A switched inductor DC-DC power converter chiplet includes a CMOS power switch, an LC filter, regulation circuitry, feedback control circuitry, and interface control circuitry integrated on a common substrate. The inductor for the LC filter can be formed on the same surface or on opposing surfaces of the substrate as the electrical terminations for the substrate. Another embodiment includes a switched inductor DC-DC power converter chiplet having a first powertrain phase and multiple second powertrain phases. When the load current is less than or equal to a threshold load current, the power conversion efficiency can be improved by only operating the first powertrain phase. When the load current is greater than the threshold load current, the power conversion efficiency can be improved by operating one or more second powertrain phases.

A structure comprises a semiconductor integrated circuit, an inductor, and a magnetic flux closure layer. The inductor is integrated into a multilevel wiring network in the semiconductor integrated circuit. The inductor includes a planar laminated magnetic core and a conductive winding that turns around in a generally spiral manner on the outside of the planar laminated magnetic core. The planar laminated magnetic core includes an alternating sequence of a magnetic layer and a non-magnetic layer. The magnetic flux closure layer is disposed within about 100 μm of a face of the planar laminated magnetic core, the face of the planar magnetic core parallel to a principal plane of the planar laminated magnetic core. A second magnetic flux closure layer can be disposed within about 100 μm of an opposing face of the planar laminated magnetic core.

An inductor includes a planar laminated magnetic core and a conductive winding. The planar magnetic core includes an alternating sequence of a magnetic layer and a non-magnetic layer. The non-magnetic layer includes an insulating layer that is disposed between first and second interface layers. The conductive winding turns around in a generally spiral manner on the outside of the planar laminated magnetic core. The inductor can be integrated into a multilevel wiring network in a semiconductor integrated circuit to form a microelectronic device, such as a transformer, a power converter, or a microprocessor.

An inductor comprises a planar laminated magnetic core and a conductive winding. The core includes an alternating sequence of (a) a magnetic layer having a thickness of about 100 angstroms to about 10,000 angstroms and (b) a non-magnetic layer having a thickness of about 10 angstroms to about 2,000 angstroms. Magnetic flux passes through a first magnetic layer parallel to a first easy axis of magnetization of the first magnetic layer and the magnetic flux passes through a second magnetic layer, disposed adjacent to the first magnetic layer, parallel to a second easy axis of magnetization of the second magnetic layer. The magnetic flux path extends through the first and second magnetic layers parallel to the first and second easy axes of magnetization, respectively. At least one orthogonal magnetic layer can be disposed laterally from the core such that the magnetic flux path extends through the orthogonal magnetic layer(s).

A plurality of electronic signaling and image processing devices coupled to street roadside illumination poles, communicatively networked with one another, vehicles, and at least one remote client to manage all roadside municipal parking stalls in the pole's vicinity in real time.

A die package is disclosed through which power domains within the chip may be isolated by removing vias within the package substrate, rather than power gating. Multiple substrate options may be configured without specific vias. This eliminates the need to design power gating circuitry into the die, freeing up that die area for more functional logic. The solution allows the die package to retain the same pinout for use by PCB designers, regardless of which power domains are gated.

A die package is disclosed through which power domains within the chip may be isolated by removing vias within the package substrate, rather than power gating. Multiple substrate options may be configured without specific vias. This eliminates the need to design power gating circuitry into the die, freeing up that die area for more functional logic. The solution allows the die package to retain the same pinout for use by PCB designers, regardless of which power domains are gated.

An inductor includes a planar laminated magnetic core and a conductive winding. The planar magnetic core includes an alternating sequence of a magnetic layer and a non-magnetic layer. The non-magnetic layer includes an insulating layer that is disposed between first and second interface layers. The conductive winding turns around in a generally spiral manner on the outside of the planar laminated magnetic core. The inductor can be integrated into a multilevel wiring network in a semiconductor integrated circuit to form a microelectronic device, such as a transformer, a power converter, or a microprocessor.

A structure comprises a semiconductor integrated circuit, an inductor, and a magnetic flux closure layer. The inductor is integrated into a multilevel wiring network in the semiconductor integrated circuit. The inductor includes a planar laminated magnetic core and a conductive winding that turns around in a generally spiral manner on the outside of the planar laminated magnetic core. The planar laminated magnetic core includes an alternating sequence of a magnetic layer and a non-magnetic layer. The magnetic flux closure layer is disposed within about 100 m of a face of the planar laminated magnetic core, the face of the planar magnetic core parallel to a principal plane of the planar laminated magnetic core. A second magnetic flux closure layer can be disposed within about 100 m of an opposing face of the planar laminated magnetic core.

A structure includes a semiconductor integrated circuit comprising a multilevel wiring network and an inductor integrated into the multilevel wiring network. The inductor includes a planar laminated magnetic core and a conductive winding that turns around in a generally spiral manner on the outside of the planar laminated magnetic core. The planar laminated magnetic core includes an alternating sequence of a magnetic layer and a non-magnetic layer. The magnetic layer comprises a ferromagnetic alloy having an iron composition of about 10 atomic percent to about 90 atomic percent.