Patent application number | Description | Published |
20080217664 | Gate self aligned low noise JFET - The disclosure herein pertains to fashioning a low noise junction field effect transistor (JFET) where transistor gate materials are utilized in forming and electrically isolating active areas of a the JFET. More particularly, active regions are self aligned with patterned gate electrode material and sidewall spacers which facilitate desirably locating the active regions in a semiconductor substrate. This mitigates the need for additional materials in the substrate to isolate the active regions from one another, where such additional materials can introduce noise into the JFET. This also allows a layer of gate dielectric material to remain over the surface of the substrate, where the layer of gate dielectric material provides a substantially uniform interface at the surface of the substrate that facilitates uninhibited current flow between the active regions, and thus promotes desired device operation. | 09-11-2008 |
20080225593 | Single poly EEPROM without separate control gate nor erase regions - A single-poly EEPROM memory device comprises source and drain regions in a semiconductor body, a floating gate overlying a portion of the source and drain regions, which defines a source-to-floating gate capacitance and a drain-to-floating gate capacitance, wherein the source-to-floating gate capacitance is substantially greater than the drain-to-floating gate capacitance. The source-to-floating gate capacitance is, for example, at least about three times greater than the drain-to-floating gate capacitance to enable the memory device to be electrically programmed or erased by applying a potential between a source electrode and a drain electrode without using a control gate. A current path between the source and drain electrodes generally defines current carrying portions of the source and drain regions, and a non-current carrying portion of the source region residing outside the current carrying portion, wherein substantially more of the floating gate overlies the non-current carrying portion than the current carrying portions. | 09-18-2008 |
20080277731 | BODY BIAS TO FACILITATE TRANSISTOR MATCHING - One embodiment of the present invention relates to a method for transistor matching. In this method, a channel is formed within a first transistor by applying a gate-source bias having a first polarity to the first transistor. The magnitude of a potential barrier in a pocket implant region of the first transistor is reduced by applying a body-source bias having the first polarity to the first transistor. Current flow is facilitated across the channel by applying a drain-source bias having the first polarity to the first transistor. Other methods and circuits are also disclosed. | 11-13-2008 |
20080283966 | High Density Capacitor Using Topographic Surface - Capacitor area is increased in the vertical direction by forming capacitors on topographic features on the chip. The features are formed during existing process steps. Adding vertical topography increases capacitance per unit area, reducing die size at no added development cost or mask steps. | 11-20-2008 |
20090153174 | SIMPLE AND EFFECTIVE METHOD TO DETECT POLY RESIDUES IN LOCOS PROCESS - A test structure which can be used to detect residual conductive material such as polysilicon which can result from an under etch comprises a PMOS transistor and an OTP EPROM floating gate device. By testing the devices using different testing parameters, it can be determined whether residual conductive material remains subsequent to an etch, and where the residual conductive material is located on the device. A method for testing a semiconductor device using the test structure is also described. | 06-18-2009 |
20100164004 | METHODS FOR REDUCING GATE DIELECTRIC THINNING ON TRENCH ISOLATION EDGES AND INTEGRATED CIRCUITS THEREFROM - A method of fabricating an integrated circuit (IC) including a plurality of MOS transistors and ICs therefrom include providing a substrate having a silicon including surface, and forming a plurality of dielectric filled trench isolation regions in the substrate, wherein the silicon including surface forms trench isolation active area edges along its periphery with the trench isolation regions. A first silicon including layer is deposited, wherein the first silicon including extends from a surface of the trench isolation regions over the trench isolation active area edges to the silicon including surface. The first silicon including layer is completely oxidized to convert the first silicon layer to a silicon oxide layer, wherein the silicon oxide layer provides at least a portion of a gate dielectric for at least one of the plurality of MOS transistors. A patterned gate electrode layer is formed over the gate dielectric, wherein the patterned gate electrode layer extends over at least one of the trench isolation active area edges to the silicon including surface, and fabrication is then completed. | 07-01-2010 |
20100231299 | AUTOMATIC GAIN CONTROL - A method and system for providing automatic gain control for a differential amplifier are provided. An impedance network is set to have a first impedance that corresponds to a first gain for a differential amplifier, which amplifies an input signal by the first gain. Once the amplified input signal is greater than a first threshold voltage, the impedance network is set to have a second impedance that corresponds to a second gain for the differential amplifier, which amplifies the input signal. Once amplified input signal is greater than a second threshold voltage and a predetermined period has lapsed, the impedance network is reset to have the first impedance that corresponds to a first gain for the differential amplifier. | 09-16-2010 |
20100264466 | GATE SELF-ALIGNED LOW NOISE JFET - The disclosure herein pertains to fashioning a low noise junction field effect transistor (JFET) where transistor gate materials are utilized in forming and electrically isolating active areas of a the JFET. More particularly, active regions are self aligned with patterned gate electrode material and sidewall spacers which facilitate desirably locating the active regions in a semiconductor substrate. This mitigates the need for additional materials in the substrate to isolate the active regions from one another, where such additional materials can introduce noise into the JFET. This also allows a layer of gate dielectric material to remain over the surface of the substrate, where the layer of gate dielectric material provides a substantially uniform interface at the surface of the substrate that facilitates uninhibited current flow between the active regions, and thus promotes desired device operation. | 10-21-2010 |
20100302854 | Area-Efficient Electrically Erasable Programmable Memory Cell - Electrically erasable programmable “read-only” memory (EEPROM) cells in an integrated circuit, and formed by a single polysilicon level. The EEPROM cell consists of a coupling capacitor and a combined read transistor and tunneling capacitor. The capacitance of the coupling capacitor is much larger than that of the tunneling capacitor. In one embodiment, field oxide isolation structures isolate the devices from one another; a lightly-doped region at the source of the read transistor improves breakdown voltage performance. In another embodiment, trench isolation structures and a buried oxide layer surround the well regions at which the coupling capacitor and combined read transistor and tunneling capacitor are formed. | 12-02-2010 |
20110110160 | AREA-EFFICIENT ELECTRICALLY ERASABLE PROGRAMMABLE MEMORY CELL - Electrically erasable programmable “read-only” memory (EEPROM) cells in an integrated circuit, and formed by a single polysilicon level. The EEPROM cell consists of a coupling capacitor and a combined read transistor and tunneling capacitor. The capacitance of the coupling capacitor is much larger than that of the tunneling capacitor. In one embodiment, field oxide isolation structures isolate the devices from one another; a lightly-doped region at the source of the read transistor improves breakdown voltage performance. In another embodiment, trench isolation structures and a buried oxide layer surround the well regions at which the coupling capacitor and combined read transistor and tunneling capacitor are formed. | 05-12-2011 |
20120074479 | AREA-EFFICIENT ELECTRICALLY ERASABLE PROGRAMMABLE MEMORY CELL - Electrically erasable programmable “read-only” memory (EEPROM) cells in an integrated circuit, and formed by a single polysilicon level. The EEPROM cell consists of a coupling capacitor and a combined read transistor and tunneling capacitor. The capacitance of the coupling capacitor is much larger than that of the tunneling capacitor. In one embodiment, field oxide isolation structures isolate the devices from one another; a lightly-doped region at the source of the read transistor improves breakdown voltage performance. In another embodiment, trench isolation structures and a buried oxide layer surround the well regions at which the coupling capacitor and combined read transistor and tunneling capacitor are formed. | 03-29-2012 |
20140124828 | ESD PROTECTION CIRCUIT WITH ISOLATED SCR FOR NEGATIVE VOLTAGE OPERATION - A semiconductor controlled rectifier (FIG. | 05-08-2014 |