Patents by Inventor Thomas M. Luich
Thomas M. Luich has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8350634Abstract: This disclosure relates to a programmable wideband, LC Tuned, Voltage Controlled Oscillator with continuous center frequency select, and independent configuration of amplitude and tuning gain. The programmability can be via on chip non-volatile memory, or through data shifted into the part and stored via a data bus.Type: GrantFiled: September 6, 2006Date of Patent: January 8, 2013Assignee: Glacier MicroelectronicsInventor: Thomas M. Luich
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Patent number: 7982500Abstract: An integrated circuit output driver is provided that exhibits improved performance and signal integrity. In one embodiment, circuitry for producing an oscillatory output signal having a peak voltage of V volts uses MOS transistor circuitry transistors of which are designed for a maximum port-to-port voltage of substantially less than V volts. A first inverter chain is coupled to an input signal to produce a predriver output signal. A second inverter chain of multiple of inverters including a first inverter produces a driver output signal. Circuitry is provided for AC-coupling the predriver output signal to the second inverter chain, it being configured to translate the predriver output signal to a higher voltage range to produce a translated predriver output signal.Type: GrantFiled: April 5, 2010Date of Patent: July 19, 2011Assignee: Glacier MicroelectronicsInventor: Thomas M Luich
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Publication number: 20100253389Abstract: An integrated circuit output driver is provided that exhibits improved performance and signal integrity. In one embodiment, circuitry for producing an oscillatory output signal having a peak voltage of V volts uses MOS transistor circuitry transistors of which are designed for a maximum port-to-port voltage of substantially less than V volts. A first inverter chain is coupled to an input signal to produce a predriver output signal. A second inverter chain of multiple of inverters including a first inverter produces a driver output signal. Circuitry is provided for AC-coupling the predriver output signal to the second inverter chain, it being configured to translate the predriver output signal to a higher voltage range to produce a translated predriver output signal.Type: ApplicationFiled: April 5, 2010Publication date: October 7, 2010Inventor: Thomas M. Luich
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Patent number: 7768309Abstract: An integrated circuit output driver is provided that exhibits improved performance and signal integrity. In one embodiment, the integrated circuit output driver is fabricated in a process having thin-gate MOS transistors and thick-gate MOS transistors and includes a predriver circuit, a level shifter circuit, and a driver circuit. The predriver circuit is formed predominantly of thin-gate transistors, and the driver circuit is formed predominantly of thick-gate transistors. In other embodiments, a low-pass power supply filter is provided. In still other embodiments, a voltage regulator circuit is provided, wherein an operating potential of at least one of the predriver circuit and the level shifter circuit is less than the specified supply voltage. In one embodiment, the voltage regulator circuit produces: i) a reduced internal supply voltage that is applied to the predriver circuit; and ii) an elevated ground voltage that is applied to the level shifter circuit.Type: GrantFiled: December 3, 2007Date of Patent: August 3, 2010Inventor: Thomas M. Luich
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Publication number: 20090273375Abstract: An LVDS output is described herein that has wideband operation down to 2.5V without degrading spur performance or dramatically increasing die are. A current mirror used in a conventional LVDS output is eliminated in such as way as to reduce noise coupling and produce especially clean output signals.Type: ApplicationFiled: May 5, 2008Publication date: November 5, 2009Inventor: Thomas M. Luich
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Publication number: 20090213678Abstract: The present invention, generally speaking, provides for a non volatile memory cell requiring no extra process steps. In one embodiment, the non volatile memory cell is a lateral polysilicon programmable read only memory cell, in particular a lateral poly fuse memory cell. Technique are provided to achieve a high yielding, voltage, temperature, and process insensitive lateral poly fuse memory. In one embodiment, a fusible link memory circuit includes a fusible link memory element and a programming circuit. The programming circuit includes a replica of the fusible link memory element and a programming current source for producing a known current density in the fusible link memory element in spite of variations including at least process variations.Type: ApplicationFiled: May 3, 2009Publication date: August 27, 2009Inventors: Thomas M. Luich, David A. Byrd
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Patent number: 7545665Abstract: The present invention, generally speaking, provides for a non volatile memory cell requiring no extra process steps. In one embodiment, the non volatile memory cell is a lateral polysilicon programmable read only memory cell, in particular a lateral poly fuse memory cell. Technique are provided to achieve a high yielding, voltage, temperature, and process insensitive lateral poly fuse memory. In one embodiment, a fusible link memory circuit includes a fusible link memory element and a programming circuit. The programming circuit includes a replica of the fusible link memory element and a programming current source for producing a known current density in the fusible link memory element in spite of variations including at least process variations.Type: GrantFiled: September 6, 2006Date of Patent: June 9, 2009Assignee: Glacier Microelectronics, Inc.Inventors: Thomas M. Luich, David A. Byrd
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Publication number: 20090140768Abstract: An integrated circuit output driver is provided that exhibits improved performance and signal integrity. In one embodiment, the integrated circuit output driver is fabricated in a process having thin-gate MOS transistors and thick-gate MOS transistors and includes a predriver circuit, a level shifter circuit, and a driver circuit. The predriver circuit is formed predominantly of thin-gate transistors, and the driver circuit is formed predominantly of thick-gate transistors. In other embodiments, a low-pass power supply filter is provided. In still other embodiments, a voltage regulator circuit is provided, wherein an operating potential of at least one of the predriver circuit and the level shifter circuit is less than the specified supply voltage. In one embodiment, the voltage regulator circuit produces: i) a reduced internal supply voltage that is applied to the predriver circuit; and ii) an elevated ground voltage that is applied to the level shifter circuit.Type: ApplicationFiled: December 3, 2007Publication date: June 4, 2009Inventor: Thomas M Luich
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Publication number: 20080068107Abstract: A Programmable Crystal Oscillator/Programmable Voltage Controlled Crystal Oscillator (PXO/PVCXO) is formed on a single die that will accept multiple crystals and maintain optimum performance. A programmable transconductance amplifier allows configuration of the transconductance by configuration information stored in non-volatile memory, to match the requirements of the crystal series resistance, frequency, and load of the tank. Programmable varactors are provided in such a manner as to achieve pulling range independent of frequency select address, allowing VCXO operation. Steps are taken to effectively remove the parasitic capacitance of the long metal line leading to a phase detector, by tuning its parasitic capacitance with the tank of the crystal oscillator, and placing a low gain buffer at the phase detector.Type: ApplicationFiled: September 6, 2006Publication date: March 20, 2008Inventor: Thomas M. Luich
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Publication number: 20080068092Abstract: This disclosure relates to a programmable wideband, LC Tuned, Voltage Controlled Oscillator with continuous center frequency select, and independent configuration of amplitude and tuning gain. The programmability can be via on chip non-volatile memory, or through data shifted into the part and stored via a data bus.Type: ApplicationFiled: September 6, 2006Publication date: March 20, 2008Inventor: Thomas M. Luich
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Publication number: 20080055959Abstract: The present invention, generally speaking, provides for a non volatile memory cell requiring no extra process steps. In one embodiment, the non volatile memory cell is a lateral polysilicon programmable read only memory cell, in particular a lateral poly fuse memory cell. Technique are provided to achieve a high yielding, voltage, temperature, and process insensitive lateral poly fuse memory. In one embodiment, a fusible link memory circuit includes a fusible link memory element and a programming circuit. The programming circuit includes a replica of the fusible link memory element and a programming current source for producing a known current density in the fusible link memory element in spite of variations including at least process variations.Type: ApplicationFiled: September 6, 2006Publication date: March 6, 2008Inventors: Thomas M. Luich, David A. Byrd
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Patent number: 6528842Abstract: An Electrically Erasable Programmable Read Only Memory (EEPROM) cell uses a single standard NMOS (or PMOS) transistor with its gate connected to a Metal-Insulator-Metal, or Poly-Insulator-Poly capacitor such that a floating gate is formed. The floating gate is programmed and erased via Fowler-Nordheim tunneling.Type: GrantFiled: December 31, 2001Date of Patent: March 4, 2003Assignee: Jet City Electronics, Inc.Inventors: Thomas M. Luich, David Byrd
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Patent number: 5473283Abstract: A low leakage, metal oxide semiconductor field effect transistor (MOSFET) charge pump circuit includes P- and N-MOSFET current mirrors, P- and N-MOSFET current switches and an output node. The P-MOSFET current mirror sources an output current which is switched by the P-MOSFET current switch in accordance with a pump-up control signal to provide a pump-up current. The width of the channel of the P-MOSFET current switch is substantially less than the sum of the widths of the channels of the P-MOSFETs of the P-MOSFET current mirror. The N-MOSFET current switch, in accordance with a pump-down control signal, switches a pump-down current which is sunk by the N-MOSFET current mirror. The width of the channel of the N-MOSFET current switch is substantially less than the sum of the widths of the channels of the N-MOSFETs of the N-MOSFET current mirror.Type: GrantFiled: November 7, 1994Date of Patent: December 5, 1995Assignee: National Semiconductor CorporationInventor: Thomas M. Luich
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Patent number: 5089721Abstract: An output buffer circuit advantageously uses a simple integrated circuit package including two separate ground leads for connection to an externally supplied ground voltage. The relatively large pull down current which passes through the pull down transistor of one or more output buffers are fed through a first ground lead of the lead frame to the external ground and the remaining circuitry is connected to the external ground through the second ground lead of the lead frame. The transients in the pull down current will cause ground bounce which affects the pull down transistor only, and not the remaining components of the output buffer. In this manner, base drive to the output pull down transistor is not decreased due to ground bounce, and the high to low transition of the output voltage is not degraded by the presence of ground bounce. In an alternative embodiment, the amount of ground bounce is controlled to provide a desired characteristic of the output transition.Type: GrantFiled: April 20, 1990Date of Patent: February 18, 1992Assignee: National Semiconductor Corp.Inventor: Thomas M. Luich
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Patent number: 5081375Abstract: A PLA is formed using configurable logic elements. A plurality of pages are used to store information defining logic configuration patterns required to perform desired logical functions. The configurable logic elements are configured by downloading information from a desired one or more of said pages. If desired, page control is achieved in response to input signals to the configurable logic array.Type: GrantFiled: January 2, 1991Date of Patent: January 14, 1992Assignee: National Semiconductor Corp.Inventors: Scott K. Pickett, Thomas M. Luich, Arthur L. Swift, IV
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Patent number: 5039892Abstract: In accordance with teachings of this invention a novel sense amplifier is provided. The sense amplifier includes an enable circuit which receives an enable input signal. This enable circuit includes a constant current source which consumes a small amount of power. The enable circuit provides an output signal which serves to disable the output pull up and pull down transistors of the sense amplifier, thereby providing a high impedance output signal. At the same time, the disabling output signal from the enable circuitry powders down the read circuitry, thereby minimizing power consumption.Type: GrantFiled: June 7, 1990Date of Patent: August 13, 1991Assignee: National Semiconductor CorporationInventor: Thomas M. Luich
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Patent number: 5021689Abstract: A PLA is formed using configurable logic elements. A plurality of pages are used to store information defining logic configuration patterns required to perform desired logical functions. The configurable logic elements are configured by downloading information from a desired one or more of said pages. If desired, page control is achieved in response to input signals to the configurable logic array.Type: GrantFiled: January 16, 1990Date of Patent: June 4, 1991Assignee: National Semiconductor Corp.Inventors: Scott K. Pickett, Thomas M. Luich, Arthur L. Swift, IV
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Patent number: 4980582Abstract: An ECL input buffer is particularly well-suited for use with logic arrays where a large amount of current must be sunk by the row line, for example, when vertical fuse devices are used in an AND array. The input buffer provides means for pulling down the row line such that the entire amount of current sunk by the input buffer from the row line need not pass through a current source, thereby minimizing current consumption of the input buffer. A pull down current source is used which causes a pull down transistor to turn on, thereby pulling down the row line while requiring only the base current of the pull down transistor to be consumed by the current source. A pull up device is utilized and means are included for insuring that the pull up and pull down devices are not both turned on simultaneously, thereby preventing a current spike through the pull up and pull down means.Type: GrantFiled: February 3, 1989Date of Patent: December 25, 1990Assignee: National Semiconductor CorporationInventors: William K. Waller, Thomas M. Luich
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Patent number: 4973862Abstract: A novel sense amplifier is taught which minimizes power consumption by causing selected current sources to conduct current only when an input signal of a selected state is present. The speed of the circuit is fast because capacitance on the critical nodes is minimized by connection of fewer transistors to the critical nodes, as compared with the prior art.Type: GrantFiled: March 7, 1989Date of Patent: November 27, 1990Assignee: National Semiconductor CorporationInventors: Thomas M. Luich, Huard, Jeffry M.
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Patent number: 4969124Abstract: A method and structure is provided to test for leakage currents in a fuse array. A diode is connected to each column in the array in order to isolate the column from the test circuitry during normal operation of the device. During testing, current is fed through a diode to a column, and the corresponding leakage current is measured. In one embodiment, the anodes of each diode are connected in common to a single test point, and the total leakage current from the entire fuse array is measured simultaneously. In another embodiment, addressing means are used to selectively address a desired one of the test diodes and thus a corresponding one of the columns such that leakage current through a single column.Type: GrantFiled: March 7, 1989Date of Patent: November 6, 1990Assignee: National Semiconductor CorporationInventors: Thomas M. Luich, Michael S. Millhollan