Patents by Inventor Gerrit Jan Bollen

Gerrit Jan Bollen 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: 7884744
    Abstract: Circuit arrangement, LIN comprising such circuit arrangement as well as method for processing input signals of the LIN In order to further develop a circuit arrangement (100)—for processing at least one input signal (12) from at least one data bus (10) of at least one LIN and—for providing the data bus (10) with at least one output signal (18), as well as a corresponding operating method in such way that EMI performance and/or EMI performance of the LIN (300) is improved, it is proposed to provide—at least one analog-digital converting circuit (ADC) for converting the analog input signal (12) into at least one digital signal (14) to be processed, and—at least one digital-analog converting circuit (DAC) for converting the processed digital signal (16) into the analog output signal (18).
    Type: Grant
    Filed: August 22, 2007
    Date of Patent: February 8, 2011
    Assignee: NXP B.V.
    Inventors: Clemens Gerhardus De Haas, Inesz Marycka Weijland, Gerrit Jan Bollen, Edwin Schapendonk
  • Publication number: 20090267814
    Abstract: Circuit arrangement, L[ocal]I[nterconnected]N[etwork] comprising such circuit arrangement as well as method for processing input signals of the LIN In order to further develop a circuit arrangement (100)—for processing at least one input signal (12) from at least one data bus (10) of at least one L[ocal]I[nterconnected]N[etwork] and—for providing the data bus (10) with at least one output signal (18), as well as a corresponding operating method in such way that E[lectro]M[agnetic]E[mission] performance and/or E[lectro]M[agnetic]I[mmunity] performance of the L[ocal]I[nterconnected]N[etwork] (300) is improved, it is proposed to provide—at least one analog-digital converting means (ADC) for converting the analog input signal (12) into at least one digital signal (14) to be processed, and—at least one digital-analog converting means (DAC) for converting the processed digital signal (16) into the analog output signal (18).
    Type: Application
    Filed: August 22, 2007
    Publication date: October 29, 2009
    Applicant: NXP, B.V.
    Inventors: Clemens De Haas, Inesz Marycka Weijland, Gerrit Jan Bollen, Edwin Schapendonk
  • Publication number: 20080084945
    Abstract: An electronic circuit contains a driver circuit (12) with an output coupled to a digital communication conductor (14), for driving changes of a potential at the digital communication conductor (14) to and from a digital signal level. The driver circuit (12) comprises a control circuit (120), to generate selection signals that select increasingly stronger drive strengths and increasingly weaker drive strengths during changes to and from the digital level respectively. A controllable current supply circuit (122, 124), has a current control input coupled to the control circuit (120) for receiving the selection signals and a current supply output coupled to the digital communication conductor (14). A detector circuit (126) has an input coupled to the digital communication conductor (14) and an output coupled to the control circuit (120), and arranged to detect whether a potential at the digital communication conductor (12) has reached a required range.
    Type: Application
    Filed: October 17, 2005
    Publication date: April 10, 2008
    Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.
    Inventors: Ruurd Anne Visser, Marcellinus Wilhelmus Maria Oosterhuis, Gerrit Jan Bollen
  • Patent number: 6949963
    Abstract: Line driver for a LIN-bus. The line driver has a current source output transistor (T1) for pulling down the LIN-bus wire (LB) to ground (GND). The LIN-bus wire (LB) is connected to a positive supply voltage (VBAT) through a pull-up resistor (R1). The output transistor (T1) is driven by a driver stage (DRV) in response to an input current (J1) at an input node (X). The driver stage has a further resistor (R2) connected between the gate of the output transistor (T1) and a reference terminal (GND), a reference transistor (T2) which has its source connected to the reference terminal (GND) and its drain coupled to the input node (X); the gates of the output transistor (T1) and the reference transistor (T2) are connected to an output (DAO1) of a differential amplifier (DA1) which has an inverting input (DAN1) coupled to a bias voltage source (E2) and a non-inverting input (DAP1) coupled to the input node (X).
    Type: Grant
    Filed: March 11, 2002
    Date of Patent: September 27, 2005
    Assignee: Koninklijke Philips Electronics N.V.
    Inventors: Clemens Gerhardus Johannes De Haas, Hendrik Boezen, Aloysius Johannes Maria Boomkamp, Gerrit Jan Bollen, Abraham Klaas Van Den Heuvel, Ruurd Anne Visser
  • Patent number: 6664821
    Abstract: Line driver for a LIN-bus. The line driver has a current source output transistor (T1) for pulling down the LIN-bus wire (LB) to ground (GND). The LIN-bus wire (LB) is connected to a positive supply voltage (VBAT) through a pull-up resistor (R1). The output transistor (T1) provides a ramp shaped output current under control of a ramp generator (RG). The ramp shaped output current in combination with the pull-up resistor (R1) asserts a ramp shaped output voltage on the LIN-bus wire (LB). According to the LIN-bus specifications the resistance of the pull-up resistor may vary between 500 Ohm and 1 kOhm. When the resistance is 1 kOhm, the output voltage is clamped to signal ground (GND) and a delay occurs between the edge in the data signal (TXD) and the corresponding rising ramp in the output voltage.
    Type: Grant
    Filed: March 11, 2002
    Date of Patent: December 16, 2003
    Assignee: Koninklijke Philips Electronics N.V.
    Inventors: Clemens Gerhardus Johannes De Haas, Hendrik Boezen, Aloysius Johannes Maria Boomkamp, Gerrit Jan Bollen, Abraham Klaas Van Den Heuvel, Ruurd Anne Visser
  • Publication number: 20020154651
    Abstract: Line driver for a LIN-bus. The line driver has a current source output transistor (T1) for pulling down the LIN-bus wire (LB) to ground (GND). The LIN-bus wire (LB) is connected to a positive supply voltage (VBAT) through a pull-up resistor (R1). The output transistor (T1) is driven by a driver stage (DRV) in response to an input current (J1) at an input node (X). The driver stage has a further resistor (R2) connected between the gate of the output transistor (T1) and a reference terminal (GND), a reference transistor (T2) which has its source connected to the reference terminal (GND) and its drain coupled to the input node (X); the gates of the output transistor (T1) and the reference transistor (T2) are connected to an output (DAO1) of a differential amplifier (DA1) which has an inverting input (DAN1) coupled to a bias voltage source (E2) and a non-inverting input (DAP1) coupled to the input node (X).
    Type: Application
    Filed: March 11, 2002
    Publication date: October 24, 2002
    Inventors: Clemens Gerhardus Johannes De Haas, Hendrik Boezen, Aloysius Johannes Maria Boomkamp, Gerrit Jan Bollen, Abraham Klaas Van Den Heuvel, Ruurd Anne Visser
  • Publication number: 20020149404
    Abstract: Line driver for a LIN-bus. The line driver has a current source output transistor (T1) for pulling down the LIN-bus wire (LB) to ground (GND). The LIN-bus wire (LB) is connected to a positive supply voltage (VBAT) through a pull-up resistor (R1). The output transistor (T1) provides a ramp shaped output current under control of a ramp generator (RG). The ramp shaped output current in combination with the pull-up resistor (R1) asserts a ramp shaped output voltage on the LIN-bus wire (LB). According to the LIN-bus specifications the resistance of the pull-up resistor may vary between 500 Ohm and 1 kOhm. When the resistance is 1 kOhm, the output voltage is clamped to signal ground (GND) and a delay occurs between the edge in the data signal (TXD) and the corresponding rising ramp in the output voltage.
    Type: Application
    Filed: March 11, 2002
    Publication date: October 17, 2002
    Inventors: Clemens Gerhardus Johannes De Haas, Hendrik Boezen, Aloysius Johannes Maria Boomkamp, Gerrit Jan Bollen, Abraham Klaas Van Den Heuvel, Ruurd Anne Visser