Patents by Inventor Marko Borosak

Marko Borosak 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).

  • Publication number: 20210132184
    Abstract: The invention discloses design of the wideband single, dual or three channel signal detector with ability to suppress interference and crosstalk from two PLL LO signal generators (101 & 102) with selection of best pairs of LO frequencies (108 & 109) out of all possible pairs in the way that all interference is kept out-of-band and with efficient filtering in IF (103) and baseband (104) to achieve high sensitivity for wideband channels without requirement for heavy shielding or adding of absorptive materials to the receiver subsystems. Method for measurement and creating array with frequency pairs to control PLL generators with optimal frequency distribution on each PLL generator for uniform and fastest possible scanning of all required bands is also disclosed.
    Type: Application
    Filed: February 28, 2019
    Publication date: May 6, 2021
    Applicant: A-ELEKTRONIK D.O.O.
    Inventors: Marko BOROSAK, Matej PARADZIK
  • Publication number: 20200278419
    Abstract: The invention discloses design of the wideband single, dual or three channel signal detector with ability to suppress interference and crosstalk from two PLL LO signal generators (101 & 102) with selection of best pairs of LO frequencies (108 & 109) out of all possible pairs in the way that all interference is kept out-of-band and with efficient filtering in IF (103) and baseband (104) to achieve high sensitivity for wideband channels without requirement for heavy shielding or adding of absorptive materials to the receiver subsystems. Method for measurement and creating array with frequency pairs to control PLL generators with optimal frequency distribution on each PLL generator for uniform and fastest possible scanning of all required bands is also disclosed.
    Type: Application
    Filed: April 29, 2020
    Publication date: September 3, 2020
    Applicant: A-ELEKTRONIK D.O.O.
    Inventors: Marko BOROSAK, Matej PARADZIK
  • Patent number: 9500744
    Abstract: A laser transponder system for disrupting speed and/or distance measuring LIDARs. The system includes at least two laser transponders, a microcontroller and a user interface. The microcontroller is connected to both laser transponders, and to the user interface. Microcontroller analyzes input from the laser transponders and determines their output. In case an advanced speed measuring LIDAR signal is detected the microcontroller configures the first laser transponder as a transmitting only unit and the second laser transponder as a receiving only unit. Transmissions emanating from the transmitting only unit are not received by the receiving only unit. Disrupting signal periods are selected by the microcontroller algorithm from its pre-stored database according to a detected LIDAR signal.
    Type: Grant
    Filed: February 28, 2014
    Date of Patent: November 22, 2016
    Inventor: Marko Borosak
  • Publication number: 20160011302
    Abstract: A laser transponder system for disrupting speed and/or distance measuring LIDARs. The system includes at least two laser transponders, a microcontroller and a user interface. The microcontroller is connected to both laser transponders, and to the user interface. Microcontroller analyses input from the laser transponders and determines their output. In case an advanced speed measuring LIDAR signal is detected the microcontroller configures the first laser transponder as a transmitting only unit and the second laser transponder as a receiving only unit. Transmissions emanating from the transmitting only unit are not received by the receiving only unit. Disrupting signal periods are selected by the microcontroller algorithm from its pre-stored database according to a detected LIDAR signal.
    Type: Application
    Filed: February 28, 2014
    Publication date: January 14, 2016
    Inventor: Marko Borosak
  • Patent number: 8786490
    Abstract: The invention discloses the multiband radar detector calibrator. The calibrator includes a user interface with a keypad and a display, a microcontroller unit that includes pre-stored values in the database and the algorithm—decision logic, digital to analog converter, signal conditioning circuit and voltage controlled oscillators, with their appropriate antennas. The core of invention is the generation of a calibrating microwave signal which resembles the microwave input that a radar detector device would receive in an encounter with a radar device in the field.
    Type: Grant
    Filed: June 30, 2009
    Date of Patent: July 22, 2014
    Inventor: Marko Borosak
  • Publication number: 20130105670
    Abstract: The invention discloses a pulsed-laser signal disrupting device incorporating a high intensity LED illuminator including a pulsed-laser detector, pulsed-laser beam emitting source, high intensity and efficiency LED illuminator, microcontroller and a user interface. A microcontroller algorithm detects a foreign pulsed-laser signal and performs disruption with automatic camouflaging of the disruption signal source.
    Type: Application
    Filed: July 2, 2010
    Publication date: May 2, 2013
    Inventor: Marko Borosak
  • Patent number: 8309926
    Abstract: A pulsed-laser beam detector with improved sun and temperature compensation. The detector includes a plurality of photo detectors, an ambient temperature sensor, a sun exposure filter and a mirroring circuit, a microcontroller unit that includes pre-stored values in a database and an algorithm—decision logic, a time base circuit that feeds microcontroller, an adjustable gain amplifier, a threshold setting circuit, a peak detector circuit, a comparator circuit, and a noise cancellation circuit. The gain of the amplifier is adjustable in real time to predetermined values, and the gain depends on the measured values from the detectors, and temperature sensor, that are preprocessed if necessary, and compared with the values already stored in the microcontroller unit and subjected to the program logic stored in the microcontroller that determines the gain of the amplifier.
    Type: Grant
    Filed: May 2, 2008
    Date of Patent: November 13, 2012
    Inventor: Marko Borosak
  • Publication number: 20120098696
    Abstract: The invention discloses the multiband radar detector calibrator. The calibrator includes a user interface with a keypad and a display, a microcontroller unit that includes pre-stored values in the database and the algorithm-decision logic, digital to analog converter, signal conditioning circuit and voltage controlled oscillators, with their appropriate antennas. The core of invention is the generation of a calibrating microwave signal which resembles the microwave input that a radar detector device would receive in an encounter with a radar device in the field.
    Type: Application
    Filed: June 30, 2009
    Publication date: April 26, 2012
    Inventor: Marko Borosak
  • Publication number: 20100264301
    Abstract: A pulsed-laser beam detector with improved sun and temperature compensation. The detector includes a plurality of photo detectors, an ambient temperature sensor, a sun exposure filter and a mirroring circuit, a microcontroller unit that includes pre-stored values in a database and an algorithm—decision logic, a time base circuit that feeds microcontroller, an adjustable gain amplifier, a threshold setting circuit, a peak detector circuit, a comparator circuit, and a noise cancellation circuit. The gain of the amplifier is adjustable in real time to predetermined values, and the gain depends on the measured values from the detectors, and temperature sensor, that are preprocessed if necessary, and compared with the values already stored in the microcontroller unit and subjected to the program logic stored in the microcontroller that determines the gain of the amplifier.
    Type: Application
    Filed: May 2, 2008
    Publication date: October 21, 2010
    Inventor: Marko Borosak