Abstract: A first cavity-down ball grid array (BGA) package includes a substrate member and an array of bond balls. The array of bond balls includes a pair of parallel extending rows of outer mesh bond balls and a row of inner signal bond balls that is parallel to the pair of rows of outer mesh bond balls. A surface-mount blocking element is disposed between the row of inner signal bond balls and the pair of rows of outer mesh bond balls. The surface-mount blocking element is either a passive or an active component of the BGA package. In one example, the first cavity-down BGA package is surface-mounted to a second cavity-down BGA package to form a package-on-package (POP) security module. The surface-mount blocking element provides additional physical barrier against the probing of the inner signal bond balls. Sensitive data is therefore protected from unauthorized access.

Abstract: A first cavity-down ball grid array (BGA) package includes a substrate member and an array of bond balls. The array of bond balls includes a pair of parallel extending rows of outer mesh bond balls and a row of inner signal bond balls that is parallel to the pair of rows of outer mesh bond balls. A surface-mount blocking element is disposed between the row of inner signal bond balls and the pair of rows of outer mesh bond balls. The surface-mount blocking element is either a passive or an active component of the BGA package. In one example, the first cavity-down BGA package is surface-mounted to a second cavity-down BGA package to form a package-on-package (POP) security module. The surface-mount blocking element provides additional physical barrier against the probing of the inner signal bond balls. Sensitive data is therefore protected from unauthorized access.

Abstract: A first cavity-down ball grid array (BGA) package includes a substrate member and an array of bond balls. The array of bond balls includes a pair of parallel extending rows of outer mesh bond balls and a row of inner signal bond balls that is parallel to the pair of rows of outer mesh bond balls. A surface-mount blocking element is disposed between the row of inner signal bond balls and the pair of rows of outer mesh bond balls. The surface-mount blocking element is either a passive or an active component of the BGA package. In one example, the first cavity-down BGA package is surface-mounted to a second cavity-down BGA package to form a package-on-package (POP) security module. The surface-mount blocking element provides additional physical barrier against the probing of the inner signal bond balls. Sensitive data is therefore protected from unauthorized access.

Abstract: An integrated circuit (IC) package includes a printed circuit board (PCB) substrate and a plurality of package attachment terminals. The package attachment terminals are used to conduct electrical signals from a die that is attached and bonded onto the PCB substrate. The PCB substrate has a side edge and includes a plurality of electrically-conductive paths. Each one of the plurality of paths includes an electroplated bond pad, a trace, and a stub trace. The die is connected to the bond pad and the trace couples the bond pad to a respective one of the package attachment terminals. The stub trace is used to facilitate the electroplating process. The stub trace extends from the trace and terminates at a distance away from the side edge. The stub trace is not visible from the side of the IC package and therefore prevents access to IC buses on the package.

Abstract: A package-on-package (POP) secure module includes a first ball grid array (BGA) package and a second BGA package. The first BGA includes an array of bond balls that is disposed on a side of a substrate member, and an array of lands that is disposed on the opposite side of the substrate member. Bond balls of the second BGA are fixed to the lands of the first BGA such that the second BGA is piggy-back mounted to the first BGA. Embedded in the substrate member of the second BGA is an anti-tamper security mesh. An integrated circuit in the first BGA is coupled to, drives and monitors the security mesh. When the module is disposed on a printed circuit board within a point of sale (POS) terminal, the integrated circuit is coupled to, also drives and monitors a second security mesh embedded in the printed circuit board underneath the module.

Abstract: A package-on-package (POP) secure module includes a BGA mesh cap, a first BGA package, and a second BGA package. The first BGA package includes a first integrated circuit (for example, a microcontroller that includes tamper detect logic). The second BGA package includes a second integrated circuit (for example, a memory). The second BGA package is piggy-back mounted to the first BGA package and the BGA mesh cap is piggy-back mounted to the second BGA package. A printed circuit board substrate member of the BGA mesh cap includes an embedded anti-tamper mesh. This mesh is connected in a protected manner within the module to the first integrated circuit. When the module is in use, a mesh embedded in an underlying printed circuit board is coupled to the BGA cap mesh so that both anti-tamper meshes are controlled by the tamper detect logic.

Abstract: A package-on-package (POP) secure module includes a first ball grid array (BGA) package, and a second BGA package. The first BGA includes an array of bond balls that is disposed on a side of a substrate member, and an array of lands that is disposed on the opposite side of the substrate member. Bond balls of the second BGA are fixed to the lands of the first BGA such that the second BGA is piggy-back mounted to the first BGA. Embedded in the substrate member of the second BGA is an anti-tamper security mesh. An integrated circuit in the first BGA is coupled to, drives and monitors the security mesh. When the module is disposed on a printed circuit board within a point of sale (POS) terminal, the integrated circuit is coupled to, also drives and monitors a second security mesh embedded in the printed circuit board underneath the module.

Abstract: A package-on-package (POP) secure module includes a BGA mesh cap, a first BGA package, and a second BGA package. The first BGA package includes a first integrated circuit (for example, a microcontroller that includes tamper detect logic). The second BGA package includes a second integrated circuit (for example, a memory). The second BGA package is piggy-back mounted to the first BGA package and the BGA mesh cap is piggy-back mounted to the second BGA package. A printed circuit board substrate member of the BGA mesh cap includes an embedded anti-tamper mesh. This mesh is connected in a protected manner within the module to the first integrated circuit. When the module is in use, a mesh embedded in an underlying printed circuit board is coupled to the BGA cap mesh so that both anti-tamper meshes are controlled by the tamper detect logic.