Abstract: A DC-DC converter has high-side power and low-side power transistors connected in series between supply terminals, an inductor connected between the power transistors and an output terminal. A comparator compares the output voltage with a reference voltage. A detector detects when inductor current approaches zero. A timer is configured to determine a minimum ON time of the high-side power transistor optimized for a particular value inductor. A current detector detects current flow in the back-gate diode of the low-side power transistor. timer is configured to determine an overriding ON time in response to the back-gate current detector. Logic provides control signals to gate power transistors in response to the comparator and the longer one of the minimum ON time and the overriding ON time. The minimum ON time for the high-side power transistor is adjusted in response to the actual inductance of the inductor.

Abstract: An electronic device and method for half duplex data transmission in a long range keyless entry and go system, and more specifically to an RFID transponder, a corresponding read/write (R/W) unit and methods for operating the RFID transponder and the R/W-unit. There is a first coil, a second coil and a third coil, being arranged as a three-dimensional antenna, a first capacitor, a second capacitor and a third capacitor couplable in parallel to the first coil, the second coil and the third coil, respectively, for selectively forming a first, a second and a third parallel-resonant circuit for receiving radio signals, a series-resonant circuit for transmitting radio signals and a control stage configured to either use one of the first, second or third parallel-resonant circuits for receiving radio signals or the series-resonant circuit for transmitting signals.

Abstract: An electronic device is provided, which includes a current supplying stage which is adapted to supply a first compensation current and a second compensation current to a first wire or a second wire, wherein the first compensation current is determined during a first clock period, when the first wire and the second wire are connected. The second compensation current is determined during a second clock period while the first wire and the second wire are not connected and the magnitude of the second current represents a ratio of a resistance value of the first wire and a resistance value of the second wire.

Abstract: An electronic device comprising a level shifter for performing a voltage shift of a low level input signal of a first voltage domain to a high level output signal of a second voltage domain, the level shifter having a high-side transistor in series with a low-side transistor so as to provide an output node between the channel of the high-side transistor and the channel of the low-side transistor for driving a load with the high level output signal of the second voltage domain. The level shifter being configured to have a first state in which the high-side transistor is conducting and the low-side transistor is not conducting, a second state in which the low-side transistor is conducting and the high-side transistor is not conducting and a third state in which the high-side transistor is not conducting and the low-side transistor is not conducting.

Abstract: An electronic device controlling a frequency modulation index has a frequency modulation index control loop having an input adapted to be connected to a frequency output of a frequency controllable oscillator. The oscillator has a center frequency Fc and an output adapted to be connected to an input of a frequency-modulation unit, the modulation index control loop being adapted to determine the modulation index. Further provided is a method of frequency-modulating with a modulation frequency Fm a non-linear controllable oscillator having a center frequency Fc with a constant modulation index.

Abstract: An electronic device comprising a first supply voltage domain, a second supply voltage domain and a low drop output voltage regulator (LDO) coupled to receive a supply voltage of the first supply voltage domain and to provide a supply voltage of the second supply voltage domain and the LDO being configured to be switched into a first state for providing and maintaining the supply voltage of the second supply voltage domain and into a second state for providing a high impedance output to the second supply voltage domain. The electronic device includes a comparator coupled to monitor the first supply voltage level at a first supply voltage node and to switch the LDO from the first state to the second state.

Abstract: A load current sensing circuit for sensing a DC-DC converter load current in a DC-DC converter comprising a high-side power transistor and a low-side power transistor connected in series between supply terminals and having a converter switching node therebetween coupled to an inductor to which a load is to be coupled. A first averaging stage determines a DC voltage component of the PWM signal and a second averaging stage determines a DC component of the voltage signal at the converter switching node. A comparison stage determines a difference voltage between the first averaging stage and the second averaging stage. An impedance replica stage forms a resistance which is proportional to the resistance of the series-connected power transistors. A measuring stage measures a current flowing through the impedance replica stage with the determined difference voltage applied.

Abstract: The invention relates to an electronic device and a method for DC-DC-conversion. The electronic device includes energizing switch and a commutating switch coupled at a switching node. The switching node is configured to be coupled to an inductor. The electronic device is configured to repeatedly suspend the regular synchronous switching of the commutating switch during a load detection period, to sense the voltage at the output node during the load detection period and to determine a high-load condition or a light-load condition of the DC-DC-conversion based on the sensed voltage at the output node.

Abstract: An acquisition device and corresponding method for operating the acquisition system are provided. Generally, during operation a plurality of input signals are filtered and multiplexed. The multiplexed input signals are then applied to an amplifier stage; however, when a clamping condition for the amplifier stage occurs, a buffer is switched into a signal path between a multiplexer and an amplifier stage so as to generally reduce the current draw on the input filters.

Abstract: A level shifter for use in LCD display applications is provided which includes a group of separate channels each with a signal input and a signal output and with channel control circuitry supporting gate voltage shaping for improving image quality. The level shifter further has a number of flicker clock inputs. The channel control circuitry of each particular channel in the group comprises logic circuitry combining all of said flicker clock inputs with the signal input of the particular channel and signal inputs form other channels into a gate voltage shaping enable signal for the control circuitry of the particular channel. With this configuration it is possible to use the same level shifter IC with only one flicker clock signal for all phases, regardless of how many, without the need for an additional synchronization signal, or multiple flicker clock signals as is conventional.

Abstract: An electronic device for driving a power switch coupled to receive a first supply voltage level at one side of its channel is provided. The electronic device includes a control switch coupled with a first side of a channel to receive a varying control voltage having a maximum level that is greater than a maximum voltage level of the first voltage supply and with another side of the channel to a control gate of the power switch for selectively applying the control voltage to the control gate of the power switch. The first side of the channel is coupled with the control gate of the control switch and a capacitor is provided and coupled with a first side to the control gate of the control switch and with a second side to a constant voltage supply.

Abstract: Various apparatuses, methods and systems for boosting an amplifier slew rate are disclosed herein. For example, some embodiments of the present invention provide an apparatus including a pair of inputs connected to a pair of differential input devices in an amplifier, a current source, a first current path connected to the current source, a second current path connected to the current source and to the pair of differential input devices, a switch in the first current path, and a voltage difference signal connected between the pair of inputs and the switch. The voltage difference signal represents the voltage difference between the pair of inputs. The conductance of the switch is inversely proportional to the voltage difference signal.

Abstract: The device comprises a successive approximation register, a capacitive digital-to-analog converter comprising a plurality of capacitors, the plurality of capacitors being coupled with a first side to a common node; a comparator coupled to the common node and being adapted to make bit decisions by comparing a voltage at the common node with another voltage level, and a SAR control stage for providing a digital code representing a conversion result. The device is configured to operate in a calibration mode, where the device is configured to sample a reference voltage on a first capacitor of the plurality of capacitors by coupling one side of the first capacitor to the reference voltage, to perform a regular conversion cycle with at least those capacitors of the plurality of capacitors having lower significance than the first capacitor and to provide the conversion result of the regular conversion cycle for calibrating the first capacitor.

Abstract: A phase locked loop (PLL) is provided. The PLL includes a control stage comprising N storage elements each having an output coupled to the output of the control stage. The N storage elements being coupled in a chain, and each storage element being configurable in an analog mode, where a stored signal at the storage node of the storage element is changed continuously in response to the output signal of a charge pump. Each storage element is configurable in a digital mode in which the stored value is one value out of a predetermined set of values, and the storage element can assume the analog mode if a preceding storage element and a subsequent storage element are in the digital mode and have different values of the stored signal.

Abstract: Conventional current sharing circuits, which can be used in drivers for liquid crystal displays (LCDs), for example, often use bipolar transistors. However, bipolar transistors are not available in many CMOS processes. Thus, a current sharing circuit is provided here that employs CMOS transistors. In particular, the circuit provided here uses a current mirror and pass circuit to assist in providing this current sharing function.

Abstract: A self-timed multiplier unit includes a multiplier and a clock generator. The multiplier has a first set of semiconductor circuits in a critical path. The clock generator has a second set of semiconductor circuits configured to control a clock period of said clock generator selected to set a clock period longer than the propagation delay through the critical path of the multiplier. The clock generator may include a delay circuit having a delay to set the clock period longer than the propagation delay through the critical path of said multiplier. The clock generator uses circuit with identical logical design including the same standard cells, the same logic design or the same floor plan. Close matching of these circuit causes the multiplier and the clock generator to experience the same PVT speed variations.

Abstract: An electronic device comprising an amplifier having at least a first input transistor of a first doping type. A first transistor is coupled with a channel as a feedback path between an output of the amplifier and a control gate of the first input transistor forming an input of the amplifier. A diode-coupled second transistor is coupled with a channel between a first current source and the output of the amplifier wherein a control gate of the first transistor is coupled between the first current source and the diode-coupled second transistor and the first transistor is of a second doping type which is opposite to the first doping type of the first input transistor of the amplifier.

Abstract: Generally, displays, like liquid crystal displays (LCDs), use a DC-free addressing voltage in order to prevent decomposition of the display. Here, an integrated circuit (IC) is provided that compensates for temperature dependencies. This IC typically uses a thermistor or temperature varying element to measure the temperature of the display and adjusts the common reference voltage in response to the measured temperature.

Abstract: A method and device for writing a binary count of a length n to a memory having a limited number of write cycles, a physical storage location of bits (R-bits) of the count in the memory are periodically changed, fixed bits of the count are stored at fixed physical storage locations, and a bit value pattern of the fixed bits is used as an indicator for the physical storage locations of the changing bits (R-bits).

Abstract: An electronic device is provided which comprises circuitry for DC-DC conversion configured to switch an inductor current through an inductor using slope compensation, wherein the circuitry comprises a slope compensation stage configured to generate a slope compensation signal as a function of an switching frequency of the DC-DC conversion and an input voltage of the DC-DC converter.