Abstract: In an LDMOS-SCR ESD protection structure gate voltage of an ESD protection LDSCR is defined by connecting the gate to the source of a reference LDSCR. The reference LDSCR is implemented as a self-triggering device in which the snapback drain-source voltage (avalanche breakdown voltage) is controlled to be lower than that for the major LDSCR by adjusting the RESURF layer-composite overlap for the reference LDSCR to be different to that of the major LDSCR.

Abstract: Methods for forming multiple inductors on a semiconductor wafer are described. A plating layer and a photoresist layer are applied over a semiconductor wafer. Recess regions are etched in the photoresist layer using photolithographic techniques, which exposes portions of the underlying plating layer. Metal is electroplated into the recess regions in the photoresist layer to form multiple magnetic core inductor members. A dielectric insulating layer is applied over the magnetic core inductor members. Additional plating and photoresist layers are applied over the dielectric insulating layer. Recess regions are formed in the newly applied photoresist layer. Electroplating is used to form inductor windings in the recess regions. Optionally, a magnetic paste can be applied over the inductor coils.

Abstract: An apparatus and method for wafer level fabrication of high value inductors directly on top of semiconductor integrated circuits. The apparatus and method includes fabricating a semiconductor wafer including a plurality of dice, each of the dice including power circuitry and a switching node. Once the wafer is fabricated, then a plurality of inductors are fabricated directly onto the plurality of dice on the wafer respectively. Each inductor is fabricated by forming a plurality of magnetic core inductor members on an interconnect dielectric layer formed on the wafer. An insulating layer, and then inductor coils, are then formed over the plurality of magnetic core inductor members over each die. A plated magnetic layer is formed over the plurality of inductors respectively to raise the permeability and inductance of the structure.

Abstract: An integrated circuit (IC) fabrication technique is provided for isolating very high voltage (1000s of volts) circuitry and low voltage circuitry formed on the same semiconductor die. Silicon-on-Insulator (SOI) technology is combined with a pair of adjacent backside high voltage isolation trenches that are fabricated to be wide enough to stand off voltages in excess of 1000V. The lateral trench is fabricated at two levels: the active silicon level and at the wafer backside in the SOI bulk.

Abstract: An on-chip inductor structure for a DC-DC power regulator circuit merges the switching transistor metallization with the inductor. Thick top level conductor metal that is used to strap the transistor array and to lower its on-state resistance is also used to extend the power inductor into the transistor array. Thus, the structure includes three basic components: a power inductor that spirals around the transistor array, the transistor array itself, and the transistor array metallization that is used to form a distributed inductance situated over the transistor array.

Abstract: In an ESD protection circuit for an EEPROM erase pin a snapback device is provided for discharging high ESD currents, whereas the snapback device is operated in active mode during low voltage electrical overstress and to discharge post ESD event current by connecting an RC circuit over the control electrode of the snapback device. In order to handle high voltage normal operating conditions the snapback device is deactivated once VDD is applied by pulling the control electrode to ground using a VDD controlled switch.

Abstract: A method of reading an NVM cell structure formed on a deep well of N-type semiconductor material, wherein the NVM cell structure includes a PMOS transistor formed in an N-type well, the PMOS transistor including spaced-apart p-type source and drain region defining an n-type cannel region therebetween, an NMOS transistor formed in a P-type well that is adjacent to the N-type well, the NMOS transistor including spaced-apart n-type source and drain regions defining a p-type channel region therebetween, a conductive floating gate that includes a first section that extends over the n-type channel region of the PMOS transistor and is separated therefrom by intervening dielectric material and a second section that extends over the p-type channel region and is separated therefrom by intervening dielectric material, and a conductive control gate formed over at least a portion of the second section of the floating gate and is separated therefrom by intervening dielectric material, the method comprising: biasing the dee

Abstract: A method of erasing an NVM cell structure formed on a deep well of N-type semiconductor material, wherein the NVM cell structure includes a PMOS transistor formed in an N-type well, the PMOS transistor including spaced-apart p-type source and drain regions defining an n-type channel region therebetween, an NMOS transistor formed in a P-type well that is adjacent to the N-type well, the NMOS transistor including spaced-apart n-type source and rain regions defining a p-type channel region therebetween, a conductive floating gate that includes a first section that extends over the n-type channel region of the PMOS transistor and is separated therefrom by intervening dielectric material and a second section that extends over the p-type channel region and is separated therefrom by intervening dielectric material, and a conductive control gate formed over at least a portion of the second section of the floating gate and separated therefrom by intervening dielectric material, the erasing method comprising: biasing t

Abstract: A method of operating a non-volatile memory (NVM) cell structure that utilizes gated diode is provided. The cell architecture, utilizing about 4-10 um2 per bit, includes gated diodes that are used to program the cells while consuming low programming current. The cell architecture also allows a large number of cells to be programmed at the same time, thereby reducing the effective programming time per bit. Erase and read mode bias conditions are also provided.

Abstract: A battery includes multiple conductive plates and a permeable electrolytic material and an ion membrane located between the conductive plates. The battery also includes at least one wire located within one or more of the permeable electrolytic material and the ion membrane. The at least one wire can be configured to regulate a flow of ions through the ion membrane based on an electrical signal flowing through the at least one wire. The at least one wire could also be configured to generate a magnetic field within the permeable electrolytic material based on another electrical signal flowing through the at least one wire. The battery could further include a temperature sensor wire within the permeable electrolytic material.

Abstract: A MEMS magnetic flux switch is fabricated as a ferromagnetic core. The core includes a center cantilever that is fabricated as a free beam that can oscillate at a resonant frequency that is determined by its mechanical and material properties. The center cantilever is moved by impulses applied by an associated motion oscillator, which can be magnetic or electric actuators.

Abstract: A MEMS magnetic flux switch is fabricated as a ferromagnetic core. The core includes a center cantilever that is fabricated as a free beam that can oscillate at a resonant frequency that is determined by its mechanical and material properties. The center cantilever is moved by impulses applied by an associated motion oscillator, which can be magnetic or electric actuators.

Abstract: An apparatus and method for wafer level fabrication of high value inductors directly on top of semiconductor integrated circuits. The apparatus and method includes fabricating a semiconductor wafer including a plurality of dice, each of the dice including power circuitry and a switching node. Once the wafer is fabricated, then a plurality of inductors are fabricated directly onto the plurality of dice on the wafer respectively. Each inductor is fabricated by forming a plurality of magnetic core inductor members on an interconnect dielectric layer formed on the wafer. An insulating layer, and then inductor coils, are then formed over the plurality of magnetic core inductor members over each die. A plated magnetic layer is formed over the plurality of inductors respectively to raise the permeability and inductance of the structure.

Abstract: In an ESD device for fast switching applications based on a BSCR or NLDMOS-SCR, an anode junction control electrode is provided by not connecting the anode electrode to the collector of the BSCR or to the drain of the NLDMOS-SCR, and a cathode junction control electrode is provided by forming an additional n+ region in the BSCR or an additional p+ region in the p-well of the NLDMOS-SCR. The triggering voltage of the ESD device is adjusted after a time delay by controlling one or both of the control electrodes using an RC-timer-driver circuit.

Abstract: In a method and structure for current balancing the emitter current in a multi-finger n-emitter of a BJT or BSCR, back-end or polysilicon resistors are applied between the emitter fingers and the power rail, with the resistors chosen to be larger the closer the emitter fingers are to the collector.

Abstract: In an on chip battery and method of making an on-chip battery, the electrodes are formed from metal layers deposited as part of the chip fabrication process. An electrolyte is preferably introduced between the electrodes at time of packaging of the chip.

Abstract: In a SiGe BJT process, a diode is formed by defining a p-n junction between the BJT collector and BJT internal base, blocking the external gate regions of the BJT and doping the emitter poly of the BJT with the same dopant type as the internal base thereby using the emitter contact to define the contact to the internal base. Electrical contact to the collector is established through a sub-collector or by means of a second emitter poly and internal base both doped with the same dopant type as the collector.

Abstract: In an on-chip transformer, external electromagnetic field influences are reduced by providing an isolation transformer having primary and secondary windings with a figure 8 configuration so that current induced by an external magnetic field is nulled.

Abstract: A battery includes multiple conductive battery plates and a complex electrolytic material located between the conductive battery plates. The battery also includes a conductive sensor wire located within the complex electrolytic material. The conductive sensor wire may be configured to generate a magnetic field within the complex electrolytic material based on an electrical signal flowing through the conductive sensor wire. The battery may further include a temperature sensor wire within the complex electrolytic material.

Abstract: Detection and control circuitry are added to a conventional power supply to detect when a load, such as a portable electronic device, has been disconnected from the power supply and, when disconnected, interrupt a current path to the primary windings of a transformer within the power supply to substantially reduce the amount of reactive power that is consumed by the power supply.