Abstract: A first plug connector module of a plug connector for substantially simultaneously connecting a plurality of electrical contacts between a test signal generator and a measurement card of a handling fixture which delivers elements to be tested to the measurement card. The plug connector module is characterized in that it has an element that is rotatable about an axis of rotation and has, coupled to the rotatable element, a receptacle that accommodates a mating part of a second plug connector module and that is displaced in translation upon rotation of the element relative to the first plug connector module, wherein the translational motion occurs perpendicular to the axis of rotation.
Abstract: A security device for a transponder with a kill and/or cloak function is provided. The security device includes a memory device, in which a first, open password is stored, an input, into which a second, secret password is coupled, a cryptologic device, which is connected to the input and generates a checksum from the second password, and a comparison unit, which compares the checksum and the first password and which upon an agreement generates a kill and/or cloak control instruction to activate and/or deactivate a kill and/or cloak mechanism, which can be tapped at an output. A method for configuring a security device and a method for operating a transponder, and a transponder having the security device are also provided.
Abstract: An integrated circuit on a semiconductor chip is provided with a first bipolar transistor and a second bipolar transistor. The first bipolar transistor has a first collector region of a first conductivity type, grown by at least one epitaxial layer, and the second bipolar transistor has a second collector region of this first conductivity type grown by this epitaxial layer. The first collector region also has a first collector drift zone, and the second collector region has a second collector drift zone. Whereby, the first collector drift zone is shortened as compared to the second collector drift zone by partial etching of the epitaxial layer.
Abstract: A method and circuit arrangement is provided for load modulation in a receiving oscillator circuit, which can be mutually coupled with a transmitting oscillator circuit, having at least one inductance, at least one capacitance, and at least one controllable impedance. The controllable impedance can have at least one depletion layer element and at least one ohmic resistance.
Abstract: A circuit arrangement for load regulation of circuit components is arranged in a receive path of a transponder, having an input path through which a first voltage signal can be tapped, having a voltage sensor arranged in the input path for measuring the first voltage signal, having at least one output path through which a discharge current signal can be tapped, having at least one controllable auxiliary current source arranged between the input path and the output path to provide the at least one discharge current signal, the control side of the auxiliary current source being connected to an output of the voltage sensor such that the value of the discharge current signal increases exponentially with increasing voltage of the first voltage signal.
Abstract: Time signals for controlling a radio clock are transmitted by a transmitter and received by a receiver as amplitude modulated time signals, formed of a multitude of time frames. Each time frame has a constant duration. These time signals are first automatically amplified. A so-called telegram of at least one received time signal is stored in a memory. At least one change of an amplitude of a time signal is determined in advance or predetermined and such amplitude change has a duration that is longer than a given or determined duration (?t). When a predetermined amplitude change begins the automatic amplification is locked-in. The present circuit arrangement for operating a radio-controlled clock is equipped with components for performing the foregoing operations.
Type:
Grant
Filed:
January 28, 2005
Date of Patent:
January 8, 2008
Assignees:
ATMEL Germany GmbH, C-Max Europe GmbH
Inventors:
Horst Haefner, Roland Polonio, Hans-Joachim Sailer
Abstract: An integrated multisensor, in particular for use in an internal combustion engine of a motor vehicle is provided. The multisensor includes at least one pressure/temperature sensor, at least one magnetic field sensor, and a plurality of insulating wells, wherein a separate insulating well encloses each pressure/temperature sensor or magnetic field sensor such that the sensors are each electrically and mechanically decoupled from one another.
Abstract: A method and device for frequency conversion is disclosed in which a first signal with a first frequency is converted into a second frequency through mixing with a divided oscillator signal and wherein the frequency of the divided oscillator signal stands in a fractional rational ratio to the frequency of the undivided oscillator signal. The method is characterized in that the oscillator signal is divided such that an average value of the divided oscillator signal over time corresponds to half the separation between the extreme values of the divided oscillator signal.
Abstract: In a method for selecting, by a base station, one or more transponders out of a plurality of transponders, selection steps are performed at least at two selection levels or stages. The base station controls all selection steps at the first and second level. The first selection level includes: each transponder generates a random transponder number, the base station generates numbered time slots, each transponder transmits a marker if and when its random transponder number coincides with a time slot number. When a single transponder random number coincides with a time slot number the respective transponder is selected by the base station. If more than one transponder random numbers coincide with a time slot number the second selection procedure is performed at a second selection level as a stochastic or a deterministic or a mixed stochastic-deterministic selection procedure.
Abstract: A component for the transmission of electromagnetic waves and a method for producing such a component is provided, whereby conductors of a coplanar waveguide system are embedded in a membrane such that they are at least partially suspended across a back-etched area of the substrate for the decoupling of the conductors from the substrate (1). An additional substrate is connected to the bottom side of the back-etched area of the substrate in such a way that a hollow cavity is formed.
Abstract: Noise impulses are suppressed in a signal processing circuit by gating an input signal. The gated signal is then smoothed upstream of demodulating the smoothed signal as viewed in a signal flow direction from a signal input to a processed signal output. The signal processing circuit system includes at least a signal gating section followed by a signal smoothing section followed by a demodulating section in that order and as viewed in the signal flow direction. Thus, smoothing takes place prior to demodulation.
Type:
Grant
Filed:
September 10, 2004
Date of Patent:
October 23, 2007
Assignee:
Atmel Germany GmbH
Inventors:
Leo Friesen, Reimund Rebel, Martin Siegle
Abstract: A method for constructing passive devices on a substrate and a device is provided that is fabricated in accordance with the a method. The method includes the steps of: forming a plurality of grooves on a surface of the substrate by using an anisotropic etching procedure to enlarge a surface area of the substrate; forming an insulating layer at least in the plurality of grooves; and a structured metallization at least in the plurality of grooves for constructing the device above the insulating layer such that for a maximum integration density, the passive device is essentially constructed to extend through the plurality of grooves.
Abstract: An amplifier array includes a servo amplifier, which has a reference signal input, a return signal input, and an output signal connection, which supplies an output signal path, a reference signal generator, which supplies reference signals with different level heights to the reference signal input, and with a return, which supplies a signal, attenuated by a value of the feedback attenuation, from the output path as a return signal to the return signal input, whereby the servo amplifier supplies an amplified difference between the reference signal and return signal in the output signal path. The amplifier array has a connectable bypass gain path, which in the connected state is supplied phase-coupled to the reference signal generator and which supplies a bypass output signal in the output path.
Type:
Grant
Filed:
December 23, 2005
Date of Patent:
October 9, 2007
Assignee:
Atmel Germany GmbH
Inventors:
Knut Brenndoerfer, Karl-Josef Gropper, Udo Karthaus, Herbert Knotz, Stefan Schabel
Abstract: In known methods for the transmission of data, the data transmission rate is reduced by bit errors especially at high carrier frequencies. In the new method, the data transmission rate can be significantly increased due to the increased reliability in the data transmission by means of the integration of a test signal.
Abstract: A circuit arrangement for generating oscillations with a defined frequency includes an oscillator circuit (30, 32) for generating the oscillations and a dedamping circuit (18, 20) connected to the oscillator circuit for compensating any damping of the oscillator circuit. The dedamping or damping compensation by the dedamping circuit is accomplished with the aid of a rectifier circuit (60, 62). The dedamping circuit is a bridge circuit of CMOS field effect transistors (22, 24; 26, 28) which are controlled in their operation in closed loop fashion by respective rectifier circuit branches which are in turn connected to the oscillator circuit to provide a proportional closed loop control of the damping compensation.
Abstract: A voltage (UE1, UE2), other than a supply voltage (UV1, UV2), is monitored and controlled to avoid damage to circuit components by maintaining a required voltage level. Dissipation power losses are reduced by switching off a monitoring circuit when monitoring is not required. For this purpose a stepped down voltage is derived from the voltage to be monitored at a tap (N1) of a voltage divider connected between ground potential and the voltage to be monitored. The derived voltage is then evaluated, for example by comparing with a reference voltage. A controllable switch is connected in series with two voltage divider elements. The switch is controlled to open for switching off the voltage divider when monitoring is not needed. The switch is closed to activate the voltage divider when monitoring is needed.
Abstract: Semiconductor array, with an element region (400), with a conductive substrate (100), with a buried insulation layer (200), which isolates the element region (400) from the conductive substrate (100), with at least one trench (700), which is filled with an insulation material (710) and which isolates at least one element (1000) in the element region (400) from other elements in the element region (400), with an electrical conductor (750), which is connected conductively to the conductive substrate (100), wherein the electrical conductor (750) is disposed within the trench (700) isolated by the insulation material (710), and wherein the trench (700) is formed within a recess (600) in a surface. Furthermore, a method for manufacturing a semiconductor array is provided.
Type:
Application
Filed:
September 28, 2006
Publication date:
July 19, 2007
Applicant:
ATMEL Germany GmbH
Inventors:
Tobias Florian, Michael Graf, Stefan Schwantes
Abstract: In a method for interference suppression using a quality-adjustable bandpass filter in a receiver circuit for carrier-modulated received signals (SIN), the bandpass filtered received signal (Bout) is demodulated, and a switching process is triggered with the demodulated received signal (Dout). In order to eliminate internal or self-induced interferences that would be caused by a switching process in the output portion of the receiver, a quality reduction of the bandpass filter is correlated with the switching process that causes the interference. The method is especially suitable in connection with circuits for infrared receivers, which can thereby be manufactured in a small size, without external components, and thus economically.
Abstract: A MOS transistor, and a method for producing the same, is provided with a source region, a gate-region, a drain region, and a drift region in an SOI wafer. The SOI-wafer has a carrier layer, which carries an insulating intermediate layer, and whereby the insulating intermediate layer carries an active semiconductor layer, in which laterally different doping material concentrations define the source region, the drift region, and the drain region. Whereby, the active semiconductor layer, at least in a portion of the drift region, is thicker than in the source region. The MOS transistor is characterized in that the active semiconductor layer, in a vertical direction, is completely separated by the insulating intermediate layer from the carrier layer.
Abstract: A portable data exchange device including a data input, a data output, and a memory is incorporated into a mechanical or electronic key that is required for operating a motor vehicle. The data exchange device can exchange data bi-directionally or uni-directionally with a data processing device in the vehicle and with an external input/output terminal. The data may include vehicle-specific and/or driver-specific data relating to various systems of the vehicle. The data are transmitted to and from the device in the key in a wireless or direct-contacting manner. This device incorporated in the key avoids the need for carrying a separate data unit for exchanging data between the on-board data processing device of the vehicle and the external input/output terminal.