Abstract: An integrated circuit includes a set of electronic circuits, a voltage regulator, and a power management module. The power management module includes a set of dummy circuits connected to the set of electronic circuits, a control signal generator, a counter and a shift register. The control signal generator generates a control signal based on the current consumption of the set of electronic circuits dropping below a threshold value over a predefined period of time. The counter generates a count signal for a predetermined time period when the control signal is activated. The shift register receives the count signal, enables the dummy circuits when the count signal is received, and disables the dummy circuits in a daisy chain fashion during the predetermined time period.

Abstract: A power management circuit for managing power supplied to an electronic circuit by a core power supply. The electronic circuit includes digital and analog circuit domains and operates in POWER-ON, RUN and STANDBY modes. The power management circuit includes a master state machine that exchanges a handshake signal with the analog circuit domain to monitor the modes of operation and generates first and second configuration signals. The power management circuit enables and disables the analog circuit domain based on the first and second configuration signals. A switch connected to the core power supply and the digital circuit module enables and disables the digital circuit domain based on the second configuration signal.

Abstract: A system and method for verifying the electrical behavior of a liquid crystal display (LCD) driver circuit connected to LCD segments of an electronic circuit includes generating test patterns for verifying the LCD driver circuit. The LCD driver circuit generates LCD stimuli in the form of electrical current based on the test patterns. The current is applied to front and back planes of each LCD segment. Root mean square (RMS) voltages of each LCD segment are determined and compared with predetermined threshold values to verify the state of each LCD segment.

Abstract: A digital logic controller for regulating a voltage of a SoC includes a first input for receiving a reference signal having a first property that is constant over a range of operating conditions of the SoC, and a second input for receiving a second signal that has a second property that is indicative of an operating condition of the SoC. The second property may vary over a range of operating conditions of the SoC. A comparator compares the first and second properties and the digital logic controller, based on the comparison, outputs to a regulation signal to a voltage regulator to regulate the voltage of the SoC at or near a target voltage that is higher than a minimum operating voltage of the SoC.

Abstract: A method for verifying power management of an integrated circuit design includes estimating a current load requirement of clocked modules in the circuit design based on the clock frequency and a predefined current load model. The voltage supplied to the circuit design is monitored. A first voltage regulator provides additional current drive to the circuit design when the supplied voltage drops below a threshold value of a full throttle run mode of the circuit design. A second voltage regulator is enabled to boost a response time of the first voltage regulator when the voltage drops below the threshold value.

Abstract: A power management circuit for managing power supplied to an electronic circuit by a core power supply. The electronic circuit includes digital and analog circuit domains and operates in POWER-ON, RUN and STANDBY modes. The power management circuit includes a master state machine that exchanges a handshake signal with the analog circuit domain to monitor the modes of operation and generates first and second configuration signals. The power management circuit enables and disables the analog circuit domain based on the first and second configuration signals. A switch connected to the core power supply and the digital circuit module enables and disables the digital circuit domain based on the second configuration signal.

Abstract: A method for verifying power management of an integrated circuit design includes estimating a current load requirement of clocked modules in the circuit design based on the clock frequency and a predefined current load model. The voltage supplied to the circuit design is monitored. A first voltage regulator provides additional current drive to the circuit design when the supplied voltage drops below a threshold value of a full throttle run mode of the circuit design. A second voltage regulator is enabled to boost a response time of the first voltage regulator when the voltage drops below the threshold value.

Abstract: A semiconductor device having a low power mode includes a buffer circuit associated with an interface pad, a power management controller (PMC), and a wakeup unit for waking up a part of the device from the low power mode. The buffer circuit is disabled in the low power mode by asserting a power on reset (POR) signal associated with the PMC. A wakeup signal is generated and provided to the wakeup unit from an analog power supply associated with the buffer circuit.

Abstract: An analog-to-digital converter (ADC) converts an analog input signal to a digital output signal by sampling an analog input signal to obtain an analog sample and then converting the analog sample to the digital output signal using a successive approximation algorithm. The method decreases ADC conversion time and increases ADC throughput.

Abstract: A digital logic controller for regulating a voltage of a SoC includes a first input for receiving a reference signal having a first property that is constant over a range of operating conditions of the SoC, and a second input for receiving a second signal that has a second property that is indicative of an operating condition of the SoC. The second property may vary over a range of operating conditions of the SoC. A comparator compares the first and second properties and the digital logic controller, based on the comparison, outputs to a regulation signal to a voltage regulator to regulate the voltage of the SoC at or near a target voltage that is higher than a minimum operating voltage of the SoC.

Abstract: A semiconductor device having a low power mode includes a buffer circuit associated with an interface pad, a power management controller (PMC), and a wakeup unit for waking up a part of the device from the low power mode. The buffer circuit is disabled in the low power mode by asserting a power on reset (POR) signal associated with the PMC. A wakeup signal is generated and provided to the wakeup unit from an analog power supply associated with the buffer circuit.

Abstract: A power switch for an integrated circuit provides a stepped profile supply potential. A supply potential generation block generates the stepped profile output supply to control the ramp rate of the output in order to prevent a false trigger of electrostatic discharge at the pads of the integrated circuit.

Abstract: A method and system for power supply management in an integrated chip selectively manages the power supplied to the various circuits within the integrated circuit. The integrated circuit includes a combinational logic block, a memory block, a power supply block, and a control block. The power supply block includes multiple power regulators for generating power supply potentials of various magnitudes. The control block receives a power down signal, a clock disable signal, and a temperature threshold signal, and generates control signals for controlling the magnitude of the potential of the power supplied to the combinational logic block and the memory block by the power supply block.

Abstract: A power switch for an integrated circuit provides a stepped profile supply potential. A supply potential generation block generates the stepped profile output supply to control the ramp rate of the output in order to prevent a false trigger of electrostatic discharge at the pads of the integrated circuit.

Abstract: A flip-flop circuit with an internal level shifter includes an input stage, a clock input stage, an output stage and a level shifting stage. The output stage generates an output signal based on an input signal received by the input stage and a clock signal received by the clock input stage. The level shifting stage shifts-up the voltage level of the output signal.

Abstract: A lock detector circuit for detecting a lock condition between a reference signal and a feedback signal includes a first counter for outputting a first counter value indicative of a number of clock cycles of the reference signal, and a second counter for outputting a second counter value indicative of a number of clock cycles of the feedback signal. An asynchronous comparator receives the first and second counter values and provides an output signal having a pulse width that is proportional to the difference between the first and second counter values. A pulse width detector receives the comparator output signal and produces an output signal that is indicative of the relationship between the pulse width of the comparator output signal and a predetermined threshold value. A state machine controls the state of at least one lock indication signal according to the pulse width detector output signal.

Abstract: A method and system for power supply management in an integrated chip selectively manages the power supplied to the various circuits within the integrated circuit. The integrated circuit includes a combinational logic block, a memory block, a power supply block, and a control block. The power supply block includes multiple power regulators for generating power supply potentials of various magnitudes. The control block receives a power down signal, a clock disable signal, and a temperature threshold signal, and generates control signals for controlling the magnitude of the potential of the power supplied to the combinational logic block and the memory block by the power supply block.

Abstract: The present invention provides a method of coating at least one surface of a substrate comprising the step of applying a coating comprising fibres onto the at least one surface of the substrate, wherein upon application of the coating on the at least one surface of the substrate, the surface exhibits hydrophilicity or greater hydrophilicity compared to an uncoated surface. The present invention also provides a coating for coating at least one surface of a substrate, wherein the coating comprises fibres, and wherein a surface coated with the coating exhibits hydrophilicity or greater hydrophilicity compared to an uncoated surface. The anti-wetting coating may have a high degree of transparency.

Abstract: A flip-flop circuit with an internal level shifter includes an input stage, a clock input stage, an output stage and a level shifting stage. The output stage generates an output signal based on an input signal received by the input stage and a clock signal received by the clock input stage. The level shifting stage shifts-up the voltage level of the output signal.

Abstract: A flip-flop circuit with an internal level shifter includes an input stage, a clock input stage, an output stage and a level shifting stage. The output stage generates an output signal based on an input signal received by the input stage and a clock signal received by the clock input stage. The level shifting stage shifts-up the voltage level of the output signal.