Patents by Inventor Petteri Matti Litmanen

Petteri Matti Litmanen 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).

  • Patent number: 10511467
    Abstract: An oscillator architecture with pulse-edge tuning to control the pulse rising and falling edges (such as for duty cycle correction), including a signal generator with a pull-up PMOS transistor coupled to a high rail, and a pull-down NMOS transistor coupled to a low rail. Pulse-edge tuning circuitry includes a high-side tuning PMOS transistor between the high rail and a source terminal of the pull-up PMOS transistor, and a low-side tuning NMOS transistor between the low rail and a source terminal of the pull-down NMOS transistor. Both tuning FETs are controlled for operation as a variable resistor by respective high-side and low-side DACs to provide tuning control signals to the tuning FETs. In an example application, the oscillator design is adapted for a direct conversion RF signal chain (TX and/or RX) including an I-Path and a Q-Path: the signal generator generates ±I and ±Q differential signal frequencies.
    Type: Grant
    Filed: January 17, 2017
    Date of Patent: December 17, 2019
    Assignee: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Petteri Matti Litmanen, Nikolaus Klemmer
  • Patent number: 9900022
    Abstract: DAC design uses a passive reconstruction filter. The reconstruction filter includes a notch filter and series peaking filter. The notch filter provides notch filtering at the DAC clock frequency. The peaking filter increases signal bandwidth while attenuating frequency content at harmonics of the DAC clock frequency. The notch filter can be an LC notch filter with a notch inductor Ln and a notch capacitor Cn. The peaking filter can be a series peaking inductor Ls (shunted with a filter capacitor Cp). In a differential configuration, the passive reconstruction filter can be ±LC notch filters (with ±Ln notch inductors), and the peaking filter can be ±Ls peaking inductors coupled in series to the ±LC notch filters. The ±Ln notch inductors, ±Ls peaking inductors can be mutually wound as single inductors. For an example direct conversion RF transmit chain, IQ± signal paths are implemented with differential DAC designs including passive reconstruction filters.
    Type: Grant
    Filed: January 17, 2017
    Date of Patent: February 20, 2018
    Assignee: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Diptendu Ghosh, Petteri Matti Litmanen, Siraj Akhtar
  • Publication number: 20170207774
    Abstract: A latch circuit includes first and second inverters, each with latching (inner) and clocking (outer) PMOS/NMOS transistor pairs in a series/stack configuration. A first inverter includes a D_latching PMOS/NMOS transistor pair, drain-connected at a D node. A first /clock PMOS transistor is coupled between a high rail and a source terminal of the D_latching PMOS transistor, and a first clock NMOS transistor is coupled between a low rail and the source terminal of the D_latching NMOS transistor. A second inverter includes a Dbar_latching PMOS/NMOS transistor pair, drain-connected at a Dbar node. A second /clock PMOS transistor is coupled between the high rail and the source terminal of the Dbar_latching PMOS transistor, and a second clock NMOS transistor is coupled between the low rail and the Dbar_latching NMOS transistor. A cross-coupling switch circuit connected between the D node and the Dbar node.
    Type: Application
    Filed: January 17, 2017
    Publication date: July 20, 2017
    Inventors: Diptendu Ghosh, Petteri Matti Litmanen, Siraj Akhtar
  • Publication number: 20170207747
    Abstract: An oscillator architecture with pulse-edge tuning. The oscillator includes a signal generator generating at least two signal frequencies, and a logic circuit (such as an AND gate) that combines the signal frequencies to generate a corresponding oscillator signal. The logic circuit includes a pull-up PMOS transistor coupled to a high rail, and a pull-down NMOS transistor coupled to a low rail. Duty cycle tuning/correction circuitry includes high and low side tuning FETs: a high-side tuning PMOS transistor is coupled between the high rail and a source terminal of the pull-up PMOS transistor, and a low-side tuning NMOS transistor is coupled between the low rail and a source terminal of the pull-down NMOS transistor. Both tuning FETs are controlled for operation as a variable resistor by respective high-side and low-side DACs (digital to analog converters) configure to provide a tuning control signals to the tuning FETs (variable resistance) based on respective input digital tuning/correction signals.
    Type: Application
    Filed: January 17, 2017
    Publication date: July 20, 2017
    Inventors: Petteri Matti Litmanen, Nikolaus Klemmer
  • Publication number: 20170207795
    Abstract: A DAC design uses a passive reconstruction filter. The reconstruction filter includes a notch filter and series peaking filter (low pass filter with peaking in the signal passband). The notch filter provides notch filtering at the DAC clock frequency. The peaking filter increases signal bandwidth while attenuating frequency contents at harmonics of the DAC clock frequency. The notch filter can be an LC notch filter with at least one notch inductor Ln and at least one notch capacitor Cn. The peaking filter can be a series peaking inductor Ls (shunted with a filter capacitor Cp). In a differential configuration, the passive reconstruction filter can be configured with ±LC notch filters (with ±Ln notch inductors), and the peaking filter can be ±Ls peaking inductors coupled in series to the ±LC notch filters. The ±Ln notch inductors, ±Ls peaking inductors can be mutually wound as single inductors.
    Type: Application
    Filed: January 17, 2017
    Publication date: July 20, 2017
    Inventors: Diptendu Ghosh, Petteri Matti Litmanen, Siraj Akhtar
  • Patent number: 7999615
    Abstract: A current canceling CMOS variable gain amplifier includes a first leg and a second leg. The first leg has a first input line, a first output line, a first ON transistor, a first control transistor and a first subtracting transistor. The second leg has a second input line, a second output line, a second ON transistor, a second control transistor and a second subtracting transistor. The second input line can provide a second input current. The second output line can provide a second output current. The first input line is arranged to provide a first input current to each of the first ON transistor, the first control transistor and the first subtracting transistor. The second input line is arranged to provide a second input current to each of the second ON transistor, the second control transistor and the second subtracting transistor. The first output line is in electrical connection with each of the first ON transistor, the first control transistor and the second subtracting transistor.
    Type: Grant
    Filed: January 18, 2011
    Date of Patent: August 16, 2011
    Assignee: Texas Instruments Incorporated
    Inventors: Petteri Matti Litmanen, Siraj Akhtar
  • Publication number: 20110124306
    Abstract: A current canceling CMOS variable gain amplifier includes a first leg and a second leg. The first leg has a first input line, a first output line, a first ON transistor, a first control transistor and a first subtracting transistor. The second leg has a second input line, a second output line, a second ON transistor, a second control transistor and a second subtracting transistor. The second input line can provide a second input current. The second output line can provide a second output current. The first input line is arranged to provide a first input current to each of the first ON transistor, the first control transistor and the first subtracting transistor. The second input line is arranged to provide a second input current to each of the second ON transistor, the second control transistor and the second subtracting transistor. The first output line is in electrical connection with each of the first ON transistor, the first control transistor and the second subtracting transistor.
    Type: Application
    Filed: January 18, 2011
    Publication date: May 26, 2011
    Inventors: Petteri Matti Litmanen, Siraj Akhtar
  • Patent number: 7893765
    Abstract: A current canceling CMOS variable gain amplifier includes a first leg and a second leg. The first leg has a first input line, a first output line, a first ON transistor, a first control transistor and a first subtracting transistor. The second leg has a second input line, a second output line, a second ON transistor, a second control transistor and a second subtracting transistor. The second input line can provide a second input current. The second output line can provide a second output current. The first input line is arranged to provide a first input current to each of the first ON transistor, the first control transistor and the first subtracting transistor. The second input line is arranged to provide a second input current to each of the second ON transistor, the second control transistor and the second subtracting transistor. The first output line is in electrical connection with each of the first ON transistor, the first control transistor and the second subtracting transistor.
    Type: Grant
    Filed: September 10, 2009
    Date of Patent: February 22, 2011
    Assignee: Texas Instruments Incorporated
    Inventors: Petteri Matti Litmanen, Siraj Akhtar
  • Publication number: 20100061481
    Abstract: A current canceling CMOS variable gain amplifier includes a first leg and a second leg. The first leg has a first input line, a first output line, a first ON transistor, a first control transistor and a first subtracting transistor. The second leg has a second input line, a second output line, a second ON transistor, a second control transistor and a second subtracting transistor. The second input line can provide a second input current. The second output line can provide a second output current. The first input line is arranged to provide a first input current to each of the first ON transistor, the first control transistor and the first subtracting transistor. The second input line is arranged to provide a second input current to each of the second ON transistor, the second control transistor and the second subtracting transistor. The first output line is in electrical connection with each of the first ON transistor, the first control transistor and the second subtracting transistor.
    Type: Application
    Filed: September 10, 2009
    Publication date: March 11, 2010
    Inventors: Petteri Matti Litmanen, Siraj Akhtar