| Patent application number | Description | Published |
|---|
| 20090167455 | Semiconductor Device Having Balanced Band-Pass Filter Implemented with LC Resonator - A band-pass filter has a plurality of frequency band channels each including a first inductor having a first terminal coupled to a first balanced port and a second terminal coupled to a second balanced port. A first capacitor is coupled between the first and second terminals of the first inductor. A second inductor has a first terminal coupled to a first unbalanced port and a second terminal coupled to a second unbalanced port. The second inductor is disposed within a first distance of the first inductor to induce magnetic coupling. A second capacitor is coupled between the first and second terminals of the second inductor. A third inductor is disposed within a second distance of the first inductor and within a third distance of the second inductor to induce magnetic coupling. A second capacitor is coupled between first and second terminals of the third inductor. | 07-02-2009 |
| 20090170242 | System-in-Package Having Integrated Passive Devices and Method Therefor - A method of manufacturing a semiconductor device involves providing a substrate, forming a first passivation layer over the substrate, and forming an integrated passive circuit over the substrate. The integrated passive circuit can include inductors, capacitors, and resistors. A second passivation layer is formed over the integrated passive circuit. System components are mounted to the second passivation layer and electrically connect to the second conductive layer. A mold compound is formed over the integrated passive circuit. A coefficient of thermal expansion of the mold compound is approximately equal to a coefficient of thermal expansion of the system component. The substrate is removed. An opening is etched into the first passivation layer and solder bumps are deposited over the opening in the first passivation layer to electrically connect to the integrated passive circuit. A metal layer can be formed over the molding compound or first passivation layer for shielding. | 07-02-2009 |
| 20100001268 | Semiconductor Device and Method of Shunt Test Measurement for Passive Circuits - A semiconductor device has an inductor and capacitor formed on the substrate. The inductor and capacitor are electrically connected in series. The inductor is a coiled conductive layer. The capacitor has first and second conductive layers separated by an insulating layer. A first test pad and second test pad are formed on the substrate. A terminal of the inductor is coupled to the first and second test pads. A third test pad and fourth test pad are formed on the substrate. A terminal of the capacitor is coupled to the third and fourth test pads such that the inductor and capacitor are connected in shunt between the first and second test pads and the third and fourth test pads. An electrical characteristic of the inductor and capacitor such that resonant frequency and quality factor are tested using a two-port shunt measurement which negates series resistance of test probes. | 01-07-2010 |
| 20100001363 | Semiconductor Device and Method of Providing Electrostatic Discharge Protection for Integrated Passive Devices - A semiconductor device has an integrated passive device (IPD) formed on a substrate. The IPD can be a metal-insulator-metal capacitor or an inductor formed as a coiled conductive layer. A signal interconnect structure is formed on the front side or backside of the substrate. The signal interconnect structure is electrically connected to the IPD. A thin film ZnO layer is formed on the substrate as a part of an electrostatic discharge (ESD) protection structure. The thin film ZnO layer has a non-linear resistance as a function of a voltage applied to the layer. A conductive layer is formed on the substrate. The thin film ZnO layer is electrically connected between the signal interconnect structure and conductive layer to provide an ESD path to protect the IPD from an ESD transient. A ground interconnect structure is formed on the substrate and electrically connects the conductive layer to a ground point. | 01-07-2010 |
| 20100231317 | Semiconductor Device and Method of Integrating Balun and RF Coupler on a Common Substrate - A semiconductor die has an RF coupler and balun integrated on a common substrate. The RF coupler includes first and second conductive traces formed in close proximity. The RF coupler further includes a resistor. The balun includes a primary coil and two secondary coils. A first capacitor is coupled between first and second terminals of the semiconductor die. A second capacitor is coupled between a third terminal of the semiconductor die and a ground terminal. A third capacitor is coupled between a fourth terminal of the semiconductor die and the ground terminal. A fourth capacitor is coupled between the high side and low side of the primary coil. The integration of the RF coupler and balun on the common substrate offers flexible coupling strength and signal directivity, and further improves electrical performance due to short lead lengths, reduces form factor, and increases manufacturing yield. | 09-16-2010 |
| 20100244193 | System-in-Package Having Integrated Passive Devices and Method Therefor - A semiconductor device has a substrate, first passivation layer formed over the substrate, and integrated passive device formed over the substrate. The integrated passive device can include an inductor, capacitor, and resistor. A second passivation layer is formed over the integrated passive device. System components are mounted to the second passivation layer and electrically connect to the second conductive layer. A mold compound is formed over the integrated passive device. A coefficient of thermal expansion of the mold compound is approximately equal to a coefficient of thermal expansion of the system component. The substrate is removed. An opening is etched into the first passivation layer and solder bumps are deposited over the opening in the first passivation layer to electrically connect to the integrated passive device. A metal layer can be formed over the molding compound or first passivation layer for shielding. | 09-30-2010 |
| 20100270549 | Semiconductor Device and Method of Providing Electrostatic Discharge Protection for Integrated Passive Devices - A semiconductor device has an integrated passive device (IPD) formed over a substrate. The IPD can be a metal-insulator-metal capacitor or an inductor formed as a coiled conductive layer. A signal interconnect structure is formed over the first side or backside of the substrate. The signal interconnect structure is electrically connected to the IPD. A thin film ZnO layer is formed over the substrate as a part of an electrostatic discharge (ESD) protection structure. The thin film ZnO layer has a non-linear resistance as a function of a voltage applied to the layer. A conductive layer is formed over the substrate. The thin film ZnO layer is electrically connected between the signal interconnect structure and conductive layer to provide an ESD path to protect the IPD from an ESD transient. A ground interconnect structure is formed over the substrate and electrically connects the conductive layer to a ground point. | 10-28-2010 |
| 20110057742 | Semiconductor Device and Method of Forming Directional RF Coupler with IPD for Additional RF Signal Processing - A semiconductor device has a substrate and RF coupler formed over the substrate. The RF coupler has a first conductive trace with a first end coupled to a first terminal of the semiconductor device, and a second conductive trace with a first end coupled to a second terminal of the semiconductor device. The first conductive trace is placed in proximity to a first portion of the second conductive trace. An integrated passive device is formed over the substrate. A second portion of the second conductive trace operates as a circuit component of the integrated passive device. The integrated passive device can be a balun or low-pass filter. The RF coupler also has a first capacitor coupled to the first terminal of the semiconductor device, and second capacitor coupled to a third terminal of the semiconductor device for higher directivity. The second conductive trace is wound to exhibit an inductive property. | 03-10-2011 |
