Patent application number | Description | Published |
20110084552 | Power Management Methodology - A power management system for regulating supply voltage in at least two selectable power modes with low power, minimal leakage current and quicker startup times is disclosed. The power management system includes at least two regulators having regulator inputs and regulator outputs. The regulator inputs are respectively coupled to at least two voltage domains, wherein the voltage domains have different load traits and/or requirements. The power management system also includes at least one switch disposed between the regulator outputs so as to selectively interconnect the regulator outputs based on the selected power mode. | 04-14-2011 |
20110087908 | Advanced Energy Profiler - An energy profiling apparatus for profiling power consumption characteristics of code being executed at an integrated circuit being powered by a power source and having a measurement module, a data processing module and a display module is disclosed. The energy profiling apparatus comprises first, second and third interfaces as well as a profile module. The first interface is configured to receive a first data set from the measurement module. The second interface is configured to receive a second data set from the data processing module. The third interface is configured to transmit a third data set to the display module. The profile module is configured to generate an energy profile of the code executed at the data processing module based on a correlation between the first data set and the second data set. Furthermore, the profile module is configured to transmit the energy profile as part of the third data set to the display module. | 04-14-2011 |
20120187985 | Low Power Brown Out Detector - A brown out detector (BOD), configured to provide a BOD reset in the event of a brown out event, is provided. The BOD includes means for tracking a reference voltage that is updated through duty cycling schemes so as to reduce power consumption, as well as means for detecting a falling flank of a supply voltage so as to optimize response times. More specifically, the BOD includes at least one track module, at least one sample module, at least one detector module and at least one comparator. The comparator is configured to compare a duty cycled tracked reference voltage with a duty cycled sampled reference voltage and to output a BOD reset if the tracked reference voltage is less than the sampled reference voltage. The comparator is further capable of exhibiting improved response times when a boost current is received. The boost current is provided by the detector module when the supply voltage falls beyond a predetermined threshold. | 07-26-2012 |
20120200270 | Ultra Low Power Regulator - A power regulator with minimized power consumption is disclosed. The power regulator includes at least one multiplier module and at least one amplifier module. The multiplier module is configured to multiply the reference voltage to provide a second voltage, while the amplifier module is configured to receive the second voltage and provide a regulated voltage. The magnitude of the second voltage is greater than the magnitude of the reference voltage by a factor greater than one. | 08-09-2012 |
20120200344 | Low Power Reference - A low power reference device is disclosed. The low power reference device includes a precision reference module, a low power reference module, a calibration module, an output module and one or more sequencers. The precision reference module is configured to output a first reference signal while the low power reference module is configured to output a second reference signal. The calibration module is configured to receive the first and second reference signals and output a correction signal to the low power reference module. The output module is configured to receive the first and second reference signals and output a final reference signal. The one or more sequencers are configured to drive each of the precision reference modules, low power reference module, calibration module and output module according to a predetermined timing sequence. | 08-09-2012 |
20120200479 | Liquid Crystal Display Driver - An LCD driver for driving an LCD having a plurality of segments, wherein each segment is enabled by an RMS voltage exceeding a predefined turn-on threshold is disclosed. The LCD driver includes a control module, a power supply module, a reference module and a selector module. The control module is configured to output at least a clock, a first control, a second control and a third control. The power supply module is configured to receive a supply voltage and the first control, and output the supply voltage to the reference module. The reference module is configured to receive the supply voltage and the second control, and output a plurality of duty cycled and buffered reference voltages. The selector module is configured to receive the buffered reference voltages and the third control, and output one or more of the buffered reference voltages to one or more of the segments of the LCD according to a predefined sequence. | 08-09-2012 |
20120203936 | DIRECT PERIPHERAL INTERCONNECT - A direct peripheral interconnect (DPI) device and a method for providing a direct interconnect between peripherals are disclosed. The DPI device includes a selector configured to receive producer signals output by peripherals and control signals output by a control unit. The selector is configured to select and output one or more producer signals as an operable signal based on the received control signals. The DPI device also includes an operator having functions stored therein. The operator is configured to receive the operable signal and the control signals, and perform one or more of the functions on the operable signal based on the received control signals. The operator is configured to output a consumer signal corresponding to the operable signal, as well as a status signal providing update information to the main control unit. | 08-09-2012 |
20130218524 | Low Energy Sensor Interface - A low energy sensor interface for a microcontroller unit (MCU) is provided. The sensor interface may include a sequencer in operative communication with one or more on-chip peripherals, a count and compare block in communication with one or more sensors and the sequencer, and a highly configurable decoder. The sequencer, the count and compare block and the decoder may be configured to autonomously analyze and collect sensor results using the on-chip peripherals in a low energy mode of operation without intervention from an associated central processing unit (CPU). | 08-22-2013 |