An input output circuit and a self-biased circuit are provided. The self-biased circuit includes a tracking circuit, a biasing control circuit and first to fourth transistors. The tracking circuit receives a first power voltage, and generates a bias voltage according to variation of the first power voltage. The biasing control circuit generates a first control signal, a second control signal and a third control signal according to the first power voltage and a voltage on a pad. The first transistor is coupled to the pad and controlled by the first control signal. The second transistor is controlled by the second control signal to provide a bias voltage. The third transistor is coupled to the pad and controlled by the third control signal and generates a fourth control signal according to the voltage on the pad. The fourth transistor is controlled by the fourth control signal to generate the bias voltage.

Systems and methods relating to a programmable circuit. The programmable circuit includes multiple sectors. Each sector includes configurable functional blocks, configurable routing wires, configuration bits for storing configurations for the functional blocks and routing wires, and local control circuitry for interfacing with the configuration bits to configure the sector. The programmable circuit may include global control circuitry for interfacing with the local control circuitry to configure the sector. Each sector may be independently operable and/or operable in parallel with other sectors. Operating the programmable circuit may include using the local control circuitry to interface with the configurations bit and configure the sector. Additionally, operating the programmable circuit may include using the global control circuitry to interface with respective local control circuitry and configure the sector.

Systems and methods relating to a programmable circuit. The programmable circuit includes multiple sectors. Each sector includes configurable functional blocks, configurable routing wires, configuration bits for storing configurations for the functional blocks and routing wires, and local control circuitry for interfacing with the configuration bits to configure the sector. The programmable circuit may include global control circuitry for interfacing with the local control circuitry to configure the sector. Each sector may be independently operable and/or operable in parallel with other sectors. Operating the programmable circuit may include using the local control circuitry to interface with the configurations bit and configure the sector. Additionally, operating the programmable circuit may include using the global control circuitry to interface with respective local control circuitry and configure the sector.

Fault detection circuitry and a corresponding method are disclosed. A count value that is indicative of the switching period of a PWM signal is determined and it is determined whether this count value is between a first threshold and a second threshold. An error signal is generated when the switching period is not between the first and the second threshold. A count value that is indicative of the switch-on duration of the PWM signal is determined and compared with a switch-on threshold in order to determine whether the switch-on duration is greater than a maximum switch-on duration. A count value that is indicative of the switch-off duration of the PWM signal is determined and compared with a switch-off threshold in order to determine whether the switch-off duration is greater than a maximum switch-off duration. Error signals can be generated when the durations are greater than the maximum durations.

Fault detection circuitry and a corresponding method are disclosed. A count value that is indicative of the switching period of a PWM signal is determined and it is determined whether this count value is between a first threshold and a second threshold. An error signal is generated when the switching period is not between the first and the second threshold. A count value that is indicative of the switch-on duration of the PWM signal is determined and compared with a switch-on threshold in order to determine whether the switch-on duration is greater than a maximum switch-on duration. A count value that is indicative of the switch-off duration of the PWM signal is determined and compared with a switch-off threshold in order to determine whether the switch-off duration is greater than a maximum switch-off duration. Error signals can be generated when the durations are greater than the maximum durations.

A power distributor, in particular for an on-board network of a motor vehicle, has an intermediate tap, two power outputs, and one each switching unit for each power output. A switch is provided for a need-based blocking of the associated power output. Each of the switching units is designed in such a way that a blocking of the associated power output takes place, if, in the event a voltage drop at the associated power output and/or at the intermediate tap below a first setpoint value, an error case is determined. The greater the corresponding voltage drop, the faster the blocking of the associated power output takes place.

A low-voltage-differential-signaling (LVDS) fault detector includes first and second LVDS lines, and a window comparator provides a first output indicating whether a difference between voltages at the first and second LVDS lines is greater than a threshold voltage, and a second output indicating whether a difference between the voltages at the second and first LVDS lines is greater than the threshold voltage. A charge circuit charges a capacitive node when either the first or second output is at a logic low, and discharges the capacitive node when neither the first nor second output is at a logic low. A Schmitt trigger generates a fault flag if charge on the capacitive node falls to a threshold.

Systems and methods relating to a programmable circuit. The programmable circuit includes multiple sectors. Each sector includes configurable functional blocks, configurable routing wires, configuration bits for storing configurations for the functional blocks and routing wires, and local control circuitry for interfacing with the configuration bits to configure the sector. The programmable circuit may include global control circuitry for interfacing with the local control circuitry to configure the sector. Each sector may be independently operable and/or operable in parallel with other sectors. Operating the programmable circuit may include using the local control circuitry to interface with the configurations bit and configure the sector. Additionally, operating the programmable circuit may include using the global control circuitry to interface with respective local control circuitry and configure the sector.

Systems and methods relating to a programmable circuit. The programmable circuit includes multiple sectors. Each sector includes configurable functional blocks, configurable routing wires, configuration bits for storing configurations for the functional blocks and routing wires, and local control circuitry for interfacing with the configuration bits to configure the sector. The programmable circuit may include global control circuitry for interfacing with the local control circuitry to configure the sector. Each sector may be independently operable and/or operable in parallel with other sectors. Operating the programmable circuit may include using the local control circuitry to interface with the configurations bit and configure the sector. Additionally, operating the programmable circuit may include using the global control circuitry to interface with respective local control circuitry and configure the sector.

Digital values obtained from an output of a preceding circuit element are temporarily stored and made available for a subsequent circuit element at a controlled moment of time. A digital value is received for temporary storage, as well as a triggering signal, a triggering edge of which defines an allowable time limit before which a digital value must appear at said data input to become available for said subsequent circuit element. A sequence of first and second pulse-enabled subregister stages is used to temporarily store said digital value. Said triggering signal is provided to said first pulse-enabled subregister stage delayed with respect to the triggering signal received by said second pulse-enabled subregister stage. The length of the delay is a fraction of a cycle of the triggering signal. A timing event observation signal is output as an indicator of said digital value at said data input having changed within a time window that begins at said allowable time limit and is shorter than one cycle of said triggering signal.