Patent application number | Description | Published |
20140028278 | DUAL REGULATOR SYSTEMS - A microcontroller system includes a main voltage regulator and a low power voltage regulator having a static current consumption less than the static current consumption of the main voltage regulator. A power state controller enables the low power voltage regulator during a power saving mode. On exiting the power saving mode, the power state controller enables the main voltage regulator and disables the low power voltage regulator after determining that the main voltage regulator is ready. The switching circuitry can be asynchronous. | 01-30-2014 |
20140028380 | PREVENTING INTERFERENCE BETWEEN MICROCONTROLLER COMPONENTS - A microcontroller includes first and second modules. The first module can operate in a mode that causes interference with operation of the second module. A control circuit on the first module and a control circuit on the second module coordinate operation of the first and second modules to prevent the interference from causing the second module to function incorrectly. | 01-30-2014 |
20140028384 | REFERENCE VOLTAGE CIRCUITS IN MICROCONTROLLER SYSTEMS - A microcontroller system includes a higher power reference voltage circuit and a lower power reference voltage circuit configured to draw less power than the higher power reference voltage circuit when enabled. The system includes a power state logic controller configured to enable the lower power reference voltage circuit to provide a first regulated voltage during a power saving mode, and, on exiting the power saving mode, enable the higher power reference voltage circuit to provide a second regulated voltage. | 01-30-2014 |
20140055105 | VOLTAGE SCALING SYSTEM - A circuit for downscaling voltage comprising: a voltage regulator; a voltage reference register configured to provide a voltage reference value; a voltage comparator configured to output a logical one if a supply voltage of the voltage regulator is greater than the voltage reference value, wherein a first input of the voltage comparator is coupled to output of the voltage regulator and a second input of the voltage comparator is coupled to output of the voltage reference register; an AND gate, where a first input of the AND gate is coupled to output of the voltage comparator and a second input of the AND gate is coupled to a voltage reference ready signal; a switch configured to close based on output of logical one from the AND gate; and a pull-down resistor configured to couple to the output of the voltage regulator only if the switch is closed. | 02-27-2014 |
20140075066 | LOW-POWER MODES OF MICROCONTROLLER OPERATION WITH ACCESS TO CONFIGURABLE INPUT/OUTPUT CONNECTORS - A microcontroller includes I/O pins whose respective functions are configurable by an I/O controller in accordance with user-programmable input. The availability of such configurable I/O pins is extended to low-power or power savings modes of operation during which the I/O controller is powered off or deactivated. | 03-13-2014 |
20140075231 | MICROCONTROLLER INPUT/OUTPUT CONNECTOR STATE RETENTION IN LOW-POWER MODES - A microcontroller is operable in a low-power mode and includes one or more I/O connectors, as well as an I/O controller operable to provide control signals for controlling a state of a particular one of the I/O connectors. The I/O controller is powered off or deactivated during the low-power mode. The microcontroller also includes I/O connector state control logic operable to control the state of the particular one of the I/O connectors in accordance with the control signals from the I/O controller. The I/O connector state control logic includes I/O connector state retention logic that retains states of the control signals and maintains the particular I/O connector in a corresponding state in accordance with the retained control signals while the microcontroller is in the low-power mode. | 03-13-2014 |
20140089706 | DELAYING RESET SIGNALS IN A MICROCONTROLLER SYSTEM - A microcontroller system includes a reset delaying module that is configured to, during a power saving mode, receive and delay a reset signal from a reset source. The reset delaying module waits for a regulator ready signal from a voltage regulator because, prior to the reset signal, the voltage regulator is in a power saving mode. In response to receiving the regulator ready signal, the reset delaying module releases the reset, e.g., to a reset controller. | 03-27-2014 |
20140089707 | CHANGING POWER MODES OF A MICROCONTROLLER SYSTEM - A microcontroller system can operate in a number of power modes. In response to changing from a previous mode to a present mode, the microcontroller system reads a present calibration value correspond to the present mode from system configuration storage and write the present calibration value to a configuration register for a component. A logic block for the component reads the present calibration value and calibrates the component. | 03-27-2014 |
20140089708 | DELAYING INTERRUPTS IN A MICROCONTROLLER SYSTEM - A microcontroller system includes a power manager that is configured to, during a power saving mode, configure an interrupt delaying module to receive and hold an interrupt from an interrupt source. In response to receiving the interrupt from the interrupt source, the power manager causes the microcontroller system to exit the power saving mode. Upon exiting the power saving mode, the power manager configures the interrupt delaying module to release the interrupt. | 03-27-2014 |
20140089714 | CONFIGURING POWER DOMAINS OF A MICROCONTROLLER SYSTEM - A microcontroller system is organized into power domains. A power manager of the microcontroller system can change the power configuration of a power domain in response to event from an event generating module without activating a processor of the microcontroller system. | 03-27-2014 |