Abstract: A power management circuit includes a status terminal, an open drain driver, a slot parameter memory, and a slot duration counter. The status terminal is adapted to be coupled to a different power management circuit. The open drain driver is coupled to the status terminal, and is configured to drive the status terminal. The slot parameter memory is configured to store slot parameter values. The slot duration counter is coupled to the slot parameter memory and the open drain driver. The slot duration counter is configured to time a slot duration based on a slot duration value stored in the slot parameter memory, and to activate the open drain driver responsive to expiration of the slot duration.

Abstract: A power management circuit includes a status terminal, an open drain driver, a slot parameter memory, and a slot duration counter. The status terminal is adapted to be coupled to a different power management circuit. The open drain driver is coupled to the status terminal, and is configured to drive the status terminal. The slot parameter memory is configured to store slot parameter values. The slot duration counter is coupled to the slot parameter memory and the open drain driver. The slot duration counter is configured to time a slot duration based on a slot duration value stored in the slot parameter memory, and to activate the open drain driver responsive to expiration of the slot duration.

Abstract: A power management circuit includes a status terminal, an open drain driver, a slot parameter memory, and a slot duration counter. The status terminal is adapted to be coupled to a different power management circuit. The open drain driver is coupled to the status terminal, and is configured to drive the status terminal. The slot parameter memory is configured to store slot parameter values. The slot duration counter is coupled to the slot parameter memory and the open drain driver. The slot duration counter is configured to time a slot duration based on a slot duration value stored in the slot parameter memory, and to activate the open drain driver responsive to expiration of the slot duration.

Abstract: A circuit comprises a CLVS, a LEA coupled to the CLVS, and a peak detector coupled to the CLVS and the LEA, wherein the peak detector is a switch-based peak detector. A method comprises closing a first switch for a period of time to provide a current to an actuator, opening the first switch after the period, measuring, after the opening, a voltage associated with the actuator, and determining, based on the measuring and using an ADC, whether a diode is present in the actuator and coupled with a correct polarity, is missing, or is present in the actuator and coupled with an incorrect polarity.

Abstract: In one embodiment, a method includes receiving an output of a first combinational logic at an enable terminal of a first flip-flop. The first combinational logic inputs include a disable first clock signal from a clock switchover circuit and a disable second clock signal from the clock switchover circuit. A set terminal of the first flip-flop receives an output of a logic gate, and the logic gate receives a select signal and a first clock signal. An input terminal of the first flip-flop receives, an output of a second flip-flop. A reset terminal of the first flip-flop receives an output of a second combinational logic. The second combinational logic inputs include a first clock stopped signal, a power-on-reset signal, and the select signal, the first clock stopped signal indicating a stop in the first clock signal. An output terminal of the first flip-flop outputs a modified select signal.

Abstract: In one embodiment, a method includes receiving an output of a first combinational logic at an enable terminal of a first flip-flop. The first combinational logic inputs include a disable first clock signal from a clock switchover circuit and a disable second clock signal from the clock switchover circuit. A set terminal of the first flip-flop receives an output of a logic gate, and the logic gate receives a select signal and a first clock signal. An input terminal of the first flip-flop receives, an output of a second flip-flop. A reset terminal of the first flip-flop receives an output of a second combinational logic. The second combinational logic inputs include a first clock stopped signal, a power-on-reset signal, and the select signal, the first clock stopped signal indicating a stop in the first clock signal. An output terminal of the first flip-flop outputs a modified select signal.

Abstract: A circuit comprises a CLVS, a LEA coupled to the CLVS, and a peak detector coupled to the CLVS and the LEA, wherein the peak detector is a switch-based peak detector. A method comprises closing a first switch for a period of time to provide a current to an actuator, opening the first switch after the period, measuring, after the opening, a voltage associated with the actuator, and determining, based on the measuring and using an ADC, whether a diode is present in the actuator and coupled with a correct polarity, is missing, or is present in the actuator and coupled with an incorrect polarity.

Abstract: A memory system that provides statistical functions is provided. The memory system includes a dual-port memory array where one port is coupled to a statistics processor. The statistics processor can perform statistical analysis on data stored in the dual-port memory array in response to opcode commands received from an external processor.

Abstract: A method for removing a gas from a site comprising placing cells having gas vesicles under conditions that induce the cells to float to a surface of an aqueous medium, harvesting the cells from the surface of the medium, lysing the cells, separating the gas vesicles from the lysed cells, crosslinking the gas vesicles with a crosslinking agent, loading a gas with a lowered partial pressure for the compound to be removed into the gas vesicles, and placing the gas vesicles such that the gas compound is removed from the site. Harvesting gas-vesicle-containing cells is achieved by placing the cells under conditions that induce the cells to rise to the surface of an aqueous medium—such as darkness, exponential growth stage, flocculation, or dissolved gas flotation—then collecting the cells from the surface of the medium. Gas vesicles are isolated by lysing the cells and separating the gas vesicles from the lysate. Once the gas vesicles are isolated, they can be modified, such as by crosslinking with glutaraldehyde.

Abstract: A method for removing a gas from a site comprising placing cells having gas vesicles under conditions that induce the cells to float to a surface of an aqueous medium, harvesting the cells from the surface of the medium, lysing the cells, separating the gas vesicles from the lysed cells, crosslinking the gas vesicles with a crosslinking agent, loading a gas with a lowered partial pressure for the compound to be removed into the gas vesicles, and placing the gas vesicles such that the gas compound is removed from the site. Harvesting gas-vesicle-containing cells is achieved by placing the cells under conditions that induce the cells to rise to the surface of an aqueous medium—such as darkness, exponential growth stage, flocculation, or dissolved gas flotation—then collecting the cells from the surface of the medium. Gas vesicles are isolated by lysing the cells and separating the gas vesicles from the lysate.

Abstract: A method for removing a gas compound from a site comprising placing cells having gas vesicles under conditions that induce the cells to float to a surface of an aqueous medium, harvesting the cells from the surface of the medium, lysing the cells, separating the gas vesicles from the lysed cells, crosslinking the gas vesicles with a crosslinking agent, loading a gas with a lowered partial pressure for the gas compound to be removed into the gas vesicles, and placing the gas vesicles contacted with a medium such that the gas compound is removed from the site to the medium. Harvesting gas-vesicle-containing cells is achieved by placing the cells under conditions that induce the cells to rise to the surface of an aqueous medium. Then collecting the cells from the surface of the medium. Gas vesicles are isolated by lysing the cells and separating the gas vesicles from the lysate. Once the gas vesicles are isolated, they can be modified, such as by crosslinking with glutaraldehyde.

Abstract: A method for removing a gas from a site comprising placing cells having gas vesicles under conditions that induce the cells to float to a surface of an aqueous medium, harvesting the cells from the surface of the medium, lysing the cells, separating the gas vesicles from the lysed cells, crosslinking the gas vesicles with a crosslinking agent, loading a gas with a lowered partial pressure for the compound to be removed into the gas vesicles, and placing the gas vesicles such that the gas compound is removed from the site. Harvesting gas-vesicle-containing cells is achieved by placing the cells under conditions that induce the cells to rise to the surface of an aqueous medium—such as darkness, exponential growth stage, flocculation, or dissolved gas flotation—then collecting the cells from the surface of the medium. Gas vesicles are isolated by lysing the cells and separating the gas vesicles from the lysate.

Abstract: A method for delivering a gas to a site comprising placing cells having gas vesicles under conditions that induce the cells to float to a surface of an aqueous medium, harvesting the cells from the surface of the medium, lysing the cells, separating the gas vesicles from the lysed cells, crosslinking the gas vesicles with a crosslinking agent, loading a gas into the gas vesicles, and placing the gas vesicles such that the gas is delivered to the site. Harvesting gas-vesicle-containing cells is achieved by placing the cells under conditions that induce the cells to rise to the surface of an aqueous medium--such as darkness, exponential growth stage, flocculation, or dissolved gas flotation--then collecting the cells from the surface of the medium. Gas vesicles are isolated by lysing the cells and separating the gas vesicles from the lysate. Once the gas vesicles are isolated, they can be modified, such as by crosslinking with glutaraldehyde.