Abstract: The present invention relates to compounds of formula (I) as deoxycytidine kinase inhibitors and pharmaceutical compositions comprising the same. The present invention further relates to the use of such compounds of formula (I) for use for treating a cancer.

Abstract: A module for supplying electrical energy configured to convert alternating electrical energy into direct electrical energy to power a resistive load. The module includes a current transformation block including a magnetic current transformer having an equivalent magnetizing inductance, a block for converting alternating voltage into direct voltage, an energy storage block, and an output voltage regulation block suitable for supplying electrical energy to the resistive load. The block for converting alternating voltage into direct voltage includes a compensation capacitor configured to compensate an energy loss due to the magnetic current transformer, the block for converting alternating voltage into direct voltage being connected between the current transformation block and the energy storage block.

Abstract: A device for measuring electrical quantities in an electrical installation. The device is integrated in a housing including at least one unitary block, the unitary block including a through-slot suitable for receiving an electrical conductor of the electrical installation, the through-slot extending along a main axis. Each unitary block includes: a current measurement module, configured to measure an electrical current flowing in the electrical conductor; a voltage measurement module for measuring voltage through capacitive coupling; and a power supply module, configured to pick up an electrical energy from the electrical conductor, the modules being arranged around the through-slot. The device is configured to obtain at least one electrical quantity on the basis of the current and voltage measurements, and to transmit the at least one electrical quantity via a communication interface.

Abstract: A system for calibrating voltage measurements in a system for measuring electrical quantities includes a calibration device configured to determine a first reference time instant of a zero-crossing event of a voltage signal that it measures, and transmit a calibration message including the first reference time instant and a measured voltage amplitude value to at least one device for measuring electrical quantities. The at least one device for measuring electrical quantities is configured to receive the calibration message, extract the first reference time instant and the voltage amplitude, determine a second reference time instant, of zero crossing of the voltage signal measured locally, corresponding to the first reference instant, calculate a phase shift of the locally-measured voltage signal, as a function of the difference between the first and the second reference time instants and apply a phase and amplitude voltage calibration as a function of the voltage amplitude and of the phase shift.

Abstract: A method for identifying a malfunctioning current sensor in an electrical apparatus, in which an electrical power supply of the electrical apparatus is at least partly supplied by a switched-mode electrical power supply circuit connected to at least one current sensor which samples an electrical current in a phase conductor of an electrical installation, the power supply circuit delivering a regulated electrical voltage, the method including: determining a switching duty cycle of a power switch of the switched-mode electrical power supply; analysing the determined switching duty cycle; and identifying a failure condition if the behaviour of the switching duty cycle is representative of a malfunctioning of at least one of the current sensors.

Abstract: A method for identifying a malfunctioning current sensor in an electrical apparatus, in which an electrical power supply of the electrical apparatus is at least partly supplied by a switched-mode electrical power supply circuit connected to at least one current sensor which samples an electrical current in a phase conductor of an electrical installation, the power supply circuit delivering a regulated electrical voltage, the method including: determining a switching duty cycle of a power switch of the switched-mode electrical power supply; analysing the determined switching duty cycle; and identifying a failure condition if the behaviour of the switching duty cycle is representative of a malfunctioning of at least one of the current sensors.

Abstract: A sensor for measuring current of the Rogowski-torus type including a carrier made of a magnetic materials and a secondary winding wound on the carrier in order to deliver an electrical signal representative of a current flowing in a conductor passing through the interior of the torus. The carrier is made essentially of a moulded rigid plastic material and includes at least one exterior recess distributed over the length of the body of the carrier. The recess includes at least two grooves that are separated by a partition. The protecting and measuring device and the electric circuit breaker include such a current sensor.

Abstract: A sensor for measuring current of the Rogowski-torus type including a carrier made of a magnetic materials and a secondary winding wound on the carrier in order to deliver an electrical signal representative of a current flowing in a conductor passing through the interior of the torus. The carrier is made essentially of a moulded rigid plastic material and includes at least one exterior recess distributed over the length of the body of the carrier. The recess includes at least two grooves that are separated by a partition The protecting and measuring device and the electric circuit breaker include such a current sensor.

Abstract: A live panning system and method for providing a live representation of a portion of a working area are provided. The system includes an image sensor acquiring an image of the entire working area and a processing unit. The image sensor includes an array of pixels, each providing pixel data of the image, and reads out the pixel data of a number of output pixels from the array to generate a sensor video stream, the output pixels corresponding to a cropping window within the image. The image sensor also includes a windowing module configured to move, in real-time, the cropping window within the image. The processing unit monitors viewing instructions from a user selecting a region of interest within the image corresponding to the portion of the working area, and dynamically communicates the viewing instructions to the windowing module such that the cropping window always encompasses the region of interest.

Abstract: A handheld magnification device for displaying a magnified representation of an object in a see-through manner is provided. The handheld magnification device includes a casing and a first and a second camera both adapted to acquire an image of the object, and having respectively a first working range proximate the handheld magnification device and a second working range different from and extending beyond the first working range. The handheld magnification device also includes a distance-sensitive sensor for measuring a distance parameter representative of a distance between the object and the handheld magnification device, as well as a processing unit for automatically selecting, based on the distance parameter and the first and second working ranges, one of the first and second cameras as a selected camera. The handheld magnification device further includes a display for displaying the magnified representation of the object based on the image acquired by the selected camera.

Abstract: A live panning system and method for providing a live representation of a portion of a working area are provided. The system includes an image sensor acquiring an image of the entire working area and a processing unit. The image sensor includes an array of pixels, each providing pixel data of the image, and reads out the pixel data of a number of output pixels from the array to generate a sensor video stream, the output pixels corresponding to a cropping window within the image. The image sensor also includes a windowing module configured to move, in real-time, the cropping window within the image. The processing unit monitors viewing instructions from a user selecting a region of interest within the image corresponding to the portion of the working area, and dynamically communicates the viewing instructions to the windowing module such that the cropping window always encompasses the region of interest.

Abstract: A magnification system which allows viewing a magnified representation of an object is provided. The magnification system includes two main components: a handheld device and a base station. The handheld device is provided with a camera module, a processing unit and, optionally, a display unit. The base station has a frame structure and, optionally, a monitor. The frame structure includes a cradle for receiving the handheld device. The handheld device can function as a stand-alone device and can be carried around for use outside of the home or office or, generally, away from the base station, or it can be mounted on the base station where images of documents or other objects disposed on a workspace of the frame structure can be acquired by the camera module of the handheld device and shown on the monitor through the processing unit.

Abstract: A handheld magnification device for displaying a magnified representation of an object in a see-through manner is provided. The handheld magnification device includes a casing and a first and a second camera both adapted to acquire an image of the object, and having respectively a first working range proximate the handheld magnification device and a second working range different from and extending beyond the first working range. The handheld magnification device also includes a distance-sensitive sensor for measuring a distance parameter representative of a distance between the object and the handheld magnification device, as well as a processing unit for automatically selecting, based on the distance parameter and the first and second working ranges, one of the first and second cameras as a selected camera. The handheld magnification device further includes a display for displaying the magnified representation of the object based on the image acquired by the selected camera.

Abstract: The present invention provides an optical transmitter comprising one control unit and a plurality of optical sources. Control signals are multiplexed and de-multiplexed as appropriate to enable control of all optical sources by the control unit.

Abstract: The present invention provides an optical transmitter comprising one control unit and a plurality of optical sources. Control signals are multiplexed and de-multiplexed as appropriate to enable control of all optical sources by the control unit.