Patent application number | Description | Published |
20090174487 | VOLTAGE-CONTROL OSCILLATOR CIRCUITS WITH COMBINED MOS AND BIPOLAR DEVICE - A voltage controlled oscillator includes: a first merged device having a first bipolar transistor and a first MOS transistor, the first bipolar transistor having a collector sharing a common active area with a source/drain of the first MOS transistor, and an emitter sharing the common active area with another source/drain of the first MOS transistor, a second merged device having a second bipolar transistor and a second MOS transistor, the second bipolar transistor having a collector sharing a common active area with a source/drain of the second MOS transistor, and an emitter sharing the common active area with another source/drain of the second MOS transistor, and a first inductor connected to both the collector of the first bipolar transistor and a base of the second bipolar transistor. | 07-09-2009 |
20090296448 | DIODE AS VOLTAGE DOWN CONVERTER FOR OTP HIGH PROGRAMMING VOLTAGE APPLICATIONS - A voltage down converter for programming a one-time-programmable (OTP) memory comprising is disclosed, the voltage down converter comprises a bonding pad for coupling to a programming power supply, and at least one forward biased diode coupled between the bonding pad and the OTP memory, wherein a programming voltage received by the OTP memory is lowered from the programming power supply by the voltage drop across the forward biased diode. | 12-03-2009 |
20100187637 | BIPOLAR DEVICE COMPATIBLE WITH CMOS PROCESS TECHNOLOGY - The present invention discloses a bipolar device. An emitter is formed in a semiconductor substrate. A collector is laterally spaced from the emitter in the substrate. A gate terminal is formed on the substrate, defining a space between the emitter and the collector. An extrinsic base is formed on the substrate with a predetermined distance from either the emitter or the collector, wherein the base, the emitter, the collector and the gate terminal are located in an active area defined by a hole in a surrounding isolation structure in the substrate. | 07-29-2010 |
20100187656 | Bipolar Junction Transistors and Methods of Fabrication Thereof - Design and methods for fabricating bipolar junction transistors are described. In one embodiment, a semiconductor device includes a first fin comprising a first emitter region, a first base region, and a first collector region. The first emitter region, the first base region, and the first collector region form a bipolar junction transistor. A second fin is disposed adjacent and parallel to the first fin. The second fin includes a first contact to the first base region. | 07-29-2010 |
20100214825 | Programming MRAM Cells Using Probability Write - A method of writing a magneto-resistive random access memory (MRAM) cell includes providing a writing pulse to write a value to the MRAM cell; and verifying a status of the MRAM cell immediately after the step of providing the first writing pulse. In the event of a write failure, the value is rewritten into the MRAM cell. | 08-26-2010 |
20100232203 | ELECTRICAL ANTI-FUSE AND RELATED APPLICATIONS - A first terminal and a second terminal of a FinFET transistor are used as two terminals of an anti-fuse. To program the anti-fuse, a gate of the FinFET transistor is controlled, and a voltage having a predetermined amplitude and a predetermined duration is applied to the first terminal to cause the first terminal to be electrically shorted to the second terminal. | 09-16-2010 |
20100244144 | ELECTRICAL FUSE AND RELATED APPLICATIONS - In various embodiments, the fuse is formed from silicide and on top of a fin of a fin structure. Because the fuse is formed on top of a fin, its width takes the width of the fin, which is very thin. Depending on implementations, the fuse is also formed using planar technology and includes a thin width. Because the width of the fuse is relatively thin, a predetermined current can reliably cause the fuse to be opened. Further, the fuse can be used with a transistor to form a memory cell used in memory arrays, and the transistor utilizes FinFET technology. | 09-30-2010 |
20100254181 | Raising Programming Currents of Magnetic Tunnel Junctions Using Word Line Overdrive and High-k Metal Gate - A method of operating magneto-resistive random access memory (MRAM) cells includes providing an MRAM cell, which includes a magnetic tunneling junction (MTJ) device; and a selector comprising a source-drain path serially coupled to the MTJ device. The method further includes applying an overdrive voltage to a gate of the selector to turn on the selector. | 10-07-2010 |
20100265759 | Raising Programming Current of Magnetic Tunnel Junctions by Applying P-Sub Bias and Adjusting Threshold Voltage - A method of operating magneto-resistive random access memory (MRAM) cells includes providing an MRAM cell, which includes a magnetic tunneling junction (MTJ) device and a word line selector having a source-drain path serially coupled to the MTJ device. A negative substrate bias voltage is connected to a body of the word line selector to increase the drive current of the word line selector. The threshold voltage of the word line selector is also reduced. | 10-21-2010 |
20100301453 | High-Voltage BJT Formed Using CMOS HV Processes - An integrated circuit device includes a semiconductor substrate having a top surface; at least one insulation region extending from the top surface into the semiconductor substrate; a plurality of base contacts of a first conductivity type electrically interconnected to each other; and a plurality of emitters and a plurality of collectors of a second conductivity type opposite the first conductivity type. Each of the plurality of emitters, the plurality of collectors, and the plurality of base contacts is laterally spaced apart from each other by the at least one insulation region. The integrated circuit device further includes a buried layer of the second conductivity type in the semiconductor substrate, wherein the buried layer has an upper surface adjoining bottom surfaces of the plurality of collectors. | 12-02-2010 |
20100315271 | INTEGRATED CIRCUITS FOR CONVERTING ANALOG SIGNALS TO DIGITAL SIGNALS, SYSTEMS, AND OPERATING METHODS THEREOF - An integrated circuit that is capable of converting an analog signal to at least one digital signal is provided. The integrated circuit includes a first input end capable of receiving a first analog signal. A first set of 2 | 12-16-2010 |
20100320572 | Thin-Body Bipolar Device - A thin-body bipolar device includes: a semiconductor substrate, a semiconductor fin constructed over the semiconductor substrate, a first region of the semiconductor fin having a first conductivity type, the first region serving as a base of the thin-body bipolar device, and a second and third region of the semiconductor fin having a second conductivity type opposite to the first conductivity type, the second and third region being both juxtaposed with and separated by the first region, the second and third region serving as an emitter and collector of the thin-body bipolar device, respectively. | 12-23-2010 |
20100327148 | CMOS Image Sensors Formed of Logic Bipolar Transistors - An integrated circuit structure includes an image sensor cell, which further includes a photo transistor configured to sense light and to generate a current from the light. | 12-30-2010 |
20110169581 | RING-SHAPED VOLTAGE CONTROL OSCILLATOR - In one embodiment, a circuit topology for use in an n-phase voltage controlled oscillator (VCO) or injection-locked frequency divider includes a transmission line ring having n transmission line delay segments connected at n junctions, where n is an integer greater than or equal to 3. Each transmission line segment provides a 1/n wavelength signal delay between adjacent junctions. The transmission line ring is coupled to a first power supply node. Each of the junctions has a respective transistor coupled thereto, each transistor having a first source/drain terminal coupled to its respective junction, a second source/drain terminal coupled to a second power supply node, and a gate terminal, wherein the gate terminal is coupled to a signal that is ½ wavelength out-of-phase with respect to a signal at the first source/drain terminal of the transistor. | 07-14-2011 |
20120007191 | BIPOLAR DEVICE COMPATIBLE WITH CMOS PROCESS TECHNOLOGY - The present invention discloses a bipolar device. An emitter is formed in a semiconductor substrate. A collector is laterally spaced from the emitter in the substrate. A gate terminal is formed on the substrate, defining a space between the emitter and the collector. An extrinsic base is formed on the substrate with a predetermined distance from either the emitter or the collector, wherein the base, the emitter, the collector and the gate terminal are located in an active area defined by a hole in a surrounding isolation structure in the substrate. | 01-12-2012 |
20120127788 | MRAM Cells and Circuit for Programming the Same - A circuit includes magneto-resistive random access memory (MRAM) cell and a control circuit. The control circuit is electrically coupled to the MRAM cell, and includes a current source configured to provide a first writing pulse to write a value into the MRAM cell, and a read circuit configured to measure a status of the MRAM cell. The control circuit is further configured to verify whether a successful writing is achieved through the first writing pulse. | 05-24-2012 |
20120264269 | Bipolar Junction Transistors and Methods of Fabrication Thereof - A method of forming a semiconductor device is provided. The method includes forming a first fin above a substrate, forming a first emitter region in a first portion of the first fin, forming a first collector region in a second portion of the first fin, and forming a first base region in a third portion of the first fin. The third portion of the first fin is disposed underneath a first gate electrode. The method further includes forming a second fin adjacent to the first fin and above the substrate. The second fin is composed of a semiconductor material. The method also includes forming a first base contact over the second fin. The first base contact is coupled to the first base region through the second fin, the substrate, and the first fin. | 10-18-2012 |
20120281464 | Raising Programming Currents of Magnetic Tunnel Junctions Using Word Line Overdrive and High-k Metal Gate - A method of operating magneto-resistive random access memory (MRAM) cells includes providing an MRAM cell, which includes a magnetic tunneling junction (MTJ) device; and a selector comprising a source-drain path serially coupled to the MTJ device. The method further includes applying an overdrive voltage to a gate of the selector to turn on the selector. | 11-08-2012 |