Abstract: A system for controlling fluid flow comprises a first fluid conduit having a length, an inner diameter, an input pressure and an output pressure, and a second fluid conduit having a length, an inner diameter, an input pressure and an output pressure where the output pressure of the first fluid conduit is the input pressure of the second fluid conduit. The system also comprises a pressure sensor configured to determine the output pressure of the first fluid conduit, and a controller configured to control the output pressure of the first fluid conduit, thereby establishing a desired fluid flow through the second fluid conduit based on the length of the second fluid conduit, the inner diameter of the second fluid conduit, the temperature of the second fluid conduit and the type of fluid flowing in the second fluid conduit.

Abstract: A system to control the fixed mass/spring mechanical resonance of the motor in conjunction with a model of the motor that estimates the present position and allows the determination of the motor stator voltage pattern which will produce the requested output force. This approach effectively eliminates the electrical restoring force from the motor dynamics and minimizes the problems associated with the varying resonant frequency of the motor.

Abstract: Methods and apparatus are disclosed for synthesizing a plurality of biopolymers at predetermined feature locations on a surface of a substrate. One or more of the feature locations comprises degenerate biopolymers. One or more biopolymer subunit precursors are added, in multiple rounds of subunit additions, at each of multiple feature locations on the surface to form the plurality of biopolymers on the surface. For each feature location comprising degenerate biopolymers, the biopolymer subunit precursors comprise a mixture of biopolymer subunit precursors for forming the degenerate biopolymers at the feature location.

Abstract: A test access point structure for accessing test points of a printed circuit board and method of fabrication thereof is presented. Each test access point structure is conductively connected to a trace at a test access point and above an exposed surface of the printed circuit board to be accessible for probing by a fixture probe. The test access point structure may be designed and manufactured to permit deformation of the test access point structure upon initial probing of the test access point structure with a fixture probe to ensure electrical contact between the fixture probe and the test access point structure.

Abstract: A packing composition (110) for inserting into a fluidic device (100), the packing composition (110) comprising a packing material (114) adapted for separating different components of a fluid and an elastic network (115) in which the packing material (114) is embedded.

Abstract: The present invention is related to a circuit for converting the sample rate of a digital signal, comprising an input for applying the digital signal, a conversion filter having either a symmetrical or anti-symmetrical impulse response and implemented as a plurality of subfilters in parallel, each subfilter having a symmetrical or anti-symmetrical response derived from components of a polyphase decomposition of said impulse response, combining means for deriving from said applied digital signal input signals of said plurality of subfilters or for combining output signals of said plurality of subfilters into a digital signal with converted sample rate, an output for outputting said digital signal with converted sample rate.

Abstract: A method of categorising speed of a terminal (202) in a wireless communications network (116) comprises monitoring a first factor associated with allocation of a radio-frequency (RF) resource that is not related to mobility of the terminal (202). The first factor is then offset against a second factor, the second factor being potentially indicative of mobility of the terminal (202). The speed of the terminal (202) is then approximated using the result of offsetting the first factor against the second factor.

Abstract: A method for analyzing a sample comprising different sample compounds is described. The method comprises staining the sample compounds by adding a dye species to a solution of the sample, the dye species having reactive groups adapted for forming covalent bonds with specific groups of the sample compounds, and providing the modified sample compounds to a microfluidic chip, the microfluidic chip being adapted to provide an electrophoretic separation. The method further comprises electrophoretically separating the modified sample compounds, and detecting separated compounds.

Abstract: A method for preparing a microfluidic chip is described, the microfluidic chip comprising a micro-channel system with at least one micro-channel. The method comprises supplying one or more fluids to at least one predefined section of the micro-channel system or to the whole micro-channel system, and freezing the entire microfluidic chip by exposing the microfluidic chip to a temperature below ?5° C., wherein the one or more fluids contained in the micro-channel system are frozen solid.

Abstract: A mass spectrometry system is described. The mass spectrometry system comprises: (a) a mass spectrometer; and (b) a controller connected to the mass spectrometer. The controller is configured to: (i) direct the mass spectrometer to acquire a precursor ion spectrum of a sample stream; (ii) analyze, in real-time, the precursor ion spectrum to determine whether a first evaluation criterion is satisfied; (iii) if the first evaluation criterion is satisfied, direct the mass spectrometer to acquire a product ion spectrum of the sample stream; (iv) analyze, in real-time, the product ion spectrum to determine whether a second evaluation criterion is satisfied; and (v) if the second evaluation criterion is satisfied, analyze the product ion spectrum to assign an identification to the product ion spectrum. For certain implementations, the controller allows automated, data-dependent acquisition of mass spectrometry data to improve the efficiency at which peptidic data of interest can be acquired.

Abstract: A test system and methods using the test system correlate measurements of a device under test (DUT) regardless of which test fixture is used for in-fixture testing of the DUT. The test system includes test equipment, a test fixture that interfaces the DUT to the test equipment, a computer and a computer program executed by the computer. The computer program includes instructions that implement determining a port-specific difference array for test fixtures used with the test system. The difference array describes a difference between the test fixtures at a corresponding test port thereof. The method includes determining the difference array, measuring a performance of the DUT in a second test fixture, and applying the difference array such that the measured performance approximates a hypothetical DUT performance for the DUT as if mounted in a first test fixture.

Abstract: A single-particle optical sensor, which has high sensitivity and responds to relatively concentrated suspensions, uses a relatively narrow light beam to illuminate an optical sensing zone nonuniformly. The zone is smaller than the flow channel so that the sensor responds to only a fraction of the total number of particles flowing through the channel, detecting a statistically significant number of particles of any relevant diameter. Because different particle trajectories flow through different parts of the zone illuminated at different intensities, it is necessary to deconvolute the result. Two methods of deconvolution are used: modified matrix inversion or successive subtraction. Both methods use a few basis vectors measured empirically or computed from a theoretical model, and the remaining basis vectors are derived from these few. The sensor is compensated for turbidity. Several embodiments are disclosed employing light-extinction or light-scattering detection, or both.

Abstract: The invention provides a mass spectrometry system, including a microfluidic chip for electrospray ionization having an analyte channel and a gas assist channel that define a spray tip and a detector downstream from the microfluidic chip for detecting ions. The invention also provides a micro fluidic chip for electrospray ionization including a substrate having an analyte channel, a gas channel and an analyte channel wherein the gas channel and analyte channel exit at the first end to define the electrospray tip. Methods of using the system and apparatus are also disclosed.

Abstract: The invention provides an apparatus for producing an image of a global surface of an ion source sample plate that is exterior to an ion source. In general terms, the apparatus contains a sample plate for an ion source, an imaging device (e.g., a CCD or CMOS camera) and an illumination device that is configured to produce a light beam that contacts the sample plate surface to define a grazing angle between the light beam and the sample plate surface. The apparatus may be present at a location that is remote to the ion source.

Abstract: The existence of non-linearities in a spread-spectrum communications system can result in a transmitter generating code spurs projecting onto channels used to communicate information symbols between a transmitter and a receiver. The present invention provides a method of predicting at least one signalling code corresponding to at least one respective code spur by performing vector products of signalling codes expressed in a bipolar form to yield a signalling code where a code spur will occur.

Abstract: Testing a device under test—DUT—includes providing a test signal from the DUT to a test probe, taking from the test signal being present at the test probe analog samples at a first sampling rate, taking from the test signal being present at the test probe digital samples at a second sampling rate, providing a control signal indicative of sampling times of the analog samples, and performing an analysis of the digital samples in conjunction with the control signal.

Abstract: A laser apparatus for providing a stabilized multi mode laser beam includes an external cavity for providing an optical path for generating a laser beam which is stimulated by a gain medium, where the external cavity has first spectral characteristics, and a mode-selecting filter positioned within the optical path and having second spectral characteristics. The first characteristics and the second characteristics are adjusted to each other, so that the laser beam has at least two selected modes.

Abstract: Deriving an optical property of a device under test includes generating a cavity light beam along a first optical path in external cavity, selecting a wavelength of the cavity light beam of light by means of a filter arrangement within the external cavity, providing an optical stimulus signal to a device under test by splitting at least a fraction of the cavity light beam, providing an optical response signal from the DUT or a signal derived there form back to the external cavity, so that said signal is passed over a second optical path passing the filter arrangement spatially different to the first optical path in order to generate a filtered optical response signal, and providing said filtered optical response signal to a detector unit.

Abstract: A measuring receiver includes a preselector, spectrum analyzer and a signal source. The preselector has a filtered path for pre-filtering an input signal and outputting a pre-filtered signal. The preselector also has a bypass path for passing the input signal directly from the signal source to the spectrum analyzer. A switch switches the signal between the filtered path and the bypass path. The measuring receiver is calibrated by calibrating a bypass path of the preselector and then storing the resulting bypass path calibration data. The signal source and the spectrum analyzer are connected to the preselector. A signal from the signal source is output to the preselector and the difference between signals passing through a filtered path and bypass path are measured to produce difference measurement data. The difference measurement data is combined with the bypass calibration data to calibrate the filtered path of the preselector.

Abstract: A measuring receiver comprises a spectrum analyzer having a local oscillator for sweeping the measurement frequency of the spectrum analyzer through multiple frequency bands. A preselector has multiple filter paths with frequency bands corresponding to frequency bands of the spectrum analyzer. The filter paths for passing signals through the preselector and outputting filtered signals to the spectrum analyzer. Switches of the preselector switch between filter paths to switch in a filter path having a frequency band corresponding to a frequency band being swept by the spectrum analyzer. A controller delays the sweeping of the measurement frequency during intervals when the switches are switching between filter paths.