Abstract: Apparatus and methods for reducing input bias current of electronic circuits are provided herein. In certain implementations, an electronic circuit includes a first input terminal, a second input terminal, an input circuit, and a plurality of input switches including at least a first input switch and a second input switch. The first input switch is electrically connected between the first input terminal and a first input of the input circuit, the second input switch is electrically connected between the second input terminal and a second input of the input circuit, and the first and second input switches can be opened and closed using a clock signal. The electronic circuit further includes a charge compensation circuit for compensating for charge injection through the first and second input switches during transitions of the clock signal.

Abstract: A current detection module capable of differentiating and quantifying contribution to a current signal generated by a sensor in response to stimulation by a certain target source from contributions from sources other than the target source (ambient sources) is disclosed. As long as the contribution from the target source comprises a pulsed signal, the module may synchronize itself to the pulse(s) so that there is a predetermined phase relationship between the pulse(s) and functions carried out by various stages of the module. The module may be re-used to also detect and quantify contributions from ambient sources by presenting these contributions to the module as pulses that trigger synchronization of the module. To that end, a detection system disclosed herein is based on the use of such current detection module and allows mode switching where, depending on the selected mode of operation, the module is configured to perform different measurements.

Abstract: Improved mechanisms for applying noise-shaped segmentation techniques in a multi-bit DAC are disclosed. Noise-shaped segmentation refers to constructing two or more noise-shaped signals whose sum equals the original digital input signal by splitting each word of the input signal into two or more sub-words and converting each sub-word by a respective sub-word DAC group. Disclosed mechanisms include determining a range of amplitudes of a portion of the input signal over a certain time period, and, when converting digital words of that portion to analog values, limiting the number of sub-word DAC groups which are used for the conversion only to a number that is necessary for generating an analog output corresponding to the portion being evaluated, which number is determined based on the tracked amplitudes and could be smaller than the total number of sub-word DAC groups. Placing unused sub-word DAC groups into a power saving mode reduces power consumption.

Abstract: Provided herein are apparatus and methods for single phase spot circuits. In certain implementations, a single phase spot circuit propagates a spot from input to output in response to a clock edge of a single phase clock signal. The single phase spot circuit holds the spot for about one clock cycle, thereby providing higher maximum operating frequency relative to multiphase spot circuits that hold a spot for about half of a clock cycle. Two or more single phase spot circuits can be electrically connected in a ring to operate as a spot divider. The single phase spot circuits can be used to advance a spot, represented using either a one or a zero, from one spot circuit to the next in response to a clock edge. In certain implementations, as the spot advances, a single phase spot circuit clears the spot from its input via a feedback element.

Abstract: A wireless network power distribution and data aggregation system, along with associated applications, is disclosed. An exemplary system for wirelessly transmitting power to radio frequency (RF) energy harvesting sensor nodes of a wireless network system includes a pyramid-structured antenna array for wirelessly powering RF energy harvesting sensor nodes within a defined coverage area of the wireless network system. The pyramid-structured antenna array generates a radiation pattern from an orthogonal spread-spectrum signal that minimizes destructive interference between adjacent antennas of the antenna array. Each antenna of the antenna array can wirelessly transmit power to a respective sector of the defined coverage are.

Abstract: A digital sine wave may be converted to an analog signal at a digital to analog converter (DAC). The converted analog signal may be supplied to a device and an analog return signal from the device may be passed through a relaxed anti-aliasing filter and converted to digital code words at an analog to digital converter (ADC). An impedance may be calculated from the results of a Fourier analysis of the digital code words. The ADC and DAC clock frequencies may be asynchronous, independently variable, and have a greatest common factor of 1. The clock frequencies of the ADC and/or DAC may be adjusted to change a location of images in the ADC spectrum. By using these different, adjustable clock frequencies for the ADC and the DAC, an analog signal may have increased aliasing without introducing signal errors at a frequency of interest.

Abstract: An integrated device package is disclosed. The package can include a package substrate comprising a composite die pad having an upper surface and a lower surface spaced from the upper surface along a vertical direction. The composite die pad can include an insulator die pad and a metal die pad. The insulator die pad and the metal die pad can be disposed adjacent one another along the vertical direction. The substrate can include a plurality of leads disposed about at least a portion of a perimeter of the composite die pad. An integrated device die can be mounted on the upper surface of the composite die pad.

Abstract: Apparatus and methods to increase the range of a signal processing circuit. A system uses floating bias circuits coupled to a signal processing circuit to increase the range of power supplies that can be used with the signal processing circuit, while maintaining the components of the signal processing circuit within a breakdown voltage threshold. As the voltage level of the data signal varies, the voltage level of the floating bias circuits varies as well.

Abstract: Aspects of this disclosure relate to an amplifier with at least two chopper amplifier channels in parallel between a shared input and differential nodes. The amplifier can multiplex outputs of the chopper amplifier channels to provide the output of one or more chopper amplifier channels to the differential nodes at a time. In certain embodiments, this can mask dynamic settling errors.

Abstract: Disclosed herein are systems and techniques for slave-to-slave communication in a multi-node, daisy-chained network. Slave nodes may provide or receive upstream or downstream data directly to/from other slave nodes, without the need for data slots first to route through the master node.

Abstract: A method for generating a Fast Fourier Transform (FFT) is disclosed. The method includes providing an input signal to two or more fixed-point FFT algorithms that apply different scaling to reduce growth of their output, resulting in each of the FFT algorithms yielding an array of FFT output values characterized by a different gain. The method further includes determining, on a per-FFT output value basis, whether an output value of an FFT algorithm with a relatively high gain was clipped due to saturation. If not, then the output value of that FFT algorithm is included in the final FFT. Otherwise, an output value of an FFT algorithm with a lower gain is included in the final FFT. Reconstructing the final FFT by such combination of values from different FFTs allows benefiting from the advantages of both higher- and lower-gain FFTs while avoiding or minimizing their disadvantages.

Abstract: Disclosed herein are systems and techniques for general purpose input/output (GPIO)-to-GPIO communication in a multi-node, daisy-chained network. In some embodiments, a transceiver may support GPIO between multiple nodes, without host intervention after initial programming. In some such embodiments, the host may be required only for initial setup of the virtual ports. In some embodiments, GPIO pins can be inputs (which may change virtual ports) or outputs (which may reflect virtual ports). In some embodiments, multiple virtual ports may be mapped to one GPIO output pin (with the values OR'ed together, for example). In some embodiments, multiple GPIO input pins may be mapped to one virtual port. For example, multiple GPIO input pin values may be OR'ed together, even if they come from multiple nodes.

Abstract: Disclosed herein are systems and methods for clock sustain in a two-wire communication systems and applications thereof. In some embodiments, in a clock sustain state, slave nodes with processors and digital to analog converters (DACs) may be powered down efficiently in the event of lost bus communication. For example, when the bus loses communication and a reliable clock cannot be recovered by the slave node, the slave node may enter the sustain state and, if enabled, signals this event to a general purpose input/output (GPIO) pin. In the clock sustain state, the slave node phase lock loop (PLL) may continue to run for a predetermined number of SYNC periods, while attenuating the inter-integrated circuit transmit (I2S DTXn) data from its current value to 0. After the predetermined number of SYNC periods, the slave node may reset and reenter a power-up state.

Abstract: Disclosed herein are envelope detectors with high input impedance, and related methods and systems. In some embodiments, an envelope detector with high input impedance may include: a swinging stage including first, second, and third transistors, wherein the third transistor and an active transistor are arranged as a differential pair, the first transistor is the active transistor when an input to the envelope detector is positive, and the second transistor is the active transistor when the input to the envelope detector is negative; and a feedback circuit, coupled to the swinging stage, to provide an output signal representative of a rectification of the input.

Abstract: Metal cases are increasingly in popularity in electronics such as smart phones, tablets, portable speakers, etc., since the look and feel of a metal case are appealing to the consumer. Unfortunately, the metal case is generally incompatible traditional capacitive sensing electrodes, which are usually provided on a printed circuit board or flex circuit and are only usable with plastic cases. To provide capacitive sensing with a metal case, a specialized material stack can be fabricated to embed capacitive sensors with the metal case. Specifically, a conductor (a conductive pad, or conductive layer) can be deposited over an oxide layer formed on the metal case (e.g., through anodization). An outer coating can be provided to protect the conductor. A further conductor and dielectric can be included in the material stack to form a double layer capacitive sensor.

Abstract: Various embodiments of switched amplifiers are disclosed herein. In some embodiments, a switched amplifier may include a first amplifier; a second amplifier; an input matching network common to both the first and second amplifiers; and at least one switch to couple an input of the switched amplifier, via the input matching network, to one of the first amplifier or the second amplifier. In some embodiments, a switched amplifier may include a first amplifier; a second amplifier; an input matching network common to both the first and second amplifiers or an output matching network common to both the first and second amplifiers; and a bias generation circuit to selectively (1) provide a first bias current to the first amplifier or (2) provide a second bias current to the second amplifier, wherein the second bias current is less than the first bias current.

Abstract: A system and device for verifying the integrity of a system from its subcomponents, the system comprising a plurality of subcomponents each having a physical state, the system and the device comprising a processor that is connected to each of the subcomponents, the processor configured to verify systemic integrity by performing verification on some or all specified subcomponents. The verification may be individual (1,1) or threshold (n,1), and may be interactive or non-interactive.

Abstract: During operation of a SAR ADC, it is possible to exceed the voltage limits of a comparator by presenting voltages at the comparator input that exceed a limited range of acceptable input voltages. The present disclosure provides a system and method such as for delivering a common mode compensation voltage such that voltages present at the comparator inputs can be within the limited range of acceptable input voltages.

Abstract: An integrated optical sensor module includes an optical sensor die having an optical sensing area on its first surface, and an application-specific integrated circuit (ASIC) die arranged over the first surface of the optical sensor die. A hole in the ASIC die is at least partially aligned with the optical sensing area such that at least some of the light passing through the hole may contact the optical sensing area. The hole through the ASIC die can be configured to receive an optical fiber, lens structure, or other optical element therein.

Abstract: For analog-to-digital converters (ADCs) which utilize a feedback digital-to-analog converter (DAC) for conversion, the final analog output can be affected or distorted by errors of the feedback DAC. A digital measurement technique can be implemented to determine switching mismatch error for the feedback DAC in a continuous-time delta-sigma modulator (CTDSM) or in a continuous-time pipeline modulator. The methodology forces each DAC unit elements (UEs) to switch a certain amount times and then use the modulator itself to measure the errors caused by those switching activities respectively. The obtained errors can be stored in a look-up table and fully corrected in digital domain or analog domain.