Abstract: The invention relates to an electronic device comprising a switched mode power converter comprising a switched transistor, an inductor and an error amplifier. The switched transistor is configured to switch a current through the inductor. The error amplifier is configured to control the switching of the switched transistor to convert a primary voltage applied at the input into a secondary voltage at the output of the switched mode power converter. The electronic device further comprises an oscillator, a control logic stage and a digital counter. The control logic stage is coupled to receive a clock signal from the oscillator and to generate switching signals for the switched transistor in form of ON-time pulses with a constant ON-time according to a pulse density scheme. The counter is configured to count the number of ON-time pulses for determining the consumed power based on the number of ON-time pulses per time.

Abstract: The invention relates to an electronic device and a method for event handling in an electronic device comprising a bus master and a memory for storing a software program. A status of a software and/or hardware module is polled in a polling loop. The status polling loop is left and a low power mode is entered when the status polling loop is executed a second time. In other words, any second execution of the status polling loop is detected and the execution of the loop is then terminated. An active mode is entered upon a write operation to a first predefined reserved address indicating that information related to the status of the software and/or hardware module arrived.

Abstract: An electronic device and a method for operating an electronic device, wherein the electronic device comprises a reset stage which is configured to have a power down threshold and a power cycle threshold. The voltage level of the power cycle threshold is lower than the voltage level of the power down threshold. The two threshold levels define a first and second interval for a supply voltage of the electronic device. A first interval is between the power cycle threshold and the power down threshold. A second interval is above the power down threshold. The reset stage is further configured to provide the control signal having a defined first state in the first interval and a defined second state in the second interval. The electronic device is set to a low power reset mode if the control signal is in the first state and the electronic device is enabled to enter an active mode if the control signal is in the second state.

Abstract: A semiconductor device comprising a processor having a pipelined architecture and a pipeline flattener and a method for operating a pipeline flattener in a semiconductor device are provided. The processor comprises a pipeline having a plurality of pipeline stages and a plurality of pipeline registers that are coupled between the pipeline stages. The pipeline flattener comprises a plurality of trigger registers for storing a trigger, wherein the trigger registers are coupled between the pipeline stages.

Abstract: An embedded microcontroller system comprises a central processing unit, a system controller for receiving and handling an interrupt, a register having storage locations containing sets of predefined system data for different operating conditions of the system assigned to the interrupts coupled to set a system configuration. The system data in the register is defined and stored before receipt of an interrupt. On receipt of an interrupt the system controller transmits a selection signal to the register. The register selects a predefined storage location assigned to the received interrupt. The corresponding system configuration data is used to control system configuration of the embedded microcontroller system, such as allocation of CPU time to virtual CPUs and selection of clock frequency or power voltage for modules.

Abstract: A method of protecting software for embedded applications against unauthorized access. Software to be protected is loaded into a protected memory area. Access to the protected memory area is controlled by sentinel logic circuitry. The sentinel logic circuitry allows access to the protected memory area from only either within the protected memory area or from outside of the protected memory area but through a dedicated memory location within the protected memory area. The dedicated memory location then points to protected address locations within the protected memory area.

Abstract: An electronic device comprises a processing stage, a JTAG port including a test data input pin (TDI), a test data output pin (TDO), a test mode select pin (TMS), a test clock pin (TCK), and a test access port (TAP) controller having a data register (DR) shift state and an instruction register shift (IR) state. The electronic device operates in a scan event mode automatically mapped an incoming event to the TDO pin.

Abstract: The network node includes a local crystal oscillator for providing a time reference derived from the clock signal produced by the local crystal oscillator, a reset stage for resetting the network node in response to a bus reset pulse received through the network and a control means for issuing a bus reset pulse of a predetermined length substantially greater than a clock period of the clock signal of the local crystal oscillator. Further the network node includes a bus reset detector for determining a length of the received bus reset pulse based on the local time reference. The bus reset detector in the network node is also adapted to adjust the local time reference based on the determined length of the received bus reset pulse.

Abstract: An electronic device comprises a processing stage, a JTAG port including a test data input pin (TDI), a test data output pin (TDO), a test mode select pin (TMS), a test clock pin (TCK), and a test access port (TAP) controller having a data register (DR) shift state and an instruction register shift (IR) state. The electronic device operates in a scan event mode automatically mapped an incoming event to the TDO pin.

Abstract: An embedded microcontroller system comprises a central processing unit, a system controller for receiving and handling an interrupt, a register having storage locations containing sets of predefined system data for different operating conditions of the system assigned to the interrupts coupled to set a system configuration. The system data in the register is defined and stored before receipt of an interrupt. On receipt of an interrupt the system controller transmits a selection signal to the register. The register selects a predefined storage location assigned to the received interrupt. The corresponding system configuration data is used to control system configuration of the embedded microcontroller system, such as allocation of CPU time to virtual CPUs and selection of clock frequency or power voltage for modules.

Abstract: A method of protecting software for embedded applications against unauthorized access. Software to be protected is loaded into a protected memory area. Access to the protected memory area is controlled by sentinel logic circuitry. The sentinel logic circuitry allows access to the protected memory area from only either within the protected memory area or from outside of the protected memory area but through a dedicated memory location within the protected memory area. The dedicated memory location then points to protected address locations within the protected memory area.

Abstract: The network node includes a local crystal oscillator for providing a time reference derived from the clock signal produced by the local crystal oscillator, a reset stage for resetting the network node in response to a bus reset pulse received through the network and a control means for issuing a bus reset pulse of a predetermined length substantially greater than a clock period of the clock signal of the local crystal oscillator. Further the network node includes a bus reset detector for determining a length of the received bus reset pulse based on the local time reference. The bus reset detector in the network node is also adapted to adjust the local time reference based on the determined length of the received bus reset pulse.