Abstract: The present document relates to a method and system for dimming low power illumination devices, such as LED (Light Emitting Diode) assemblies. A controller for a driver circuit of a light source is described. The driver circuit controls a plurality of illumination states of the light source using a power converter, which converts power from an input voltage waveform of a mains power supply into a drive signal for the light source. The controller comprises an event detection unit; a state register to store an indication of a current state of the illumination states; a state processor to determine a target state of the illumination states, based on the detected event and based on the current state; and an output control unit controls the power converter of the driver circuit to provide a drive signal for the target state.

Abstract: Disclosed are systems and methods to achieve a low noise, fully differential amplifier with controlled common mode voltages at each stage output but without the requirement of a common mode feedback loop. Common mode voltages are adjusted by adjusting the currents flowing through the load impedances (bias currents) wherein the currents are derived from one or more voltage-to-current converters based on an impedance that matches to the load impedances of the stages of the amplifier. The amplifier invented is primarily used for amplification of low frequency signals. The amplifier has one or more gain stages applying only one conduction type of transistors of an IC technology that has the lowest transition frequency between 1/f noise and white noise to achieve a low chopping or autozeroing frequency.

Abstract: The present document relates to linear regulators or linear voltage regulators configured to provide a constant output voltage. In particular, the present document relates to driver circuits of low-dropout (LDO) regulators. A driver circuit (300) for driving a pass device (201) of a linear regulator (120) is described. The driver circuit (300) comprises a driver stage (110) adapted to regulate a driver gate (220) for connecting to the gate of the pass device (201); wherein the driver stage (110) comprises a transistor diode (210) having the driver gate (220); and a feedback transistor (305) having a source and a drain coupled to a source and drain of the transistor diode (210); wherein a feedback voltage at the gate of the feedback transistor (305) is regulated based on the output current of the pass device (201).

Abstract: A fault-tolerant controller for a lighting system comprising: a plurality of light emitting diode (LED) circuits and a controllable power source to power the plurality of LED circuits. The controller comprising a minimum voltage selector to determine a minimum voltage from a plurality of feedback voltages, one feedback voltage for each of the plurality of LED circuits. A control logic to regulate the drive voltage for the LEDs; and an overvoltage warning mechanism to determine an overvoltage of the drive voltage. The controller identifies one or more open-circuit conditions, one for each LED circuit, for which the respective feedback voltage is below an open-circuit threshold, and which causes the minimum voltage selector to exclude one or more respective feedback voltages associated with the LED circuits which have an open-circuit condition.

Abstract: A variable gain analog amplifier is described that uses pulse-density modulation in the form of a sigma-delta modulator (SDM) to produce a gain by modulating the selection of a switch that selects the amount of resistance in a negative feedback loop of the amplifier. The output of the SDM is dithered to increase the gain resolution of the analog amplifier, wherein the increased resolution produces a quiet, inaudible transition between changes in gain setting at an output of the variable gain amplifier and in addition produces a quiet, inaudible mixing and merging of audio signals..

Abstract: Systems and methods to achieve a digital audio interface having automatic rate detection and tracking of digital audio streams have been achieved. The system comprises a digital controller working in conjunction with an analog phase-locked loop (PLL). It removes the need to know or communicate in advance the rate at which the interface will be operating, so allowing asynchronous switching between different audio streams. The digital controller acts as a phase-lock loop by modifying the feedback divide ratio of the PLL in order to minimize the phase error between the device clock and an arbitrary audio interface clock.

Abstract: A trim DAC wherein the digital input bits to the trim DAC are controlled by a state machine to produce an analog output that is within a least significant bit of the digital input bits. An undersize factor between digital input bits is used to assist in finding a trim solution for major transitions of the digital input bits. Trim solutions are stored in a nonvolatile memory associated with the state machine to be used in creating an accurate analog output.

Abstract: Circuits and methods for dynamic adjustment of the current limit of a power management unit to avoid unwanted automatic interruption of the power flow have been disclosed. The power management unit is automatically adjusted to the output resistance of a power source (including interconnect resistance). The invention maximizes the time and hence the power transferred from a power management unit to the system (including the battery, in case of battery operated systems). The input current is reduced thus increasing the input voltage in case of a high voltage drop across the internal resistance including interconnections between power source and power management unit.

Abstract: A startup circuit for starting up a self-supplied voltage regulator which initiates startup by applying a voltage from a voltage supply to the startup circuit thus causing a voltage at an output node to rise. This rise will start the operation of the differential amplifier of the voltage regulator. When the voltage at the output node has reached the desired final output voltage, the startup circuit disconnects from the voltage regulator. The criterion for switching off the startup circuit is determined by a comparator which compares the output current capability of the voltage regulator with its output current plus the startup current. Inputs to the differential amplifier, such as the reference voltage, derive their power from the output node.

Abstract: A circuit for a flat panel display includes an image data storage and processing block, a display and timing controller block, an image pixel matrix containing a multitude of row and column arranged pixel elements, one or more controlled row and column driver blocks, and a tagged multi line addressing (TMLA) pixel element display operation. That TMLA operation comprises a decomposition of image data by searching all lines of an image for groups of identical lines by tagging each of these lines with a unique code and thus decomposes image data into multi line and single line domain data in such a way, that lines with matching tags, indicating their common and identical contents, are outputted as image data into related groups of the multi line domain with no left over residual image data and thus the related groups in the single line domain data are all zeroes.

Abstract: A tracking analog-to-digital converter “ADC” with a self-controlled variable clock comprises: a digital register; a digital-to-analog converter “DAC” coupled to said digital register providing an analog feedback signal; a comparator coupled to an analog input signal and said analog feedback signal and providing a comparison signal based on a comparison between said analog input signal and said analog feedback signal, said comparison signal being coupled to the digital register; a means for determining comparator readiness to determine if said comparator is ready, indicating that said comparison signal can be reliably read, said means for determining comparator readiness further comprising a determination of a comparison ready indicator; a means for clocking to generate a clock signal to drive said digital register in response to said means for determining comparator readiness determining that said comparator is ready; and said digital register being configured to count in response to said clock signal based o

Abstract: A low dropout voltage regulator comprising a first output voltage regulation loop with a NMOS transistor as a pass element and a second output voltage regulation loop with a PMOS transistor as a pass element. The NMOS transistor is used for small current loads up to 1 mA, the PMOS transistor is used for higher current loads from 1 mA and up. A current sense buffer senses the current through the NMOS transistor and controls the gate of the PMOS transistor accordingly. Good load transient operation is achieved without the need of an external load capacitor.

Abstract: Circuits and methods for power efficient generation of supply voltages and currents in an integrated circuit by reducing the power consumption of all core analog circuit blocks by a pulsed operation mode are disclosed. In a preferred embodiment of the invention the invention has been applied to a power management chip. Pulsed Mode of Operation of ALL core analog blocks—internal LDO/s, VREF an IBIAS generators, results in significantly reduced power consumption. New circuit realizations and control algorithms to improve the ON/OFF ratio of the Pulsed Mode Operation yield in better power efficiency. Innovative circuit implementation consisting of an additional Top Up Buffer Amplifier stage ensures a fast recharge of VREF output, thus allowing shorter ON times and respectively even better power efficiency. Bypassing a low bandwidth and slow to start LDO with a fast Bypass Comparator supplies a LDO rail in Pulsed Mode of operation.

Abstract: A variable gain amplifier device (100) with improved gain resolution is achieved. The device includes a programmable gain amplifier (PGA) (110), an analog-to-digital converter (ADC) (160), an automatic level control (ALC) algorithm means (176), and a delta-sigma modulator (180). The PGA (110) is capable to receive and to amplify an analog input signal (154) to thereby generate an analog output signal (164). The PGA (110) includes an amplifier (160) and a switchable resistor network (120). The ADC (170) is coupled to the PGA (110) and is capable to convert the analog output signal (164) to a digital signal (174). The ALC algorithm means (176) is coupled to the ADC (170) and is capable to generate a control code (178) by processing the digital signal (174). The delta-sigma modulator (186) is coupled to the ALC algorithm means (186) and is capable to generate a pulse-density modulated (PDM) signal (182) by processing the control code (178).

Abstract: A summing-tracking quantizer additively combines multiple feed-forward outputs of cascaded integrator stages of a sigma-delta analog-to-digital converter with a scaled sampled analog signal, and a delayed scaled analog input signal. The summing tracking quantizer compensates for loop delay within a sigma-delta analog-to-digital converter. A loop delay compensation digital-to-analog converter for a sigma-delta analog-to-digital converter is merged with the voltage reference generator within the summing-tracking quantizer. The summing tracking quantizer selects reference voltages from the voltage reference generator based on a previous digital output code. The summing-tracking quantizer has a matrix switch that receives the previous digital output code and selects the reference voltage for applying to comparators for determining a differential quantization code that is additively combined to the previous digital output code to determine the present digital output code.

Abstract: Systems and methods to achieve a circuit for driving one or more infrared transmitter LEDs with temperature compensation have been disclosed. In a preferred embodiment of the invention the circuit has been applied for a rain sensing system. The junction temperature of the LED is measured and compensated by adjusting the driver current of a voltage-to-current converter driving the LED. The LED junction temperature is measured by comparing the difference in the forward diode voltage at different current densities. This voltage difference is extracted when switching the drive currents between different constant values. The measurement results are converted to digital values, which are used by a buffered dual ladder resistive DAC structure to adjust the drive current to temperature variations.

Abstract: An audio device (200) includes a first and second ICs (210) and (250) and a substrate (205). The first IC includes a sigma-delta, A/D converter (218) operable to convert an analog signal (234) into a pulse density modulated signal (236). A pulse density width modulator encoder (222) is operable to encode the PDM signal into a PDWM signal (244). The PDWM has short and long pulse widths defining first and second bit levels. The leading edges of each pulse bounds each pulse period. The second IC (250) includes a means (254) to receive the PDWM signal, an edge detector (304) operable to detect the leading pulse edges of the PDWM signal, a time-averaging circuit (308) operable to calculate each pulse period from the leading pulse edges and to generate a sample pulse (120) at near the midpoint of each pulse period, and a latch (312) operable to sample and hold the PDWM signal at the sample pulse to decode a PDM signal (278).

Abstract: Systems and methods to achieve a startup circuit of bandgap voltage reference generator circuits monitoring a current flow in the bandgap voltage reference generator circuit have been achieved. The startup circuit can operate at supply voltages of about one threshold voltage and is therefore appropriate for low voltage applications. The monitoring of a current through an electrical component inside the bandgap voltage reference generator circuit by replication the component branch in a scaled version saves power and does not disturb the normal operation of the current-mode bandgap voltage reference generator. The startup circuit invented can be applied for current-mode bandgap voltage reference generator circuits as well as for voltage-mode bandgap voltage reference generator circuits.

Abstract: Circuits and methods to charge batteries of a portable device simultaneously with supplying power to the device for its operation, using a power source with limited maximum current, as e.g. an USB port, have been achieved. The system invented relies upon digital control only. No direct sensing of the current required for the operation of the portable device is required. The control takes care that the sum of the charging current and of the current to run the portable device does not exceed the maximum allowable current of the power source. The current required to run the portable device has precedence over the charging current.

Abstract: Systems and methods for switched-mode amplifiers having improved harmonic distortion are disclosed. High order in-band filtering is enabled without undue trade-off of distortion due to intermodulation/aliasing. A pre-modulation block is introduced, deployed between a loop filter block and a pulse-width modulation block, performing uniform pulse-width modulation. The pre-modulation block attenuates/removes amplitude dependent high frequency ripples before pulse-width modulation. The pre-modulation block in conjunction with the pulse-width modulation block performs double sampling of the input signals.