Abstract: The optical pointing device of the present invention comprises a base and an actuator movable connected to the base, wherein the actuator comprises a reflective portion on a side facing the base, and wherein the base comprises a light source for emitting light towards the reflective portion of the actuator, a detector comprising one of more detection units for detecting at least a part of the light reflected by the reflective portion of the actuator, and a transparent element arranged between the actuator and at least one of the light source and the detection units, for providing a closed transparent housing for the light source and/or the detection units.

Abstract: A method of determining a GPS position fix is disclosed together with a corresponding GPS receiver and server for the same. The method comprising the steps of: (i) providing standard GPS ephemeris corresponding to that transmitted by a GPS satellite; (ii) providing supplemental GPS ephemeris including at least one parameter describing the fluctuation over time of at least one satellite orbit parameter of standard GPS ephemeris; (iii) measuring psuedoranges to GPS satellites; and (iv) determining a GPS position fix from both the standard and supplemental GPS ephemeris provided in steps (i) and (ii) respectively and the psuedoranges measured in step (iii).

Abstract: The subject matter hereof relates to error detection. Various example embodiments for error defection are disclosed. In an example method of error detection in a Module UnderTest (MUT), a parity signal representing the parity of an MUT output is compared to a parity signal representing the parity of an errorless MUT output. In an example system, an Actual Parity Generator provides a parity signal representing the parity of on MUT output, a State Parity Generator provides a parity signal representing the parity of an errorless MUT output, and a comparator compares these two parity signals.

Abstract: Presented is an integrated circuit packaged at the wafer level wafer (also referred to as a wafer level chip scale package, WLCSP), and a method of manufacturing the same. The WLCSP comprises a die having an electrically conductive redistribution layer, RDL, formed above the upper surface of the die, the RDL defining a signal routing circuit. The method comprises the steps of: depositing the electrically conductive RDL so as to form an electrically conductive ring surrounding the signal routing circuit; and coating the side and lower surfaces of the die with an electrically conductive shielding material.

Abstract: The integrated circuit (10) has an internal power supply domain with a power supply voltage adaptation circuit (14) to adapt the power supply voltage in the power supply domain. Typically, a plurality of such domains is provided wherein the power supply voltage can be adapted independently. During testing an internal power supply voltage is supplied to a temporally integrating analog to digital conversion circuit (16) in the integrating circuit (10). A temporally integrated value of the power supply voltage is measured during a measurement period. Preferably, integrating measurements of a plurality of internal supply voltages are performed in parallel during the same measurement time interval. Preferably a further test is performed by changing over between mutually different supply voltages during a further measurement period. In this way the measured integrated supply voltage can be used to check the speed of the change over between the different voltages.

Abstract: In one embodiment, a semiconductor is provided comprising a substrate and a plurality of wiring layers and dielectric layers formed on the substrate, the wiring layers implementing a circuit. The dielectric layers separate adjacent ones of the plurality of wiring layers. A first passivation layer is formed on the plurality of wiring layers. A first contact pad is formed in the layer and connected to the contact pad. A through silicon via (TSV) is formed through the substrate, the plurality of wiring and dielectric layers, and the passivation layer. The TSV is electrically connected to the wire formed on the passivation layer. The TSV is electrically isolated from the wiring layers except for the connection provided by the metal wire formed on the passivation layer.

Abstract: An integrated circuit and a method of making the same. The integrated circuit includes a semiconductor substrate having a major surface. The integrated circuit also includes a thermal conductivity based gas sensor having an electrically resistive sensor element located on the major surface for exposure to a gas to be sensed. The integrated circuit further includes a barrier located on the major surface for inhibiting a flow of the gas across the sensor element.

Abstract: A method of operating a switched-mode power supply (SMPS) for supplying power to a load circuit, which draws a supply current that varies with an input signal to the load circuit is disclosed. The method comprises monitoring the input signal and controlling the amount of accumulated energy transferred for consumption by the load circuit, in use, in accordance with the input signal.

Abstract: An LED driver design has a single controller used to drive multiple strings of LEDs. In one aspect there is dynamic threshold voltage setting so that the individual characteristics of the LED strings can be taken into account in the voltage control loop. In another aspect, excess energy is dissipated off-chip in a dedicated heat dissipater, and the routing of current to the heat dissipater is controlled dynamically such that a desired integrated circuit biasing remains stable.

Abstract: Presented is radio frequency antenna circuit for portable and/or compact electronic devices. Embodiments comprise an antenna connected to an unbalanced current feeding arrangement. The unbalanced feeding arrangement may generate common mode currents which increase the overall radiation resistance and efficiency of the antenna circuit.

Abstract: A method of driving current from an AC power supply through a series arrangement of a varying number of strings of LEDs is disclosed, the method comprising, adding LED strings to the series arrangement in a first order during an increasing voltage part of a cycle of the AC power supply cycle and subsequently removing LED strings from the series arrangement in a second order s during a decreasing voltage part of the cycle, wherein the second order is not the reverse of the first order. A driver for operating such a method is also disclosed, as is an IC embodying such a driver.

Abstract: Various embodiments relate to a method of determining the presence of a spread spectrum signal, including: receiving N input samples of a signal; performing a first autocorrelation on the N input samples with a first offset; performing a second autocorrelation on the N input samples with a second offset; performing a third autocorrelation on the N input samples with a third offset; performing a fourth autocorrelation on the N input samples with a fourth offset; performing a fifth autocorrelation on the N input samples with a fifth offset; determining if the values of the first, second, and third autocorrelations are decreasing, and determining if the values of the fourth and fifth autocorrelations are less than a threshold value, then determining that a spread spectrum signal is present in the N input samples.

Abstract: A microphone circuit has a clip detection circuit which detects when an analogue to digital converter output has reached a threshold. A variable attenuator is controlled based on the clip detection circuit output. The feedback is thus based on the ADC output level, and the processing of this signal can be implemented without requiring baseband processing of the signal—it can simply be based on a state of the ADC output. An overrule function is also provided so that the clip detection AGC control can be inhibited or controlled differently.

Abstract: In the field of cryptography there is a need to reduce the time taken to cryptographically transform data text while maintaining the low memory requirements associated with conventional square-and-multiply modular exponentiation. A method of cryptographically transforming data text c comprises the step of generating an integer representation m of the data text c according to m=cd where d is a predetermined exponent. The step of generating the integer representation m includes generating a sequence of intermediate numbers, each intermediate number being based on two or fewer earlier numbers in the sequence. Generating a sequence of intermediate numbers includes retrieving a pre-stored instruction to determine which two or fewer earlier numbers in the sequence a given intermediate number is based on and the functional manipulation of the or each earlier number required to generate the given intermediate number.

Abstract: A MEMS device comprises first and second opposing electrode arrangements (22,28), wherein the second electrode arrangement (28) is electrically movable to vary the electrode spacing between facing sides of the first and second electrode arrangements. At least one of the facing sides has a non-flat surface with at least one peak and at least one trough. The height of the peak and depth of the trough is between 0.01t and 0.1t where t is the thickness of the movable electrode.

Abstract: A magnetic field sensor assembly (401a, 401b) for measuring an angular direction (?) of a sensed magnetic field (Happl) relative to the assembly, the sensor assembly comprising: a sensor (404a, 404b) of a first type configured to sense an orientation of the sensed magnetic field; a sensor (402, 406) of a second type configured to measure an orientation and a direction of the sensed magnetic field; and processing circuitry (403, 405) connected to each of the magnetic field sensors, the processing circuitry being configured to process output signals from the sensor of the first type to determine an uncorrected sensed magnetic field angle and to apply an offset angle to the uncorrected magnetic field angle dependent on a logical combination of signs of output signals from the sensors of the first and second types.

Abstract: A memory cell, the memory cell comprising a substrate, a nanowire extending along a vertical trench formed in the substrate, a control gate surrounding the nanowire, and a charge storage structure formed between the control gate and the nanowire.

Abstract: A loudspeaker drive circuit has a microphone which forms part of an acoustic echo cancellation system. An input signal is processed before application to a loudspeaker driver, and the processing is controlled in dependence on the echo cancellation system performance, such as to control the extent to which the loudspeaker is driven into a non-linear operating region. In this way, the linearity can be controlled so as to provide an excursion limit, without needing a model of the loudspeaker or additional dedicated sensors.

Abstract: There is described a device (100) for communicating with RFID-tags, the device (100) comprising (a) an antenna unit comprising a first antenna (110; 200) and a second antenna (120; 200), and (b) a controller (130) connected to the antenna unit. The controller (130) is adapted to sequentially feed different polling signals to the antenna unit such that corresponding signals are individually and simultaneously radiated by each of the first antenna (110; 200) and second antenna (120; 200). There is also described a home appliance comprising the aforementioned device (100). Furthermore, there is described a method for communicating with RFID-tags by an antenna unit comprising a first antenna (110; 200) and a second antenna (120; 200). The described method comprises sequentially feeding different polling signals to the antenna unit such that corresponding signals are individually radiated by each of the first antenna (110; 200) and second antenna (120; 200).

Abstract: A loudspeaker amplifier drive circuit performs analysis of various signals relating to the input and output of the amplifier such that the characteristics and/or diagnostics of a loudspeaker driven by the amplifier can be derived. These are then presented as outputs, so that different circuitry can make use of the information for audio signal processing.