Abstract: A method for a device for determining the location of a mobile transmitting device using a two phase time difference of arrival method and to a system using such a device are presented. There is a first radio node for calculating a location of a third radio node, for receiving, from the third radio node, a first ranging signal and for calculating, based on the first ranging signal, a first ranging parameter. The first radio node receives, from a second radio node, a second ranging signal, transmits to the second radio node a third ranging signal, calculates a phase offset between the first and second radio nodes based on the second and third ranging signals, and calculates a distance between the first and third radio nodes based on the phase offset between the first and second radio nodes based on the first ranging parameter.

Abstract: A signal generator and a method which provides a source signal with a coherent phase at arbitrary times is presented. There is provided a signal generator for generating a source signal based on a reference signal. The signal generator has a phase setting circuit with a memory circuit operable between a plurality of states. The memory circuit has a phase setting input adapted to receive a phase setting value to set the memory circuit to a known state. The signal generator is adapted to load the phase setting value at a specific time to control a phase of the source signal.

Abstract: A low power signal generator and a method for generating at least one source signal based on a reference signal having a reference frequency is presented. The signal generator has a divider circuit having a resonant frequency. The generator has an adjuster adapted to adjust the resonant frequency. The divider circuit has an input to receive the reference signal and an output for providing the source signal. The divider circuit is adapted to divide the reference frequency of the reference signal by a coefficient, such that the source signal has a source frequency that is less than the reference frequency.

Abstract: A method of communication in a Bluetooth Low Energy network is presented. The network has a master device and a plurality of slave devices between a first slave device and a second slave device. The method steps include: sending from the master device to the first slave device a synchronisation delay parameter; and sending from the master device to the second slave device the synchronisation delay parameter and a relative offset parameter. At the second slave device, the method steps include determining a synchronisation time point by adding the relative offset parameter to the synchronisation delay parameter. At the synchronisation time point, the method steps include waking the first and second slave devices and sending a communication from the first slave device to the second slave device.

Abstract: A quantizer and a method for a sigma-delta modulator circuit that may be used as a component within an adaptive-noise cancelling headphone are presented. An apparatus includes a quantizer to receive an input signal with successive input values and quantizes the input signal at discrete intervals. This is done by mapping the input value of the input signal at each interval to one of a plurality of quantization levels with three or more quantization levels that are non-uniformly spaced. The plurality of quantization levels has a first portion with two or more quantization levels having the same sign and being proportional to a first fraction having one as its numerator and two to a power of a first variable as its denominator, the first variable being an integer and having a different value for each of the two or more quantization levels of the first portion.

Abstract: A radio frequency input/output circuit with a composite inductor structure is presented. The composite inductor structure has a plurality of inductors that are interwound. The composite inductor structure is implemented on a chip. The plurality of inductors are magnetically coupled. The plurality of inductors are interwound around a core. A second inductor is coupled in series with a first inductor and the first inductor is coupled in series with the third inductor. The first inductor and the third inductor are coupled at a centre tap, such that the first inductor and the third inductor form a centre-tapped coil. The centre tap is coupled to an input terminal.

Abstract: A voltage regulator and a method for generating a retention voltage for a RAM cell that is sufficiently high to prevent data loss, while minimizing leakage currents are presented. The A voltage regulator is used for generating at least one voltage. The regulator contains mirror circuitry, a leakage device coupled to the mirror circuitry, and a first resistive device coupled to the mirror circuitry via a first output node. The mirror circuitry mirrors a leakage current from the leakage device to the first resistive device, and the leakage current contributes to the generation of a first reference voltage at the first output node.

Abstract: A digital filter and a method for filtering a pulse density modulation (PDM) signal are presented. The digital filter has a first filter circuit to receive an input signal with input values at successive time steps to provide a filtered input signal with filtered values at successive time steps. The digital filter does not require sample-rate or data format conversions. Also, the digital filter is area and power efficient when implemented in hardware. Optionally, the digital filter has a sigma-delta modulator including the quantiser, the sigma-delta modulator being used to receive the filtered input signal and to process the filtered input signal before and/or after being quantised by the quantiser. This digital filter does not require sample-rate or data format conversions. This digital filter is area and power efficient when implemented in hardware.

Abstract: A frequency divider unit to receive an oscillating signal and to update, at an output of the frequency divider unit, a frequency-divided oscillating signal is presented. The frequency divider unit has a first clocked signal inverter to update, clocked based on the oscillating signal, a first intermediate signal at an output of the first clocked signal inverter. The frequency divider unit has a second clocked signal inverter, wherein the output of the first clocked signal inverter may be connected to an input of the second clocked signal inverter, and wherein the second clocked signal inverter updates, clocked based on the oscillating signal, a second intermediate signal at an output of the second clocked signal inverter. The frequency divider unit has a continuously operating signal inverter coupled between the output of the second clocked signal inverter and the input of the first clocked signal inverter.

Abstract: An apparatus for monitoring a physiological parameter over a plurality of measurement periods is presented. The apparatus includes a circuit coupled to a light emitter and to a light receiver. The circuit is adapted to drive the light emitter with a constant first charge over the plurality of measurement periods. Also presented is a wearable device provided with an apparatus for monitoring a physiological parameter over a plurality of measurement periods. Also presented is a method for monitoring a physiological parameter over a plurality of measurement periods, the steps include providing a light emitter and a light receiver and driving the light emitter with a constant first charge over the plurality of measurement periods.

Abstract: A signal processor and a method for processing an input signal are presented. The signal processor is adapted to clip an oversampled input signal without introducing noise in the frequency band of interest. For instance, the signal processor may be used for clipping an acoustic signal. The signal processor includes a summer coupled to a limiter and to a feedback circuit. The summer is adapted to sum the input signal with at least one feedback signal to provide an adjusted signal. The limiter is adapted to compare the adjusted signal with a first threshold value and a second threshold value to provide a limited signal. The feedback circuit is adapted to calculate a difference between the limited signal and the adjusted signal, and to generate at least one feedback signal based on the difference.

Abstract: A method of determining a distance between a first and a second device in a wireless data exchange protocol is presented. The method includes sending an advertising channel Protocol Data Unit (PDU) from the first device; receiving the advertising channel PDU at the second device and responsively sending a scan request scanning PDU from the second device to the first device; receiving the scan request scanning PDU at the first device and responsively sending a scan response scanning PDU from the first device to the second device; calculating a time of flight (TOF) for at least one of the sent PDUs; and determining the distance between the first and second devices using the calculated TOF.

Abstract: An electronic biasing circuit provides a DC bias voltage to a circuit to be biased. The biasing circuit has a first transistor and a second transistor. A gate of the first transistor is connected to a gate of the second transistor and supplies the DC bias voltage. A source of the first transistor is connected to a supply reference voltage. A source of the second transistor is connected to the supply reference voltage via a resistor element. The currents flowing through the first and second transistor are forced to be equal. A third transistor is connected in series with the first transistor and a fourth transistor is connected in series with the second transistor. Currents flowing through the third and fourth transistors are forced to be equal.

Abstract: A bias generator and a method for generating a bias voltage are presented. The bias generator is for use with an electronic circuit comprising a first switch coupled in series with a second switch. The bias generator is adapted to generate a reference voltage, a first bias voltage, and a second bias voltage. The second bias voltage is based on the reference voltage. After applying the first voltage to the first switch and the second voltage to the second switch, the bias generator controls a voltage across the first switch. The bias generator may be adapted to set a value of the reference voltage to control the voltage across the first switch. For instance, the reference voltage may be set to a fix value so that the voltage across the first switch is maintained at a constant value.

Abstract: A fast start-up oscillator circuit to reduce a start-up time of a crystal oscillator is presented. The circuit contains a crystal resonator to output a first oscillation signal and a tunable RC oscillator to output a second oscillation signal. A driver is coupled between the tunable RC oscillator and the crystal resonator The driver transfers the second oscillation signal output from the tunable RC oscillator to the crystal resonator. The driver drives the crystal resonator, and a feedback circuit connected between the crystal resonator and the tunable RC oscillator to align a phase of the tunable RC oscillator with a phase of the crystal resonator based on the oscillation signal output by the crystal resonator.

Abstract: An inductor arrangement has a first inductor structure having one or more inductors at least partially on a first layer and a second inductor structure having one or more inductors at least partially on a second layer. The inductors are arranged such that currents induced by an external magnetic field are substantially cancelled in at least one of the first inductor structure and the second inductor structure. The, or each, inductor of the second inductor structure overlaps, at least partially, the, or each, inductor of the first inductor structure. An oscillator circuit having an inductor arrangement is also presented.

Abstract: An auto-calibrated current sensing comparator is provided. A secondary dynamic comparator shares the same inputs and acts to adjust a calibration control of the current sensing comparator. The calibration control may be in the form of adjusting the offset of the current sensing comparator or adjusting a propagation delay that is added to its output.

Abstract: A sigma-delta modulator and method for converting an input voltage such as an analog signal into a digital signal is presented. The modulator may be used as an analog-to-digital converter (ADC). The modulator has a plurality of bias transistors with at least one p-type transistor and at least one n-type transistor. The modulator receives a bias voltage, wherein each bias transistor receives the same bias voltage. This sigma-delta modulator results in reduced power consumption.

Abstract: There is provided a signal generator and associated method for generating a source signal. The signal generator includes a frequency generator for providing an oscillating signal, a phase comparator, a first phase modulator, a second phase modulator and a phase shifter. The phase comparator is adapted to compare a phase signal with a feedback signal and to generate an error signal to control the phase of the oscillating signal. The first and second phase modulators are adapted to provide a first phase control word and a second phase control word respectively. The phase shifter is adapted to modulate the oscillating signal based on the second phase control word to generate the source signal. The source signal comprises the feedback signal.

Abstract: A method of establishing a low latency connection between a first device and a second device on a wireless network is presented. The method contains the steps of: forming a first wireless connection between the first and second devices; forming at least a second and parallel wireless connection between the first and second devices; and sending data between the first and second devices using at least the first and second connections. For any wireless protocol for data exchange between devices that specifies a minimum interval between data exchange events, the present disclosure enables a lower latency than would otherwise be achievable according to a standard protocol.