of the flexible member from either circuit board, may result in unexpected voltage sensor readings indicative of a tamper attempt.

A point of sale (POS) device includes a flexible member with two exposed conductive areas that are part of a tamper detection circuit. While a recess receives a screw, the screw passes through apertures in the flexible member and in a conductive gasket, and the conductive gasket connects the two exposed conductive areas to one another, closing the tamper detection circuit. Adhesives affix the flexible member to the screw and the conductive gasket to the recess opening so that removing the screw from the recess separates the conductive gasket from the two exposed conductive areas, opening the tamper detection circuit.