Abstract: An apparatus for determining an operation mode of a device, wherein the device is capable of adjusting a physical condition at a source position to correspondingly influence a physical condition at a destination position, the apparatus comprising a determining unit adapted for determining the operation mode by defining a time dependency of the physical condition at the source position so that a target time-dependency of the physical condition is obtained for the destination position, the target time-dependency representing a resultant variation of the physical condition over time.

Abstract: A digital oscilloscope comprises a sampling unit configured to sample an input signal received from an oscilloscope probe to produce a first stream of digital samples, a first acquisition system configured to store and process the stream of digital samples to produce a first data set, a second acquisition system configured to store and process the first stream of digital samples independent of the first acquisition system to produce a second data set, and a display system configured to concurrently display the first data set in a first format and the second data set in a second format different from the first format.

Abstract: A calibration kit (100) for calibrating a connectable network analyzer (102), including a converter (104, 106) adapted for performing a conversion between an electrical signal and an optical signal, a calibration standard (108, 110) for calibrating the network analyzer (102), and a switch array (112) adapted for switching the converter (104, 106) and the calibration standard (108, 110) in a manner to enable an electrical calibration of the network analyzer (102) and a calibration of the converter (104, 106) coupled to the network analyzer (102).

Abstract: A method of identifying a biopolymer in a sample that includes one or more biopolymers. The biopolymers may be polypeptides, polynucleotides, or polysaccharides. The method makes use of mass spectral datasets. A first dataset includes measured masses of the one or more biopolymers that are in the sample. A second dataset includes measured masses of a collection of fragments of the one or more biopolymers. The method selects a mass from the first dataset and then matches masses from the second dataset with the selected mass. The matched masses represent fragments of the biopolymer with the selected mass. Once the masses in the second dataset have been matched they are compared to determine a monomer sequence for the biopolymer with the selected mass. The method may be repeated with additional masses in the first dataset.

Abstract: A method for generating interference signals and a device to carry out said method, in which an interference signal (1) is added in a signal combination and separation network (3) with a desired signal (4) that carries a test message, the sum signal being sent to a device being tested (5). The interference signal (1) is generated with a single source connected to a signal divider and conditioner block (7) that attenuates additional interference produced by the source of generation of interference signals (1), while providing as many interference signals (1) as the device (5) under test has antennas (Rx, Rx/Tx), and in which each interference signal (1) is sent to a respective amplification and isolation block (8), which adjusts the power level of the interference signal (1) and attenuates the reverse intermodulation products produced by the transmission of signals by the device (5) under test.

Abstract: A fitting for coupling a capillary to another component of a fluidic device is disclosed. The fitting includes a ferrule configured for enclosing a front part of the capillary and for contributing to a fluidic sealing between the fitting and the other component; a ferrule chuck configured for enclosing a back part of the capillary; and a housing configured for accommodating at least a part of the ferrule chuck and for pushing the ferrule chuck against the ferrule.

Abstract: A system comprises a voltage source, a piezoelectric material arranged in a first current path between the voltage source and a first reference voltage, a capacitor arranged in a second current path between the voltage source and a second reference voltage, and a correction circuit configured to adjust the first reference voltage to increase or decrease the current in the first current path according to the current in the second current path.

Abstract: In an atmospheric inductively coupled plasma generating apparatus, impedance matching between a coil for plasma generation and an RF power source is effected at a high speed. A control method and/or condition for the output frequency of an oscillator which supplies a power to the coil for plasma generation or a control method and a control condition for the output power of the oscillator are changed appropriately in accordance with a generation state of a plasma. When a plasma is not generated, the output frequency is controlled according to a first condition and, when a plasma is generated, the output frequency is controlled according to a second condition different from the first condition. When a plasma is not generated, the output power is controlled according to a third condition and, when a plasma is generated, the output power is controlled according to a fourth condition different from the third condition.

Abstract: The present invention relates to laminate comprising a first thermoplastic polymer layer with a first melt flow index, adjacent a thermoplastic polymer second layer with a second melt flow index, the first and second layer comprising the same thermoplastic polymer, characterized in that the first melt flow index is lower than the second melt flow index. The invention also relates to a microfluidic device comprising the laminate and a method for incorporating an ink pattern in the laminate.

Abstract: An atmospheric pressure ionization apparatus includes a chamber, an ion inlet structure, an electrode, a sample emitter, and a gas passage. The ion inlet structure includes a sampling orifice. The electrode includes an electrode bore. An ionization region is defined between the ion inlet structure and the electrode. The flared structure is coaxially disposed about the ion inlet structure, and extends along an outward direction that includes a radial component relative to the sampling axis. The sample emitter is oriented at an angle to the sampling axis for directing a sample stream toward the ionization region. The gas passage directs a stream of gas from a gas source to the chamber. The flared structure and the wall cooperatively form an outward-directed portion of the gas passage that extends annularly about the sampling axis and along the outward direction. The gas flows through the outward-directed portion, around the flared structure, and toward the ionization region and the electrode bore.

Abstract: A system and a method for displaying an emitter location are disclosed. The system includes a plurality of receivers at different locations in a field. Each receiver generates a receiver signal that depends on the magnitude of a signal from the emitter. The system also includes a processor that receives the receiver signal and generates a likelihood map indicative of an approximation of a probability as a function of position in the field of the emitter location. The likelihood map includes a plurality of receiver maps. Each receiver map includes a probability as a function of position in the field of the emitter location based on the signal magnitude for at least one of the receiver signals. Each receiver map may depend on a ratio of the signal magnitudes from a corresponding pair of the receivers, or on one of the signal magnitudes from a corresponding one of the receivers.

Abstract: In accordance with the invention, a method for making microfluidic structures in bulk titanium is disclosed. Specific microfluidic structures include HPLC structures.

Abstract: Ion sources for use in mass spectrometry (MS) systems are described. The ion sources each comprise an ion funnel and an ionization source configured to ionize neutral analyte molecules.

Abstract: A system for measuring residual phase noise of a device under test (DUT) includes first and second signal sources, first and second receivers, and a processor. The first signal source generates a first signal to be input to the DUT as a stimulus signal and provides a second signal that is phase coherent with the first signal. The second signal source receives the second signal and generates a reference signal based on the second signal, which is phase coherent with the stimulus signal. The first receiver measures an output signal from the DUT responsive to the stimulus signal, and the second receiver measures the reference signal from the second signal source. The processor mathematically suppresses a carrier of the output signal by determining a difference between the measured output signal and the measured reference signal, and determines the residual phase noise of the DUT based on the difference.

Abstract: A tunable laser comprises a first tuner configured to select an emission wavelength of the laser a second tuner configured to adjust a cavity mode of the laser by modifying the cavity optical path length. The second tuner is constrained by a finite tuning range. The tunable laser also comprises a controller configured to control the first and second tuners to select the emission wavelength and adjust the cavity mode in synchronization to perform phase-continuous tuning across a range larger than supported by the finite tuning range of the second tuner.

Abstract: A compact, ultra-broadband antenna with doughnut-like radiation pattern is provided as including a first assembly having first and second ends; a second assembly having first and second ends, the first and second ends each configured to have a substantially hemispherical shape; and a cable configured to extend through the first and second assemblies and out each of the first and second ends.

Abstract: A drive mechanism for back pressure regulator used in liquid chromatography, supercritical fluid chromatography, or supercritical fluid extraction allows very fine automated control over a very wide range of pressures by combining a linear actuator compressing a spring, pushing a pin. The nozzle assembly of the regulator comprises a flow through chamber containing a diaphragm and a seat, in which the pin pushes the diaphragm against the seat, together with an upstream pressure sensor and electronic feedback control to the motor of the actuator. The BPR of the embodiments exhibits high pressure stability and extremely low pressure noise, even at moderate to high pressures. The exemplary BPR can be use at either constant pressure or to generate pressure programs where the pressure is varied versus time. Further, the nozzle assembly has a field-replaceable head, requiring no mechanical adjustment on replacement.

Abstract: An apparatus provides a digital representation of a time difference between a periodic reference signal having a reference signal period and a periodic input signal having an input signal period. The apparatus includes a free-running finite state machine (FSM) that traverses a multiplicity of states in a predetermined order, the state having corresponding state vectors, each of which is held for a state dwell time. A timing circuit receives the reference signal, the input signal and the FSM state vectors, and determines a state transition count equal to a number of FSM state transitions that occur during a counting interval, which corresponds to the time difference between the reference and input signals. A digital low-pass filter receives the state transition counts and provides an output value including weighted sums of the state transition counts, proportional to the time difference between the reference and input signal. A period of the FSM is independent of the reference signal period.

Abstract: The present invention includes a heat sealable capsule adapted for use in analysis devices such as GCs, and methods for using the capsules to perform analysis in such devices. The capsules include a tube having an end that is heat-sealed to contain a sample that is to be analyzed at an injection temperature. The tube includes a heat sealable medium having a heat seal that closes the end, the tube having an inner and outer surface, both of the surfaces being substantially chemically inert with respect to the sample. The tube is substantially free of any material that outgases at the injection temperature. The tube is openable without breaking into pieces, and remains intact at the injection temperature. The capsule can include a programmable tag that stores information related to the sample contained therein.

Abstract: An apparatus and process to effectively create an active drain for high and low pressure gas-liquid separator. The invention accomplishes a deterministic drainage rate of variable volume and viscosity liquid fractions from the separator. The mechanisms and methods thereof create a flow path from the separator that dramatically favors controlled liquid flow over a wide range of flow rates and viscosities while restricting gas flow. The invention is a superior method of drainage over conventional systems that employ pressure, vacuum, isolation valves and/or passive flow restrictors to achieve drainage of the separators. The embodiments are primarily directed to the fields of preparative supercritical fluid chromatography (SFC) and supercritical fluid extraction (SFE). An advantage of one embodiment allows the economical conversion of typical HPLC systems to state of-the-art supercritical fluid chromatography (SFC) systems with minimal modification to system components.