Dual regulator systems
    3.
    发明授权
    Dual regulator systems 有权
    双调节器系统

    公开(公告)号:US09360928B2

    公开(公告)日:2016-06-07

    申请号:US13587525

    申请日:2012-08-16

    IPC分类号: G05F1/00 G06F1/32

    摘要: 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.

    摘要翻译: 微控制器系统包括主电压调节器和具有小于主电压调节器的静态电流消耗的静态电流消耗的低功率稳压器。 电源状态控制器在省电模式下启用低功耗稳压器。 在退出省电模式后,电源状态控制器启用主电压调节器,并在确定主电压调节器就绪后禁用低功耗稳压器。 开关电路可以是异步的。

    DUAL REGULATOR SYSTEMS
    4.
    发明申请
    DUAL REGULATOR SYSTEMS 有权
    双调节器系统

    公开(公告)号:US20140028278A1

    公开(公告)日:2014-01-30

    申请号:US13587525

    申请日:2012-08-16

    IPC分类号: G05F3/02

    摘要: 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.

    摘要翻译: 微控制器系统包括主电压调节器和具有小于主电压调节器的静态电流消耗的静态电流消耗的低功率电压调节器。 电源状态控制器在省电模式下启用低功耗稳压器。 在退出省电模式后,电源状态控制器启用主电压调节器,并在确定主电压调节器就绪后禁用低功耗稳压器。 开关电路可以是异步的。

    Voltage scaling system with sleep mode
    5.
    发明授权
    Voltage scaling system with sleep mode 有权
    具有睡眠模式的电压调节系统

    公开(公告)号:US09298237B1

    公开(公告)日:2016-03-29

    申请号:US13614468

    申请日:2012-09-13

    IPC分类号: G06F1/26

    摘要: A voltage scaling system can scale a supply voltage while preventing processor access of system components that are rendered unstable from the scaling. A processor receives an instruction to scale a system supply voltage to a target supply voltage. The processor executes the instruction and enters into a sleep mode. The processor can send, to a controller that saves power, an indication that the processor is in the sleep mode. When the processor is in the sleep mode, the processor becomes inactive and cannot access any components, e.g., Flash memory data, of the voltage scaling system. The controller can configure a voltage regulator to scale the system supply voltage to the target supply voltage. Once the target supply voltage is reached, the voltage regulator sends an interrupt to the processor, thereby waking up the processor from the sleep mode.

    摘要翻译: 电压调节系统可以缩放电源电压,同时防止处理器访问因缩放而变得不稳定的系统组件。 处理器接收将系统电源电压缩放到目标电源电压的指令。 处理器执行指令并进入睡眠模式。 处理器可以向节省电力的控制器发送处理器处于睡眠模式的指示。 当处理器处于睡眠模式时,处理器变为不活动状态,并且不能访问电压缩放系统的任何组件,例如闪存数据。 控制器可以配置电压调节器,以将系统电源电压缩放到目标电源电压。 一旦达到目标电源电压,电压调节器向处理器发送中断,从而将处理器从睡眠模式唤醒。

    Microcontroller input/output connector state retention in low-power modes
    8.
    发明授权
    Microcontroller input/output connector state retention in low-power modes 有权
    微控制器输入/输出连接器状态保持在低功耗模式

    公开(公告)号:US09063734B2

    公开(公告)日:2015-06-23

    申请号:US13606515

    申请日:2012-09-07

    IPC分类号: G06F1/00 G06F1/32

    摘要: 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.

    摘要翻译: 微控制器在低功率模式下可操作并且包括一个或多个I / O连接器,以及I / O控制器,其可操作以提供用于控制I / O连接器中特定一个的状态的控制信号。 在低功耗模式下,I / O控制器关闭或关闭。 微控制器还包括I / O连接器状态控制逻辑,其可操作以根据来自I / O控制器的控制信号来控制特定I / O连接器的状态。 I / O连接器状态控制逻辑包括I / O连接器状态保持逻辑,其保持控制信号的状态,并且在微控制器处于低电平状态时,根据保留的控制信号将特定的I / O连接器保持在相应的状态, 电源模式。

    MICROCONTROLLER INPUT/OUTPUT CONNECTOR STATE RETENTION IN LOW-POWER MODES
    9.
    发明申请
    MICROCONTROLLER INPUT/OUTPUT CONNECTOR STATE RETENTION IN LOW-POWER MODES 有权
    MICROCONTROLLER输入/输出连接器在低功耗模式下保持状态

    公开(公告)号:US20140075231A1

    公开(公告)日:2014-03-13

    申请号:US13606515

    申请日:2012-09-07

    IPC分类号: G06F1/00

    摘要: 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.

    摘要翻译: 微控制器在低功率模式下可操作并且包括一个或多个I / O连接器,以及I / O控制器,其可操作以提供用于控制I / O连接器中特定一个的状态的控制信号。 在低功耗模式下,I / O控制器关闭或关闭。 微控制器还包括I / O连接器状态控制逻辑,其可操作以根据来自I / O控制器的控制信号来控制特定I / O连接器的状态。 I / O连接器状态控制逻辑包括I / O连接器状态保持逻辑,其保持控制信号的状态,并且在微控制器处于低电平状态时,根据保留的控制信号将特定的I / O连接器保持在相应的状态, 电源模式。

    Voltage scaling system supporting synchronous applications
    10.
    发明授权
    Voltage scaling system supporting synchronous applications 有权
    电压调节系统支持同步应用

    公开(公告)号:US09317095B1

    公开(公告)日:2016-04-19

    申请号:US13614467

    申请日:2012-09-13

    IPC分类号: G06F1/32 H03K19/003

    摘要: A voltage scaling system can scale a supply voltage while preventing a processor from communicating with first system components that are rendered unstable from the scaling. On the other hand, the voltage scaling system allows second system components that are stable during the scaling to communicate with the processor. A processor scales a system supply voltage to a target supply voltage. The processor halts operations of the first system components and executes the instruction. When the first system components are halted, the processor cannot access the first system components. The second system components can continue operating during the scaling. A controller that saves power can configure a voltage regulator to scale the system supply voltage to the target supply voltage. Once the target supply voltage is reached, the voltage regulator sends an indication to a power management unit, after which the first system components continue to operate.

    摘要翻译: 电压调节系统可以缩放电源电压,同时防止处理器与第一个系统组件进行通信,这些组件会从缩放中变得不稳定。 另一方面,电压缩放系统允许在缩放期间稳定的第二系统组件与处理器通信。 处理器将系统电源电压缩放到目标电源电压。 处理器停止第一系统组件的操作并执行指令。 当第一个系统组件停止时,处理器无法访问第一个系统组件。 第二个系统组件可以在缩放期间继续运行。 节省电力的控制器可以配置电压调节器,以将系统电源电压缩放到目标电源电压。 一旦达到目标电源电压,电压调节器向电源管理单元发送指示,之后第一个系统组件继续运行。