The invention provides a semiconductor package assembly. The semiconductor package assembly includes a first substrate. A first semiconductor die is disposed on the first substrate. A passive device is located directly on the first semiconductor die. The passive device is disposed within a boundary of the first semiconductor die in a plan view.

A capacitance structure includes a first input terminal configured to input a first input signal, a first output terminal configured to output the first output signal, a second input terminal configured to input a second input signal, a second output terminal configured to output a second output signal, and a plurality of trench cells. Each of the plurality of trench cells includes a first electrode and a second electrode. The first electrodes of the plurality of trenches are interconnected to form a first electrode of the capacitor structure, the second electrodes of the plurality of trench cells are interconnected to form a second electrode of the capacitor structure, the first electrode of the capacitor structure is connected to the first input signal, and the second electrode of the capacitor structure is connected to the input second signal.

The present invention relates to an integrated circuit package comprising at least one substrate, each substrate including at least one layer, at least one semiconductor die, at least one terminal, and an antenna located in the integrated circuit package, but not on said at least one semiconductor die. The conducting pattern comprises a curve having at least five sections or segments, at least three of the sections or segments being shorter than one-tenth of the longest free-space operating wavelength of the antenna, each of the five sections or segments forming a pair of angles with each adjacent segment or section, wherein the smaller angle of each of the four pairs of angles between sections or segments is less than 180° (i.e., no pair of sections or segments define a longer straight segment), wherein at least two of the angles are less than 115°, wherein at least two of the angles are not equal, and wherein the curve fits inside a rectangular area the longest edge of which is shorter than one-fifth of the longest free-space operating wavelength of the antenna.

An integrated circuit has an isolation capacitor structure that reduces the risk of breakdown from high electric fields at the edge of the top metal plate of the capacitor. The capacitor structure includes a bottom metal plate above a substrate. A first dielectric layer of a first dielectric material is formed between the bottom metal plate and the top metal plate. The capacitor structure also includes a thin narrow ring formed of a second dielectric material located under a portion of the top metal plate. The second dielectric material has a higher dielectric constant than the first dielectric material. The thin narrow ring follows the shape of the edge of the top metal plate with a portion of the ring underneath the top metal plate and a portion outside the edge of the top metal plate to thereby be located at a place of the maximum electric field.

Techniques for providing vertical integrations of semiconductor chips, magnetic chips, and lead frames. The techniques can include fabricating an integrated circuit (IC) device as a multi-layer IC structure that includes, within a sealed protective enclosure, a first layer including at least one magnetic chip, a second layer including at least one semiconductor chip or die, and a lead frame. The techniques can further include vertically bonding the magnetic chip in the first layer onto the topside of the lead frame, and vertically bonding the semiconductor chip or die in the second layer on top of the magnetic chip to form a multi-layer IC structure.

An apparatus is provided that includes a die stack having a first die and a second die disposed above a substrate, and a capacitor die disposed in the die stack between the first die and the second die. The capacitor die includes a plurality of integrated circuit capacitors that are configured to be selectively coupled together to form a desired capacitor value coupled to at least one of the first die and the second die.

An integrated circuit has an isolation capacitor structure that reduces the risk of breakdown from high electric fields at the edge of the top metal plate of the capacitor. The capacitor structure includes a bottom metal plate above a substrate. A first dielectric layer of a first dielectric material is formed between the bottom metal plate and the top metal plate. The capacitor structure also includes a thin narrow ring formed of a second dielectric material located under a portion of the top metal plate. The second dielectric material has a higher dielectric constant than the first dielectric material. The thin narrow ring follows the shape of the edge of the top metal plate with a portion of the ring underneath the top metal plate and a portion outside the edge of the top metal plate to thereby be located at a place of the maximum electric field.

A semiconductor device includes: a wiring board including first to third bonding pads; a chip stack including semiconductor chips, each chip having first to third connection pads, the first connection pads being connected in series to each other and to the first bonding pad through first bonding wires to form a first transmission channel, the second connection pads being connected in series to each other and to the second bonding pad through second bonding wires to form a second transmission channel, and the third connection pads being connected in series to each other and to the third bonding pad through third bonding wires to form a third transmission channel; and at least one of a first and a second terminating resistor being provided above the chip stack, the first resistor being connected to the first and second channels, the second resistor being connected to the first and third channels.

A packaged integrated circuit (IC) includes a leadframe including a die pad and leads around the die pad, an analog IC die having first bond pads on its active top side, and a second circuit including second circuit bond pads attached to the analog IC die by an attachment layer configured as a ring with a hollow center that provides an inner gap. A bottom side of the analog IC or the second circuit is attached to the die pad. Bond wires couple at least some of the first bond pads or some of the second circuit bond pads to the leads, and there is a second coupling between others of the second circuit bond pads and others of the first bond pads. A mold compound is for encapsulating the second circuit and the analog IC.

A semiconductor device package having galvanic isolation is provided. The semiconductor device includes a package substrate having a first inductive coil formed from a first conductive layer and a second inductive coil formed from a second conductive layer. The first conductive layer and the second conductive layer are separated by a non-conductive material. A first semiconductor die is attached to a first major side of the package substrate. The first semiconductor die is conductively interconnected to the first inductive coil. A second semiconductor die is attached to the first major side of the package substrate. A first wireless communication link between the first semiconductor die and the second semiconductor die is formed by way of the first and second inductive coils.