Patents by Inventor Daniel M. Kinzer
Daniel M. Kinzer 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: 11545838Abstract: GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Various embodiments of level shift circuits and their inventive aspects are disclosed.Type: GrantFiled: August 18, 2022Date of Patent: January 3, 2023Assignee: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang
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Publication number: 20220416777Abstract: An electronic device includes a semiconductor substrate and a bidirectional transistor switch formed on the substrate, the bidirectional switch including a first source node, a second source node and a common drain node. A first transistor is formed on the substrate and includes a first source terminal, a first drain terminal and a first gate terminal, wherein the first source terminal is connected to the substrate, the first drain terminal is connected to the first source node and the first gate terminal is connected to the second source node. A second transistor is formed on the substrate and includes a second source terminal, a second drain terminal and a second gate terminal, wherein the second source terminal is connected to the substrate, the second drain terminal is connected to the second source node and the second gate terminal is connected to the first source node.Type: ApplicationFiled: June 27, 2022Publication date: December 29, 2022Applicant: Navitas Semiconductor LimitedInventors: Santosh Sharma, Daniel M. Kinzer, Ren Huei Tzeng
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Publication number: 20220393480Abstract: GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Various embodiments of level shift circuits and their inventive aspects are disclosed.Type: ApplicationFiled: August 17, 2022Publication date: December 8, 2022Applicant: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang
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Publication number: 20220393479Abstract: GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Various embodiments of level shift circuits and their inventive aspects are disclosed.Type: ApplicationFiled: August 12, 2022Publication date: December 8, 2022Applicant: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang
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Publication number: 20220393481Abstract: GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Various embodiments of level shift circuits and their inventive aspects are disclosed.Type: ApplicationFiled: August 18, 2022Publication date: December 8, 2022Applicant: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang
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Publication number: 20220393482Abstract: GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Various embodiments of level shift circuits and their inventive aspects are disclosed.Type: ApplicationFiled: August 18, 2022Publication date: December 8, 2022Applicant: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang
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Publication number: 20220384586Abstract: Field plate structures for gallium nitride (GaN) high voltage transistors are disclosed. In one aspect, a transistor includes a GaN substrate, a source region formed on the GaN substrate, a drain region formed on the GaN substrate and separate from the source region, a gate region formed between the source region and the drain region, a pedestal formed on the GaN substrate and positioned between the gate region and the drain region, and a field plate electrically coupled to the source region, where the field plate extends from a proximal region positioned between the source region and the pedestal, towards the drain region, where at least a portion of the field plate overlaps at least a portion of the pedestal.Type: ApplicationFiled: June 1, 2022Publication date: December 1, 2022Applicant: Navitas Semiconductor LimitedInventors: Pil Sung Park, Daniel M. Kinzer
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Publication number: 20220310475Abstract: An electronic device includes a substrate and a first gallium nitride (GaN) transistor formed on a first semiconductor die that is electrically coupled to the substrate. A second GaN transistor is formed on a second semiconductor die and is also electrically coupled to the substrate. An integral heat spreader is thermally coupled to the first and the second gallium nitride semiconductor dies and is electrically coupled to the substrate. A first bias voltage is applied to the first GaN transistor via the integral heat spreader and a second bias voltage is applied to the second GaN transistor via the integral heat spreader.Type: ApplicationFiled: March 23, 2022Publication date: September 29, 2022Applicant: Navitas Semiconductor LimitedInventors: Charles Bailley, George Chu, Daniel M. Kinzer
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Publication number: 20220310476Abstract: An electronic device includes a substrate and a first gallium nitride (GaN) transistor formed on a first semiconductor die that is electrically coupled to the substrate. A second GaN transistor is formed on a second semiconductor die and is also electrically coupled to the substrate. An integral heat spreader is thermally coupled to the first and the second gallium nitride semiconductor dies and is electrically coupled to the substrate. A first bias voltage is applied to the first GaN transistor via the integral heat spreader and a second bias voltage is applied to the second GaN transistor via the integral heat spreader.Type: ApplicationFiled: May 6, 2022Publication date: September 29, 2022Applicant: Navitas Semiconductor LimitedInventors: Charles Bailley, George Chu, Daniel M. Kinzer
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Patent number: 11404884Abstract: GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Various embodiments of level shift circuits and their inventive aspects are disclosed.Type: GrantFiled: November 28, 2019Date of Patent: August 2, 2022Assignee: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang
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Publication number: 20220231606Abstract: A circuit is disclosed. The circuit includes a current detecting FET, configured to generate a current signal indicative of the value of the current flowing therethrough, an operational transconductance amplifier (OTA) configured to output a current in response to the voltage of the current signal, and a resistor configured to receive the current and to generate a voltage in response to the received current, where the generated voltage is indicative of the value of the current flowing through the current detecting FET. The current detecting FET is configured to become nonconductive in response to the generated voltage indicating that the current flowing through the current detecting FET is greater than a threshold.Type: ApplicationFiled: January 13, 2022Publication date: July 21, 2022Applicant: Navitas Semiconductor LimitedInventors: Thomas Ribarich, Daniel M. Kinzer, Tao Liu, Marco Giandalia, Victor Sinow
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Patent number: 11381078Abstract: An electronic circuit is disclosed. The circuit includes a power transistor having a gate terminal, a source terminal and a drain terminal. The electronic circuit also has a driver to generate which selectively changes a voltage at the gate terminal. The driver circuit includes a pull-down switch configured to change the voltage on the gate terminal such that the resistance between the source terminal and the drain terminal increases. The electronic circuit also has an overvoltage protection circuit coupled to the gate terminal. The overvoltage protection circuit includes a selectively conductive device configured to become conductive while reverse biased in response to an overvoltage potential. While conductive, the selectively conductive device causes the resistance between the source terminal and the drain terminal to decrease. The overvoltage protection circuit is also causes the pull-down switch to be non-conductive by applying a signal to the pull-down switch.Type: GrantFiled: June 18, 2019Date of Patent: July 5, 2022Assignee: Navitas Semiconductor LimitedInventor: Daniel M. Kinzer
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Patent number: 11296601Abstract: An electronic circuit is disclosed. The electronic circuit includes a distributed power switch. In some embodiments, the electronic circuit also includes one or more of a distributed gate driver, a distributed gate pulldown device, a distributed diode, and a low resistance gate and/or source connection structure. An electronic component comprising the circuit, and methods of manufacturing the circuit are also disclosed.Type: GrantFiled: March 9, 2020Date of Patent: April 5, 2022Assignee: Navitas Semiconductor LimitedInventor: Daniel M. Kinzer
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Publication number: 20220102251Abstract: An electronic power conversion component includes an electrically conductive package base comprising a source terminal, a drain terminal, at least one I/O terminal and a die-attach pad wherein the source terminal is electrically isolated from the die-attach pad. A GaN-based semiconductor die is secured to the die attach pad and includes a power transistor having a source and a drain, wherein the source is electrically coupled to the source terminal and the drain is electrically coupled to the drain terminal. A plurality of wirebonds electrically couple the source to the source terminal and the drain to the drain terminal. An encapsulant is formed over the GaN-based semiconductor die, the plurality of wirebonds and at least a top surface of the package base.Type: ApplicationFiled: September 21, 2021Publication date: March 31, 2022Applicant: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Jason Zhang, Thomas Ribarich
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Publication number: 20220084978Abstract: An electronic power conversion component includes an electrically conductive package base comprising a source terminal, a drain terminal, at least one I/O terminal and a die-attach pad wherein the source terminal is electrically isolated from the die-attach pad. A GaN-based semiconductor die is secured to the die attach pad and includes a power transistor having a source and a drain, wherein the source is electrically coupled to the source terminal and the drain is electrically coupled to the drain terminal. A plurality of wirebonds electrically couple the source to the source terminal and the drain to the drain terminal. An encapsulant is formed over the GaN-based semiconductor die, the plurality of wirebonds and at least a top surface of the package base.Type: ApplicationFiled: February 5, 2021Publication date: March 17, 2022Inventors: Daniel M. Kinzer, Jason Zhang, Thomas Ribarich
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Patent number: 11145579Abstract: An electronic power conversion component includes an electrically conductive package base comprising a source terminal, a drain terminal, at least one I/O terminal and a die-attach pad wherein the source terminal is electrically isolated from the die-attach pad. A GaN-based semiconductor die is secured to the die attach pad and includes a power transistor having a source and a drain, wherein the source is electrically coupled to the source terminal and the drain is electrically coupled to the drain terminal. A plurality of wirebonds electrically couple the source to the source terminal and the drain to the drain terminal. An encapsulant is formed over the GaN-based semiconductor die, the plurality of wirebonds and at least a top surface of the package base.Type: GrantFiled: February 5, 2021Date of Patent: October 12, 2021Assignee: Navitas Semiconductor LimitedInventors: Daniel M. Kinzer, Jason Zhang, Thomas Ribarich
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Publication number: 20210281189Abstract: A circuit is disclosed. The circuit includes first, second third and fourth diodes connected to form a bridge rectification circuit having a pair of input terminals to receive an AC input signal and a pair of output terminals to deliver a rectified DC signal. The circuit also includes a first semiconductor switch coupled in parallel with the first diode, a second semiconductor switch coupled in parallel with the second diode, and a switch control circuit coupled to the pair of input terminals and arranged to selectively operate the first and second semiconductor switches using power from the AC input signal at the pair of input terminals.Type: ApplicationFiled: March 3, 2021Publication date: September 9, 2021Applicant: Navitas Semiconductor LimitedInventors: Marco Giandalia, Daniel M. Kinzer, Tao Liu
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Publication number: 20210143647Abstract: A half bridge circuit is disclosed. The half bridge circuit includes a low side transistor having a low side transistor gate, where a low side transistor gate voltage at the low side transistor gate is controlled by a low side gate signal. The half bridge circuit also includes a high side transistor having a high side transistor gate, where a high side transistor gate voltage at the high side transistor gate is controlled by a high side gate signal. The half bridge circuit also includes a semiconductor circuit configured to allow current to flow from a ground referenced power supply node to a first floating power supply terminal. The semiconductor circuit includes a first transistor, where a gate voltage is controlled by a gate drive circuit control signal, a source is connected to the ground referenced power supply node, and a drain connected to the first floating power supply terminal.Type: ApplicationFiled: January 18, 2021Publication date: May 13, 2021Inventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang
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Patent number: 10910843Abstract: An electronic circuit is disclosed. The electronic circuit includes a GaN substrate, a first power supply node on the substrate, an output node, a signal node, and an output component on the substrate, where the output component is configured to generate a voltage at the output node based at least in part on a voltage at the signal node. The electronic circuit also includes a capacitor coupled to the signal node, where, the capacitor is configured to selectively cause the voltage at the signal node to be greater than the voltage of the first power supply node, such that the output component causes the voltage at the output node to be substantially equal to the voltage of the first power supply node.Type: GrantFiled: August 25, 2019Date of Patent: February 2, 2021Assignee: NAVITAS SEMICONDUCTOR LIMITEDInventors: Daniel M. Kinzer, Santosh Sharma, Ju Zhang
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Patent number: 10897142Abstract: A half bridge circuit is disclosed. The half bridge circuit includes a low side transistor having a low side transistor gate, where a low side transistor gate voltage at the low side transistor gate is controlled by a low side gate signal. The half bridge circuit also includes a high side transistor having a high side transistor gate, where a high side transistor gate voltage at the high side transistor gate is controlled by a high side gate signal. The half bridge circuit also includes a semiconductor circuit configured to allow current to flow from a ground referenced power supply node to a first floating power supply terminal. The semiconductor circuit includes a first transistor, where a gate voltage is controlled by a gate drive circuit control signal, a source is connected to the ground referenced power supply node, and a drain connected to the first floating power supply terminal.Type: GrantFiled: June 20, 2019Date of Patent: January 19, 2021Assignee: NAVITAS SEMICONDUCTOR LIMITEDInventors: Daniel M. Kinzer, Santosh Sharma, Ju Jason Zhang