Patents by Inventor Michael A. Ang
Michael A. Ang 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: 12549415Abstract: A high speed but power-efficient electronic communications protocol may comprise dual simplex links, each operating in a differential high-speed mode and each capable of a low-speed signaling mode. When both links operate in high speed mode, signaling is performed in-band, with signals embedded as metadata attached to transmitted packets. When one of the links is put into a low-power mode, the return-path signaling may be performed on the two wires previously used for high-speed transmissions. One wire may be used for flow control or other signaling, while the other wire may be used for a wake command, which may initiate the low-power mode to be elevated to a high-speed mode. Multiple lanes may be organized to operate in parallel for each link, allowing for a very high speed communications protocol that may be easily switched into and out of a low-power state without additional sideband wiring.Type: GrantFiled: February 3, 2022Date of Patent: February 10, 2026Assignee: Analog Bits, Inc.Inventors: Alan C. Rogers, Michael A. Ang
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Patent number: 12191810Abstract: A clock device including: an LC network comprising: a first inductive portion; a second inductive portion connected to the first inductive portion; a third inductive portion connected to the second inductive portion; a first capacitive portion connected to the first, the second, and the third inductive portions; and a second capacitive portion connected to the first inductive portion and the third inductive portion, wherein the LC network is configured to simultaneously resonate at a first frequency and a second frequency that is substantially three times the first frequency, and wherein the clock signal is provided between the first and the third inductive portions by combining a first signal component and a second signal component that is a third harmonic of the first signal component and each inflection point of the first signal component is phase aligned with a corresponding inflection point of the second signal component.Type: GrantFiled: November 13, 2023Date of Patent: January 7, 2025Assignee: Analog Bits Inc.Inventors: Michael A. Ang, Alan C. Rogers
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Patent number: 12107707Abstract: A mixed signal receiver includes a first sample and hold (S/H) circuit having a first S/H input terminal to receive an analog input signal and a first S/H output terminal directly coupled to a first common node; a first data slicer having a first slicer input terminal coupled to the first common node; and a first data-driven charge coupling digital-to-analog converter (DAC) including: (i) a DAC input terminal to receive a first digital signal from a first digital output of the first data slicer, (ii) a DAC output terminal directly coupled to the first common node, (iii) a plurality of capacitor modules configured to be pre-charged during a sample phase, and (iv) logic components, wherein when the logic components toggle a voltage on the plurality of capacitor modules, charge is capacitively coupled to or from the first common node during an immediately subsequent hold phase.Type: GrantFiled: June 30, 2023Date of Patent: October 1, 2024Assignee: Analog Bits Inc.Inventors: Michael A. Ang, Alan C. Rogers
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Publication number: 20240120881Abstract: A clock device including: an LC network comprising: a first inductive portion; a second inductive portion connected to the first inductive portion; a third inductive portion connected to the second inductive portion; a first capacitive portion connected to the first, the second, and the third inductive portions; and a second capacitive portion connected to the first inductive portion and the third inductive portion, wherein the LC network is configured to simultaneously resonate at a first frequency and a second frequency that is substantially three times the first frequency, and wherein the clock signal is provided between the first and the third inductive portions by combining a first signal component and a second signal component that is a third harmonic of the first signal component and each inflection point of the first signal component is phase aligned with a corresponding inflection point of the second signal component.Type: ApplicationFiled: November 13, 2023Publication date: April 11, 2024Inventors: Michael A. Ang, Alan C. Rogers
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Publication number: 20240113923Abstract: A mixed signal receiver includes a first sample and hold (S/H) circuit having a first S/H input terminal to receive an analog input signal and a first S/H output terminal directly coupled to a first common node; a first data slicer having a first slicer input terminal coupled to the first common node; and a first data-driven charge coupling digital-to-analog converter (DAC) including: (i) a DAC input terminal to receive a first digital signal from a first digital output of the first data slicer, (ii) a DAC output terminal directly coupled to the first common node, (iii) a plurality of capacitor modules configured to be pre-charged during a sample phase, and (iv) logic components, wherein when the logic components toggle a voltage on the plurality of capacitor modules, charge is capacitively coupled to or from the first common node during an immediately subsequent hold phase.Type: ApplicationFiled: June 30, 2023Publication date: April 4, 2024Inventors: Michael A. Ang, Alan C. Rogers
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Patent number: 11817824Abstract: A clock device includes an LC network that has a first inductive portion; a second inductive portion connected to the first inductive portion; a third inductive portion connected to the second inductive portion; a first capacitive portion connected to the first, the second, and the third inductive portions; and a second capacitive portion connected to the first inductive portion and the third inductive portion, wherein the LC network is configured to simultaneously resonate at a first frequency and a second frequency that is substantially three times the first frequency, and wherein the clock signal is provided between the first and the third inductive portions by combining a first signal component and a second signal component that is a third harmonic of the first signal component and each inflection point of the first signal component is phase aligned with a corresponding inflection point of the second signal component.Type: GrantFiled: September 29, 2022Date of Patent: November 14, 2023Assignee: Analog Bits Inc.Inventors: Michael A. Ang, Alan C. Rogers
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Patent number: 11729029Abstract: A mixed signal receiver includes a first sample and hold (S/H) circuit having a first S/H input terminal to receive an analog input signal and a first S/H output terminal directly coupled to a first common node; a first data slicer having a first slicer input terminal coupled to the first common node; and a first data-driven charge coupling digital-to-analog converter (DAC) including: (i) a DAC input terminal to receive a first digital signal from a first digital output of the first data slicer, (ii) a DAC output terminal directly coupled to the first common node, (iii) a plurality of capacitor modules configured to be pre-charged during a sample phase, and (iv) logic components, wherein when the logic components toggle a voltage on the plurality of capacitor modules, charge is capacitively coupled to or from the first common node during an immediately subsequent hold phase.Type: GrantFiled: November 12, 2021Date of Patent: August 15, 2023Assignee: Analog Bits Inc.Inventors: Michael A. Ang, Alan C. Rogers
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Publication number: 20230246883Abstract: A high speed but power-efficient electronic communications protocol may comprise dual simplex links, each operating in a differential high-speed mode and each capable of a low-speed signaling mode. When both links operate in high speed mode, signaling is performed in-band, with signals embedded as metadata attached to transmitted packets. When one of the links is put into a low-power mode, the return-path signaling may be performed on the two wires previously used for high-speed transmissions. One wire may be used for flow control or other signaling, while the other wire may be used for a wake command, which may initiate the low-power mode to be elevated to a high-speed mode. Multiple lanes may be organized to operate in parallel for each link, allowing for a very high speed communications protocol that may be easily switched into and out of a low-power state without additional sideband wiring.Type: ApplicationFiled: February 3, 2022Publication date: August 3, 2023Applicant: Analog Bits, Inc.Inventors: Alan C. Rogers, Michael A. Ang
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Publication number: 20230061840Abstract: A mixed signal receiver includes a first sample and hold (S/H) circuit having a first S/H input terminal to receive an analog input signal and a first S/H output terminal directly coupled to a first common node; a first data slicer having a first slicer input terminal coupled to the first common node; and a first data-driven charge coupling digital-to-analog converter (DAC) including: (i) a DAC input terminal to receive a first digital signal from a first digital output of the first data slicer, (ii) a DAC output terminal directly coupled to the first common node, (iii) a plurality of capacitor modules configured to be pre-charged during a sample phase, and (iv) logic components, wherein when the logic components toggle a voltage on the plurality of capacitor modules, charge is capacitively coupled to or from the first common node during an immediately subsequent hold phase.Type: ApplicationFiled: November 12, 2021Publication date: March 2, 2023Inventors: Michael A. Ang, Alan C. Rogers
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Patent number: 8742957Abstract: A method is described for encoding N variables onto less than 2N channels by forming a respective signal for each of the channels by combining inverted and/or non inverted forms of the variables, such that, each of the N variables is balanced across the channels, and, combination on any particular channel is not the polar opposite of a combination on any other channel.Type: GrantFiled: December 15, 2011Date of Patent: June 3, 2014Assignee: Analog Bits, Inc.Inventors: Michael A. Ang, Alan C. Rogers
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Publication number: 20120154183Abstract: A method is described for encoding N variables onto less than 2N channels by forming a respective signal for each of the channels by combining inverted and/or non inverted forms of the variables, such that, each of the N variables is balanced across the channels, and, combination on any particular channel is not the polar opposite of a combination on any other channel.Type: ApplicationFiled: December 15, 2011Publication date: June 21, 2012Applicant: ANALOG BITS, INC.Inventors: Michael A. Ang, Alan C. Rogers
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Patent number: 6608506Abstract: A driver capable of launching signals into a transmission line and of terminating signals at a receiver end of the transmission line includes within the driver a circuit for controlling the output impedance and a circuit for controlling the output slew rate. Accordingly, a desired output impedance can be advantageously established and maintained over a wide range of variations in operating conditions, manufacturing processes and output voltage levels. Such a driver also advantageously limits any crowbar current, thereby reducing the overall power consumption of the driver with little, if any, degradation of driver performance. The driver includes a pull up circuit coupled to receive at least one of a plurality of control codes. The pull up circuit includes pull up output circuit and an impedance control buffer circuit, a parallel pull up circuit, the parallel pull up circuit and the pull up output circuit being controllable to adjust the impedance of the pull up circuit.Type: GrantFiled: March 20, 2002Date of Patent: August 19, 2003Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah
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Publication number: 20020158674Abstract: A driver capable of launching signals into a transmission line and of terminating signals at a receiver end of the transmission line includes within the driver a circuit for controlling the output impedance and a circuit for controlling the output slew rate. Accordingly, a desired output impedance can be advantageously established and maintained over a wide range of variations in operating conditions, manufacturing processes and output voltage levels. Such a driver also advantageously limits any crowbar current, thereby reducing the overall power consumption of the driver with little, if any, degradation of driver performance. The driver includes a pull up circuit coupled to receive at least one of a plurality of control codes. The pull up circuit includes pull up output circuit and an impedance control buffer circuit, a parallel pull up circuit, the parallel pull up circuit and the pull up output circuit being controllable to adjust the impedance of the pull up circuit.Type: ApplicationFiled: March 20, 2002Publication date: October 31, 2002Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah
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Patent number: 6420913Abstract: A driver capable of launching signals into a transmission line and of terminating signals at a receiver end of the transmission line includes within the driver a circuit for controlling the output impedance and a circuit for controlling the output slew rate. Accordingly, a desired output impedance can be advantageously established and maintained over a wide range of variations in operating conditions, manufacturing processes and output voltage levels. Such a driver also advantageously limits any crowbar current, thereby reducing the overall power consumption of the driver with little, if any, degradation of driver performance. The driver includes a pull up circuit coupled to receive at least one of a plurality of control codes. The pull up circuit includes pull up output circuit and an impedance control buffer circuit, a parallel pull up circuit, the parallel pull up circuit and the pull up output circuit being controllable to adjust the impedance of the pull up circuit.Type: GrantFiled: September 20, 1999Date of Patent: July 16, 2002Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah
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Patent number: 6411131Abstract: A receiver is provided which quickly and efficiently recognizes signals by including with the receiver a resolving circuit which is coupled to a signal generation circuit which provides a differential current. The resolving circuit is coupled to a latching circuit. The resolving circuit can operate with supply voltage levels as low as one threshold voltage. Also, the signal setup and hold times are inherently vary small due to the high intrinsic bandwidth of the receiver. Other advantages include reduced power consumption, high speed operation, good rejection of input noise and power supply noise, ability to resolve small (e.g., 1.0 mVolt) voltage differences, reduced capacitive loading, and the ability to function with a variety of types of drivers, including HSTL, DTL and PECL.Type: GrantFiled: May 21, 1999Date of Patent: June 25, 2002Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Jonathan E. Starr
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Patent number: 6366139Abstract: A method may be provided which controls the output impedance of a driver which includes within the driver an impedance circuit and a slew rate control. Accordingly, a desired output slew rate and a desired output impedance can be advantageously established and maintained over a wide range of variations in operating conditions, manufacturing processes and output voltage levels. Such a method also advantageously limits any crowbar current, thereby reducing the overall power consumption of the driver with little, if any, degradation of driver performance.Type: GrantFiled: June 7, 1999Date of Patent: April 2, 2002Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah
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Patent number: 6339351Abstract: A driver may be provided which controls output impedance of a driver which includes within the driver an impedance circuit and slew rate control. Accordingly, a desired output slew rate and a desired output impedance can be advantageously established and maintained over a wide range of variations in operating conditions, manufacturing processes and output voltage levels. Such a driver also advantageously limits any crowbar current, thereby reducing the overall power consumption of the driver with little, if any, degradation of driver performance.Type: GrantFiled: June 7, 1999Date of Patent: January 15, 2002Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah
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Patent number: 6316957Abstract: A method of controlling impedance of a driver capable of launching signals at a driving end of a transmission line and capable of terminating signals at the receiver end of the transmission line controls the impedance of the driver across process, voltage, and temperature (PVT) variations by selectively enabling and disabling at least one of a plurality of output elements according to an impedance control code. The impedance control code compensates for variations in output impedance due to PVT variations.Type: GrantFiled: September 20, 1999Date of Patent: November 13, 2001Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah
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Patent number: 6297677Abstract: A dynamic termination logic driver, one that is capable of launching signals at a driving end of a transmission line and is capable of terminating signals at a receiver end of the transmission line, controls output impedance and includes within the driver an impedance circuit and slew rate control. Accordingly, a desired output impedance can be advantageously established and maintained over a wide range of variations in operating conditions, manufacturing processes and output voltage levels. Such a driver also advantageously limits any crowbar current, thereby reducing the overall power consumption of the driver with little, if any, degradation of driver performance. The driver includes a pull up circuit coupled to receive at least one of a plurality of control codes and the driver also includes a pull down circuit coupled to receive at least one of the plurality of control codes.Type: GrantFiled: September 20, 1999Date of Patent: October 2, 2001Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah
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Patent number: 6294924Abstract: A dynamic termination logic driver, the driver capable of launching signals at a driving end of a transmission line and terminating signals at a receiver end of the transmission line, controls slew rate over a wide range of variations in operating conditions, manufacturing processes and output voltage levels. Such a driver also advantageously limits any crowbar current, thereby reducing the overall power consumption of the driver with little, if any, degradation of driver performance. The driver includes a pull up circuit having an impedance, the pull up circuit including a pull up output circuit and a buffer circuit, the pull up output circuit including a parallel pull up circuit, a pull up output control circuit, and a pull up slew rate control circuit, wherein the parallel pull up circuit and the pull up output control circuit are coupled in parallel.Type: GrantFiled: September 20, 1999Date of Patent: September 25, 2001Assignee: Sun Microsystems, Inc.Inventors: Michael A. Ang, Alexander D. Taylor, Jonathan E. Starr, Sai V. Vishwanthaiah