Patents by Inventor Lawrence A. Borschowa
Lawrence A. Borschowa 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: 8588263Abstract: Apparatus and method for generating controlled-linewidth laser-seed-signals for high-powered fiber-laser amplifier systems. In some embodiments, the natural chirp (frequency change of laser light over a short start-up time) of a DBR laser diode when driven by pulsed current is used to broaden the linewidth of the laser output, while adjusting the peak current and/or the pulse duration to obtain the desired linewidth.Type: GrantFiled: August 28, 2012Date of Patent: November 19, 2013Assignee: Lockheed Martin CorporationInventors: Eric C. Honea, Jason D. Henrie, Matthias P. Savage-Leuchs, Lawrence A. Borschowa, Anping Liu
-
Patent number: 8254419Abstract: Apparatus and method for generating controlled-linewidth laser-seed-signals for high-powered fiber-laser amplifier systems. In some embodiments, the natural chirp (frequency change of laser light over a short start-up time) of a DBR laser diode when driven by pulsed current is used to broaden the linewidth of the laser output, while adjusting the peak current and/or the pulse duration to obtain the desired linewidth.Type: GrantFiled: August 2, 2011Date of Patent: August 28, 2012Assignee: Lockheed Martin CorporationInventors: Matthias P. Savage-Leuchs, Lawrence A. Borschowa, Eric C. Honea, Jason D. Henrie
-
Patent number: 8170075Abstract: Apparatus and method for driving laser diodes with electrical power in pulsed operation. Pulsed power, for example using pulse-width modulation, is applied through an inductor in one or more parallel regulator circuits having little or no output capacitance to provide a high-efficiency laser-diode-driver power supply. Some embodiments that use two or more parallel regulator circuits in the laser-diode driver, drive each from a different phase of a clock signal. Some embodiments provide a first DC-to-DC converter has a relatively high-voltage input (e.g., about 275 volts, 0.75 amps) and an intermediate output of, e.g., 11 to 15 volts, 15 to 11 amps used to charge a storage capacitor, and a second DC-to-DC converter diode driver having one or more parallel circuits (each having, e.g., a PWM switching-mode controller and its respective switch, inductor, and diode) to turn on, regulate, and turn off a constant laser-diode current through one or more laser diodes.Type: GrantFiled: September 7, 2010Date of Patent: May 1, 2012Assignee: Lockheed Martin CorporationInventor: Lawrence A. Borschowa
-
Patent number: 7991027Abstract: Apparatus and method for generating controlled-linewidth laser-seed-signals for high-powered fiber-laser amplifier systems. In some embodiments, the natural chirp (frequency change of laser light over a short start-up time) of a DBR laser diode when driven by pulsed current is used to broaden the linewidth of the laser output, while adjusting the peak current and/or the pulse duration to obtain the desired linewidth.Type: GrantFiled: March 1, 2010Date of Patent: August 2, 2011Assignee: Lockheed Martin CorporationInventors: Matthias P. Savage-Leuchs, Lawrence A. Borschowa
-
Patent number: 7792166Abstract: Apparatus and method for driving laser diodes with electrical power in pulsed operation. Pulsed power, for example using pulse-width modulation, is applied through an inductor in one or more parallel regulator circuits having little or no output capacitance to provide a high-efficiency laser-diode-driver power supply. Some embodiments that use two or more parallel regulator circuits in the laser-diode driver, drive each from a different phase of a clock signal. Some embodiments provide a first DC-to-DC converter has a relatively high-voltage input (e.g., about 275 volts, 0.75 amps) and an intermediate output of, e.g., 11 to 15 volts, 15 to 11 amps used to charge a storage capacitor, and a second DC-to-DC converter diode driver having one or more parallel circuits (each having, e.g., a PWM switching-mode controller and its respective switch, inductor, and diode) to turn on, regulate, and turn off a constant laser-diode current through one or more laser diodes.Type: GrantFiled: June 24, 2005Date of Patent: September 7, 2010Assignee: Lockheed Martin CorporationInventor: Lawrence A. Borschowa
-
Patent number: 7545836Abstract: Apparatus and method for generating controlled-linewidth laser-seed-signals for high-powered fiber-laser amplifier systems. In some embodiments, the natural chirp (frequency change of laser light over a short start-up time) of a DBR laser diode when driven by pulsed current is used to broaden the linewidth of the laser output, while adjusting the peak current and/or the pulse duration to obtain the desired linewidth.Type: GrantFiled: January 12, 2007Date of Patent: June 9, 2009Assignee: Lockheed Martin CorporationInventors: Lawrence A. Borschowa, Matthias P. Savage-Leuchs
-
Patent number: 7539231Abstract: Apparatus and method for generating controlled-linewidth laser-seed-signals for high-powered fiber-laser amplifier systems. In some embodiments, the natural chirp (frequency change of laser light over a short start-up time) of a DBR laser diode when driven by pulsed current is used to broaden the linewidth of the laser output, while adjusting the peak current and/or the pulse duration to obtain the desired linewidth.Type: GrantFiled: July 17, 2006Date of Patent: May 26, 2009Assignee: Lockheed Martin CorporationInventors: Eric C. Honea, Jason D. Henrie, Matthias P. Savage-Leuchs, Lawrence A. Borschowa, Anping Liu
-
Publication number: 20060291512Abstract: Apparatus and method for driving laser diodes with electrical power in pulsed operation. Pulsed power, for example using pulse-width modulation, is applied through an inductor in one or more parallel regulator circuits having little or no output capacitance to provide a high-efficiency laser-diode-driver power supply. Some embodiments that use two or more parallel regulator circuits in the laser-diode driver, drive each from a different phase of a clock signal. Some embodiments provide a first DC-to-DC converter has a relatively high-voltage input (e.g., about 275 volts, 0.75 amps) and an intermediate output of e.g., 11 to 15 volts, 15 to 11 amps used to charge a storage capacitor, and a second DC-to-DC converter diode driver having one or more parallel circuits (each having, e.g., a PWM switching-mode controller and its respective switch, inductor, and diode) to turn on, regulate, and turn off a constant laser-diode current through one or more laser diodes.Type: ApplicationFiled: June 24, 2005Publication date: December 28, 2006Inventor: Lawrence Borschowa
-
Patent number: 6980856Abstract: An external defibrillator/pacer includes an output circuit with four legs arrayed to form an H-bridge. Each leg of the output circuit contains a switch. In a defibrillation mode, pairs of switches in the H-bridge are selectively switched to generate a biphasic defibrillation pulse. Three switches are silicon controlled rectifiers (SCRs). Gate drive circuits are coupled to the SCRs to bias the SCRs with a voltage that allows the SCRs in response to control signals. One switch includes an insulated gate bipolar transistor (IGBT). A gate drive circuit is coupled to the gate of the IGETs to provide a slow turn-on and a fast turn-off of the IGBT. In a pacing mode, a bypass circuit or current source circuit is used to provide a current path bypassing an SCR switch, which cannot be triggered by the relatively low current of pacing pulses.Type: GrantFiled: January 12, 2001Date of Patent: December 27, 2005Assignee: Physio-Control Manufacturing CorporationInventors: Joseph L. Sullivan, Richard C. Nova, Lawrence A. Borschowa
-
Patent number: 6963773Abstract: An external defibrillator with an output circuit having four legs arrayed in the form of an “H” (an “H-bridge”) is disclosed. The output circuit is designed to be able to conduct a range of defibrillation pulse energies, from below 50 joules to above 200 joules. Each leg of the output circuit contains a solid-state switch. By selectively switching on pairs of switches in the H-bridge, a biphasic defibrillation pulse may be applied to a patient. The switches in three of the legs of the H-bridge output circuit are preferably SCR switches, while the fourth leg includes an IGBT switch. In one embodiment, a single power switch is utilized in each of the legs of the H-bridge output circuit, and are included in a single integrated module or package. The use of single semiconductor switches in an integrated surface mountable module or package simplifies the assembly and manufacturing of the defibrillator device.Type: GrantFiled: June 26, 2002Date of Patent: November 8, 2005Assignee: MedTronic Physio-Control Manufacturing Corp.Inventors: Barry F. Waltman, Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
-
Publication number: 20040068301Abstract: An external defibrillator with an output circuit having four legs arrayed in the form of an “H” (an “H-bridge”) is disclosed. The output circuit is designed to be able to conduct a range of defibrillation pulse energies, from below 50 joules to above 200 joules. Each leg of the output circuit contains a solid-state switch. By selectively switching on pairs of switches in the H-bridge, a biphasic defibrillation pulse may be applied to a patient. The switches in three of the legs of the H-bridge output circuit are preferably SCR switches, while the fourth leg includes an IGBT switch. In one embodiment, a single power switch is utilized in each of the legs of the H-bridge output circuit, and are included in a single integrated module or package. The use of single semiconductor switches in an integrated surface mountable module or package simplifies the assembly and manufacturing of the defibrillator device.Type: ApplicationFiled: June 26, 2002Publication date: April 8, 2004Applicant: Medtronic Physio-Control Manufacturing Corp.Inventors: Barry F. Waltman, Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
-
Patent number: 6487448Abstract: An upgrade kit and method for converting a typical monophasic defibrillator into a biphasic defibrillator is provided. The upgrade kit is easily connected to a typical monophasic defibrillator and uses control signals that are commonly available in most monophasic defibrillators. Such control signals include the signals for transferring the defibrillation pulse to the patient, and for dumping unwanted energy from the energy storage capacitor. In addition, the upgrade kit avoids the need for information as to the charge level of the storage capacitor by using a discharge method that allows the production of proper biphasic defibrillation pulses regardless of the initial energy settings of the storage capacitor. More specifically, the upgrade kit determines the desired length of the biphasic defibrillation pulses according to two measurements which are taken during the defibrillation pulse.Type: GrantFiled: January 16, 2001Date of Patent: November 26, 2002Assignee: Physio-Control Manufacturing CorporationInventors: Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
-
Patent number: 6477413Abstract: An external defibrillator with an output circuit having four legs arrayed in the form of an “H” (an “H-bridge”) is disclosed. The output circuit is designed to be able to conduct a range of defibrillation pulse energies, from below 50 joules to above 200 joules. Each leg of the output circuit contains a solid-state switch. By selectively switching on pairs of switches in the H-bridge, a biphasic defibrillation pulse may be applied to a patient. The switches in three of the legs of the H-bridge output circuit are preferably silicon controlled rectifiers (SCRs). Gate drive circuits are coupled to the SCRs to bias the SCRs with a voltage that allows the SCRs to remain turned-on even when conducting low current. The switch in the fourth leg is preferably a pair of insulated gate bipolar transistors (IGBTs) coupled in series. A gate drive circuit is coupled to the gate of the IGBTs to provide a slow turn-on and a fast turn-off of the IGBTs.Type: GrantFiled: November 3, 2000Date of Patent: November 5, 2002Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
-
Patent number: 6421563Abstract: A solid-state defibrillation circuit for applying a multiphasic defibrillation pulse to a patient is disclosed. The circuit eliminates the need for a mechanical relay, and provides for a current limiting circuit for limiting leakage currents that would otherwise flow to the patient from the solid-state components, and for preventing the short-circuiting of a defibrillation pulse from a second defibrillator. In one embodiment, the output circuit of the defibrillator comprises an H-bridge, and the current limiting circuit comprises a plurality of resistors coupled in parallel with each of the legs of the H-bridge. The plurality of resistors allow current flow which reduces the voltage potential across the patient that is caused by the leakage currents through the output circuit. The current limiting circuit also includes a shunt resistor for shunting leakage currents away from the patient.Type: GrantFiled: March 1, 2000Date of Patent: July 16, 2002Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Joseph L. Sullivan, Lawrence A. Borschowa
-
Publication number: 20010051817Abstract: An upgrade kit and method for converting a typical monophasic defibrillator into a biphasic defibrillator is provided. The upgrade kit is easily connected to a typical monophasic defibrillator and uses control signals that are commonly available in most monophasic defibrillators. Such control signals include the signals for transferring the defibrillation pulse to the patient, and for dumping unwanted energy from the energy storage capacitor. In addition, the upgrade kit avoids the need for information as to the charge level of the storage capacitor by using a discharge method that allows the production of proper biphasic defibrillation pulses regardless of the initial energy settings of the storage capacitor. More specifically, the upgrade kit determines the desired length of the biphasic defibrillation pulses according to two measurements which are taken during the defibrillation pulse.Type: ApplicationFiled: January 16, 2001Publication date: December 13, 2001Applicant: Physio-Control Manufacturing CorporationInventors: Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
-
Publication number: 20010027330Abstract: An external defibrillator/pacer (8) includes an output circuit (14) with four legs arrayed to form an H-bridge. Each leg of the output circuit contains a switch (SW1-SW4). In a defibrillation mode, pairs of switches in the H-bridge are selectively switched to generate a biphasic defibrillation pulse. Three switches (SW1, SW3, SW4) are silicon controlled rectifiers (SCRs). Gate drive circuits (51, 53, 54) are coupled to the SCRs to bias the SCRs with a voltage that allows the SCRs in response to control signals. One switch (SW2) includes an insulated gate bipolar transistor (IGBT). A gate drive circuit (52) is coupled to the gate of the IGBTs to provide a slow turn-on and a fast turn-off of the IGBT. In a pacing mode, a bypass circuit or current source circuit is used to provide a current path bypassing an SCR switch (SW3), which cannot be triggered by the relatively low current of pacing pulses.Type: ApplicationFiled: January 12, 2001Publication date: October 4, 2001Applicant: Physio-Control Manufacturing CorporationInventors: Joseph L. Sullivan, Richard C. Nova, Lawrence A. Borschowa
-
Patent number: 6212429Abstract: An upgrade kit and method for converting a typical monophasic defibrillator into a biphasic defibrillator is provided. The upgrade kit is easily connected to a typical monophasic defibrillator and uses control signals that are commonly available in most monophasic defibrillators. Such control signals include the signals for transferring the defibrillation pulse to the patient, and for dumping unwanted energy from the energy storage capacitor. In addition, the upgrade kit avoids the need for information as to the charge level of the storage capacitor by using a discharge method that allows the production of proper biphasic defibrillation pulses regardless of the initial energy settings of the storage capacitor. More specifically, the upgrade kit determines the desired length of the biphasic defibrillation pulses according to two measurements which are taken during the defibrillation pulse.Type: GrantFiled: October 13, 1998Date of Patent: April 3, 2001Assignee: Physio-Control Manufacturing CorporationInventors: Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
-
Patent number: 6208895Abstract: An external defibrillator/pacer (8) includes an output circuit (14) with four legs arrayed to form an H-bridge coupled to an energy storage capacitor. The energy storage capacitor delivers an external defibrillation pulse with stored energy during a defibrillation mode and an external pacing pulse during a pacing mode. Each leg of the output circuit contains a switch (SW1-SW4). In a defibrillation mode, pairs of switches in the H-bridge are selectively switched to generate a biphasic defibrillation pulse. Three switches (SW1, SW3, SW4) are silicon controlled rectifiers (SCRs). Gate drive circuits (51, 53, 54) are coupled to the SCRs to bias the SCRs with a voltage that allows the SCRs in response to control signals. One switch (SW2) includes an insulated gate bipolar transistor (IGBT). A gate drive circuit (52) is coupled to the gate of the IGBTs to provide a slow turn-on and a fast turn-off of the IGBT.Type: GrantFiled: October 13, 1998Date of Patent: March 27, 2001Assignee: Physio-Control Manufacturing CorporationInventors: Joseph L. Sullivan, Richard C. Nova, Lawrence A. Borschowa
-
Patent number: 6175765Abstract: An external defibrillator with an output circuit having four legs arrayed in the form of an “H” (an “H-bridge”) is disclosed. The output circuit is designed to be able to conduct a range of defibrillation pulse energies, from below 50 joules to above 200 joules. Each leg of the output circuit contains a solid-state switch. By selectively switching on pairs of switches in the H-bridge, a biphasic defibrillation pulse may be applied to a patient. The switches in three of the legs of the H-bridge output circuit are preferably silicon controlled rectifiers (SCRs). Gate drive circuits are coupled to the SCRs to bias the SCRs with a voltage that allows the SCRs to remain turned-on even when conducting low current. The switch in the fourth leg is preferably a pair of insulated gate bipolar transistors (IGBTs) coupled in series. A gate drive circuit is coupled to the gate of the IGBTs to provide a slow turn-on and a fast turn-off of the IGBTs.Type: GrantFiled: April 6, 1999Date of Patent: January 16, 2001Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
-
Patent number: 6173204Abstract: An external defibrillator for applying a multiphasic defibrillation pulse to a patient uses a single semiconductor switching element in combination with a relay switching element. The semiconductor switching element is used to stop the flow of current from the energy storage device to the patient in between the phases of the multiphasic defibrillation pulse. The relay element is used to switch the leads of the energy storage device so as to create the different phases of the multiphasic defibrillation pulse. In various examples, the relay element is shown to be in the form of: a double-pole, double-throw relay; two single-pole, double-throw relays; or four reed relays. The timing between the activation of the semiconductor switching element and the relay switches may be delayed, so as to give the relatively slower relay switches time to respond.Type: GrantFiled: October 13, 1998Date of Patent: January 9, 2001Assignee: Physio-Control Manufacturing CorporationInventors: Joseph L. Sullivan, Lawrence A. Borschowa