Abstract: The invention relates to a method of imaging a sample with a scanning microscope and an imaging system for a scanning microscope, comprising the steps of: initiating an exposure phase of a detector (34) by a pulsed laser source (12); generating an optical image of the sample on the detector with a lens system (32); and terminating the exposure phase. According to the invention, the step of generating the optical image comprises a step of displacing the optical image on the detector with an image displacement means (40) between two consecutive laser pulses. The image displacement means comprise a rotatable mirror (40) situated on an optical path from the sample (26) to the detector (34).

Abstract: It is described an emitter (26, 40) for X-ray tubes comprising: a flat foil with an emitting section (30, 46); and at least two electrically conductive fixing sections (31-34; 41-44); wherein the emitting section (30, 46) is unstructured.

Abstract: The present invention relates to coupler device, processing apparatus and method of processing a plurality of body-coupled communication signals which have been detected by using an electrode arrangement with a plurality of electrodes or electrode segments (40, 42; 40, 43). Respective transmission parameters of the body-coupled communication signals are estimated and at least one of a selecting and weighting processing is applied to the detected body-coupled communication signals based on the estimated transmission parameters. Then, the processed body-coupled communication signals are combined to generate a diversity output signal. Thereby, robustness against coupler misplacement and user convenience is increased in body-coupled or body-based communication systems.

Abstract: A nebulizer includes a piezoelectric transducer for aerosolizing a drug solution in a disposable cup module disposed above the transducer. Acoustic waves generated by the transducer propagate sequentially through transmitting medium, a first barrier, coupling medium, and a second barrier that forms part of the cup module, and into the interior of the cup module. The transducer at least partially comprises silver. The silver fluidly contacts the transmitting medium to discourage bacteria growth in the transmitting medium. The device includes electronics components that drive the transducer and measure an electrical characteristic associated with the transducer during operation. The electronics components measure changes in the electrical characteristic to determine when the drug solution level falls below a predetermined threshold, and deactivates the device accordingly.

Abstract: An orthogonal frequency division multiplexing (OFDM) multiband transmitter (200) adapted to perform multiple-subcarrier-joint-modulation (MSJM) precoding. The transmitter comprises a bit interleaver (220) for independently interleaving bit blocks and grouping bits of each interleaved bit block to bit groups; a symbol mapping unit (230) for mapping each of the bit groups to symbols according to a MSJM scheme; and a symbol interleaver (240) for allocating the symbols to data subcarriers of a plurality of consecutive OFDM symbols.

Abstract: The invention relates to a floor covering (100) comprising: a plurality of coils (110), each coil (110) being operable to supply inductive energy to a power receiver circuit (200); wherein the plurality of coils comprises a transmitter area occupying the largest area of the floor covering (100); and a charging current through the coils is operable to generate said inductive energy.

Abstract: The invention relates to an instrument, particularly a medical device for minimal invasive surgery, that comprises an inflatable balloon (104) to which at least one movable tool element (105) is attached. In preferred embodiments, the tool element is a filamentary flexible structure like a wire (105) or an optical fiber. Moreover, a plurality of such tool elements is preferably arranged circumferentially around the balloon (104) constituting for example a cage-like grab that can be opened or closed by inflating or deflating the balloon (104). Furthermore, pulling a cord attached to the balloon (104) additionally allows to change the balloon configuration.

Abstract: A device (100) for analysing a sample, the device (100) comprising a beam sensitive structure (101) adapted such that an electric property of a portion of the beam sensitive structure (101) is locally modified by a beam (102) impinging on the portion of the beam sensitive structure (101), and a sample accommodating unit (103) adapted for accommodating the sample, wherein the beam sensitive structure (101) and the sample accommodating unit (103) are arranged such that the local modification of the electric property of the portion of the beam sensitive structure (101) locally modifies the analysis of the sample in a corresponding portion of the sample accommodating unit (103), wherein the beam sensitive structure (101) comprises an organic photoconductor.

Abstract: A coder is fed with pre-coded data such that the absolute value of the RDS of the code words as produced by the coder is limited. This is achieved by ensuring that in a group of 2 code words the RDS of the first code word is compensated by the RDS of the second conde word. The RDS at the end of the second code word is then zero and the excursions of the RDS from the start of the first code word until the end of the second code word are limited because there are only a limited number of bits that can contribute to an increase of the absolute value of the RDS. This principle can easily be applied to the 17PP coder.

Abstract: A switching circuit arrangement includes a field effect transistor and circuitry for biasing the gate voltage of the field effect transistor, e.g., forcing the gate voltage of the field effect transistor under a certain threshold. Reverse recovery and gate bounce are simultaneously mitigated. The biasing circuitry includes a biasing diode connected in series to the gate of the field effect transistor to bias the gate voltage of the field effect transistor. A clamping field effect transistor unit is connected between the gate of the field effect transistor and the source of the field effect transistor to force the gate voltage of the field effect transistor under a certain threshold.

Abstract: In a magnetic resonance scanner, a main magnet (20, 22) generates a static magnetic field at least in an examination region. A magnetic field gradient system (30, 54) selectively superimposes magnetic field gradients on the static magnetic field at least in the examination region. A magnetic resonance excitation system (36, 36?) includes at least one radio frequency coil (30, 301, 302, 303) arranged to inject radio frequency B1 fields into the examination region and at least two radio frequency amplifiers (38, 40, 40?) coupled with different input ports of the at least one radio frequency coil. A controller (66, 70) controls the magnetic resonance excitation system to produce a time varying spatial B1 field distribution in a subject (16) in the examination region that time integrates to define a spatial tip angle distribution in the subject having reduced spatial non uniformity.

Abstract: The invention relates to a lamp having a light source (10) and a sub-assembly comprising a protective sleeve (1) and two frame members, wherein the two frame members (2, 3) are each supporting the sleeve. Each frame member may comprise a clamping spring, which serves as a connection between the frame member and the sleeve. The invention also relates particularly to a lamp with an outer vessel (45), which is a parabolic aluminized reflector, and a light source, which is a ceramic discharge metal halide burner.

Abstract: The present invention provides a light source generally comprising one or more edge emitting elements, each having a substantially same or similar emission spectrum, or respective emission spectra/colours, and a number of heat extractors thermally coupled thereto. Driving means are also provided to drive the edge emitting elements. Output optical means, such as reflectors, lenses, diffusers, collimators, filters and the like may also be included to collect, mix and/or redirect light emitted by the edge emitting elements to produce a desired optical effect. The light source may also comprise an optional control feedback system adapted to monitor an output of the light source and adjust the driving means and/or output optical means to maintain a desired or optimal output.

Abstract: A patient monitoring system (8) monitors physiological functions of a plurality of patients (12). Each clinician (10) and each patient (12) has an associated identification device (20, 22), which each includes an identification code corresponding to respective clinician and patient. Each identification device (20, 22) includes a respective body-coupled communication device (24, 26) for communicating the identification code to a medical device (14). The clinician (10) activates the medical device (14) which includes a body-coupled communication device (40) including an ID reader (42). The ID reader (42) scans the area to detect whether the clinician identification is present. After the clinician's identification code is read, the medical device (14) is ready to take measurements. The clinician (10) takes the medical device (14) to the patient (12). The ID reader (42) scans the area to detect the patient identification code.

Abstract: A lighting system control device charging system and method including a control device charged from a light source in a lighting system, including control photovoltaic cell 28 responsive to control light 46 from the light source and generating control charging power 44; a capacitor storing the control charging power 44 and generating control supply power 42; and a control microcontroller unit (MCU)/transceiver 24 powered by control supply power 42 and generating a communications signal 40 to the lighting system. The control microcontroller unit (MCU)/transceiver 24 monitors charge state of the capacitor and directs the lighting system to increase the control light 46 when the charge state is below a low charge setpoint.

Abstract: The actuator (10, 90) of a personal care appliance, such as a toothbrush (11), which includes a housing member (12), a double E shaped yoke assembly (14, 52) with two electrical coils (36, 38) wound around the opposing E shaped sections. An armature (28) extends adjacent the top of the yoke assembly (14, 52), extending beyond the edges thereof. The armature (28) further includes side portions which extend adjacent the sides of the E shaped yoke (52), with each side portion including two spaced magnets which are aligned with the coils (36, 38) when the actuator (10, 90) is in a rest position. Power is supplied from a battery source, and a programmable control assembly (46) applies power to the coils (36, 38) in a selected manner to produce axial and/or tangential or complex movement of the brushhead workpiece (33) at the end of an output shaft extending from the armature (28).

Abstract: An apparatus (16) for recording a selected program includes a decoder (32), a recorder (34), and a user interface (36). The user interface (36) permits a user to select the program. The decoder (32) receives a data stream including, a start data packet, content data packets, and an end data packet associated with the selected program. The decoder (32) detects the start data packet associated with the selected program and begins the recorder (34) recording. The context data packets are recorded until the decoder (32) detects the end data packet associated with the selected program and stops the recorder (34).