Abstract: A combined I/Q DAC is provided with a plurality of sources corresponding to a plurality of selectors in which the corresponding source drives the corresponding selector with a source signal to produce a corresponding pair of in-phase and quadrature-phase analog input signals to a summation network. Each selector routes its source signal responsive to a digital value of a corresponding in-phase and quadrature-phase bit pair.

Abstract: A combined I/Q DAC is provided with a plurality of sources corresponding to a plurality of selectors in which the corresponding source drives the corresponding selector with a source signal to produce a corresponding pair of in-phase and quadrature-phase analog input signals to a summation network. Each selector routes its source signal responsive to a digital value of a corresponding in-phase and quadrature-phase bit pair.

Abstract: A switching mixer array is disclosed for the mixing of a digital LO signal with an analog input signal. Each switching mixer in the array is configured to assume either a first switching state or second switching state responsive to a respective bit of the digital LO signal.

Abstract: A switching mixer array is disclosed for the mixing of a digital LO signal with an analog input signal. Each switching mixer in the array is configured to assume either a first switching state or second switching state responsive to a respective bit of the digital LO signal.

Abstract: Methods and USB devices correlating clock domains are presented. A USB device includes at least one signal line adapted to carry signals in a first clock domain. The signals are received from a USB host. A clock operates a second clock domain. A periodic packet detection circuit detects a missing periodic packet from the signals received in the first clock domain. A device controller correlates a USB operation in the second clock domain with the first clock domain based on the periodic packet detection circuit detecting the missing periodic packet. A USB device includes at least one signal line carrying UTMI or ULPI signaling. A USB controller decodes packet identification from the UTMI or ULPI signaling. A periodic packet detection circuit, separate from the USB controller, decodes packet identification from the UTMI or ULPI signaling.

Abstract: System, methods and apparatus are described that relate to aligning timing of bi-directional, multi-stream I2S audio transmitted between IC devices, and to support audio streams that are digitized using multiple sampling rates.

Abstract: A system and method for pulse-width modulation (PWM) mismatch shaping. The method includes receiving a multi-bit pulse-code modulated (PCM) signal and generating a voltage ramp signal. The method includes generating a first corrected signal based on a first feedback signal and the multi-bit PCM signal. The method includes generating a first single-bit PWM signal based on the first corrected signal and the voltage ramp signal. The method includes delaying the voltage-ramp signal and generating a second corrected signal based on a second feedback signal and the multi-bit PCM signal. The method includes generating a second single-bit PWM signal based on the second corrected signal and the delayed voltage ramp signal and generating a multi-bit pulse-density modulation (PDM) signal based on the first single-bit PWM signal and the second single-bit PWM signal.

Abstract: A system and method for pulse-width modulation (PWM) mismatch shaping. The method includes receiving a multi-bit pulse-code modulated (PCM) signal and generating a voltage ramp signal. The method includes generating a first corrected signal based on a first feedback signal and the multi-bit PCM signal. The method includes generating a first single-bit PWM signal based on the first corrected signal and the voltage ramp signal. The method includes delaying the voltage-ramp signal and generating a second corrected signal based on a second feedback signal and the multi-bit PCM signal. The method includes generating a second single-bit PWM signal based on the second corrected signal and the delayed voltage ramp signal and generating a multi-bit pulse-density modulation (PDM) signal based on the first single-bit PWM signal and the second single-bit PWM signal.

Abstract: Disclosed are a circuit and a method for an analog-to-digital conversion with programmable resolution. The circuit includes a resistor ladder comprising a plurality of resistors coupled to a plurality of comparators; wherein the resistor ladder is further coupled to a switch logic circuit and a plurality of current sources; and wherein the switch logic circuit is configured to control an operation of a plurality of switches to alter conversion resolution of the ADC, and an error correction circuit coupled to the outputs of the plurality of comparators, wherein the ADC is configured to perform a first conversion step and a second conversion step, and wherein the ADC is configured to perform only the first conversion step when programmed for lower conversion accuracy and higher conversion speed.