Abstract: A high voltage generator is provided. The high voltage generator includes an inverter bridge including a first bridge leg and a second bridge leg, a first resonant branch coupled in series to the first bridge leg, a transformer coupled in series between the first resonant branch and the second bridge leg, a second resonant branch coupled in series with the transformer, and a rectifier circuit coupled with the transformer for providing an output voltage to an X-ray source.

Abstract: An ambulance-compatible magnetic resonance imaging (MRI) system for on-site emergency diagnosis includes a mid-field super-conducting head-only magnet including a bore and an active shield arranged relative to the magnet, a passive shield arranged relative to the magnet, the passive shield including a first flange arranged adjacent to a first side of the magnet bore, a second flange arranged adjacent to a second side of the magnet bore, wherein the first flange and the second flange are electrically connected to each other, and wherein the passive shield is operative to capture flux extending out from the magnet bore and return the flux to the magnet. An asymmetric head gradient assembly for generating magnetic gradient field in the mid-field super-conducting magnet is also provided, the magnetic gradient field being between 100-150 mT/m or having a slew rate between 400-800 T/m/s.

Abstract: A low leakage binned pixel is provided. The pixel comprises a photodiode, a bin transistor and an output amplifier circuit. The photodiode has an anode and a cathode, the anode to collect electrons generated by light or by other form of ionising radiation, e.g. electrons. The bin transistor has a first terminal coupled to the cathode of the photodiode; a second terminal, configured to be coupled to a first terminal of a voltage reset switch (VRST) transistor; and a gate, configured to be coupled to a controller to receive a bin signal. The output amplifier circuit has an input and an output, wherein the input is coupled to the cathode of the photodiode and to the second terminal of the bin transistor. A multi-pixel binned circuit, an image sensor and a camera are also provided.

Abstract: A pediatric magnetic resonance (MRI) system and sub-system are provided. The pediatric MRI system includes a magnet-gradient assembly, an RF shield-body coil assembly and a pediatric MRI sub-system. The pediatric MRI sub-system includes an infant warmer or isolette having a patient section for accommodating a patient. The infant warmer is positionable relative to the magnet-gradient-body coil assembly of the pediatric MRI system. The pediatric MRI sub-system also includes a warming mattress arranged within the patient section of the infant warmer. The infant warming mattress includes an interior space filled at least partially with a host medium and a conduction heating system at least partially arranged in the interior space to conduct heat to the interior space of the infant warming mattress. The pediatric MRI system also includes at least one local radio frequency (RF) coil that is positionable within the patient section of the infant warmer.

Abstract: A pediatric magnetic resonance imaging (MRI) system is provided. The pediatric MRI system includes a radio frequency (RF) coil configured to image a portion of a patient. The pediatric MRI system also includes a cryo-cooling mechanism operatively coupled to the RF coil. The cryo-cooling mechanism is configured to maintain a temperature of the RF coil within a prescribed temperature range.

Abstract: A pediatric magnetic resonance imaging (MRI) system includes a magnet (9), an isolette (14) including a patient section for accommodating a patient, the isolette positionable relative to the magnet; and a radio frequency (RF) array (10) positionable within the patient section of the isolette (14). The RF array (10) includes a plurality of coils configured for simultaneous imaging of different portions of a patient, the plurality of coils being distinct from one another.

Abstract: A breathing apparatus includes a first air pathway for receiving ambient air and channeling the air through a portion of the breathing apparatus, a heating section operatively coupled to the first air pathway and configured to elevate a temperature of the ambient air in the first air pathway to a first prescribed temperature, and a cooling section operatively coupled to the first air pathway and configured to reduce the temperature of the ambient air heated by the heating section to a second prescribed temperature, the second prescribed temperature lower than the first prescribed temperature. A breathing circuit is coupled to the first air pathway and configured to provide the cooled air to a user.

Abstract: A low leakage binned pixel is provided. The pixel comprises a photodiode, a bin transistor and an output amplifier circuit. The photodiode has an anode and a cathode, the anode to collect electrons generated by light or by other form of ionising radiation, e.g. electrons. The bin transistor has a first terminal coupled to the cathode of the photodiode; a second terminal, configured to be coupled to a first terminal of a voltage reset switch (VRST) transistor; and a gate, configured to be coupled to a controller to receive a bin signal. The output amplifier circuit has an input and an output, wherein the input is coupled to the cathode of the photodiode and to the second terminal of the bin transistor. A multi-pixel binned circuit, an image sensor and a camera are also provided.

Abstract: A pediatric magnetic resonance imaging (MRI) system is provided. The pediatric MRI system includes a radio frequency (RF) coil configured to image a portion of a patient. The pediatric MRI system also includes a cryo-cooling mechanism operatively coupled to the RF coil. The cryo-cooling mechanism is configured to maintain a temperature of the RF coil within a prescribed temperature range.

Abstract: A pediatric magnetic resonance (MRI) system and sub-system are provided. The pediatric MRI system includes a magnet-gradient assembly, an RF shield-body coil assembly and a pediatric MRI sub-system. The pediatric MRI sub-system includes an infant warmer or isolette having a patient section for accommodating a patient. The infant warmer is positionable relative to the magnet-gradient-body coil assembly of the pediatric MRI system. The pediatric MRI sub-system also includes a warming mattress arranged within the patient section of the infant warmer. The infant warming mattress includes an interior space filled at least partially with a host medium and a conduction heating system at least partially arranged in the interior space to conduct heat to the interior space of the infant warming mattress. The pediatric MRI system also includes at least one local radio frequency (RF) coil that is positionable within the patient section of the infant warmer.

Abstract: An apparatus and method of controlling a temperature within an isolette includes obtaining a temperature of ambient air external to the isolette, obtaining a base-line ambient air temperature, and calculating a maximum heater power level based on a relationship between the base-line ambient air temperature and the actual ambient air temperature.

Abstract: A system for monitoring a conveyor belt having magnetically permeable cords, has an AC magnetic field generator for generating an alternating magnetic field to magnetize the cords, in use; a magnetic field sensing unit for sensing the alternating magnetic field provided, in use, by the cords and for providing signals representative of the alternating magnetic field; arid a processor for processing the signals to monitor continuous parts of the cords. The system further has a DC magnetic field generator for erasing an AC field previously generated by the AC magnetic field generator, the AC magnetic field generator being positioned between the DC magnetic field generator and the magnetic field sensing unit. The processor also determines the speed of travel of the belt, and the position in space of a lateral edge of the belt.

Abstract: A system for monitoring the condition of a conveyor belt having magnetically permeable cords, has a magnetic field generator for generating a magnetic field to magnetize the cords, in use, a magnetic field sensing unit for sensing the magnetic field provided, in use, by the cords, the sensing unit comprising an array of spaced magnetic field sensors, the spacing of the sensors being sufficiently close to discriminate between adjacent cords. The spacing of the sensors depends on the spacing of the cords, and may be less than half the spacing between cords of a conveyor belt. The sensors may be direction sensitive and the sensors may be oriented in more than one direction, to sense the perpendicular and other components of the magnetic field.

Abstract: An acoustic hologram imaging system constructed from a machined housing having folded optics. Various surfaces of the housing are machined to provide a precise alignment to the optical members to be connected thereto, such as a mirror, a lens assembly, a light emitting laser diode, a camera, and the like. A three-part lens is described having different materials with different indexes of refraction in order to provide a desired focus of the light. In addition, an optical spatial filter is disclosed in which, according to various embodiments, all, some, or none of the light passing therethrough is attenuated for recording of the optical image of the hologram.

Abstract: A monitoring system is provided for a moving conveyor belt having a plurality of embedded reinforcing cords and identification tags. A tag reader detects and identifies the identification tags passing by the tag reader while a belt monitor scans the cords to detect a plurality of magnetic reference points and a damage event of at least one cord. A control unit in communication with the belt monitor and the tag reader analyzes the belt monitor to identify the plurality of magnetic reference points and the damage event. The control unit also acquires a belt location on the moving conveyor belt from a belt map based on the detected and identified identification tag and a magnetic reference point from the plurality of magnetic reference points. When a damage event is identified, a location of the damage event is determined by the control unit based on the acquired belt location.

Abstract: A system for monitoring the condition of a conveyor belt having magnetically permeable cords, has a magnetic field generator, a magnetic field sensing unit, and a processor for performing a discrete wavelet transform. The wavelet may be a Morlet waveform. The sensing unit can include an array of spaced magnetic field sensors, and the transform can be performed on signals supplied by the sensors.

Abstract: A radiographic imaging sub-system for treating neonates is disclosed. The subsystem includes a radiographic compatible incubator for providing a controlled environment for a neonate, a radiographic compatible RF coil selectively coupled to the incubator for providing radiographic imaging of the neonate, and a radiographic compatible trolley for transporting the incubator and the RF coil. Additionally, the sub-system can include a radiographic MR compatible vital signs monitor, a radiographic compatible infusion pump, a radiographic compatible injector, a radiographic compatible ventilator, a radiographic compatible blender, radiographic compatible intravenous pole, tanks, pressure reducers/gauges and flow pipes.

Abstract: A monitoring system is provided for a moving conveyor belt having a plurality of embedded reinforcing cords and identification tags. A tag reader detects and identifies the identification tags passing by the tag reader while a belt monitor scans the cords to detect a plurality of magnetic reference points and a damage event of at least one cord. A control unit in communication with the belt monitor and the tag reader analyzes the belt monitor to identify the plurality of magnetic reference points and the damage event. The control unit also acquires a belt location on the moving conveyor belt from a belt map based on the detected and identified identification tag and a magnetic reference point from the plurality of magnetic reference points. When a damage event is identified, a location of the damage event is determined by the control unit based on the acquired belt location.

Abstract: The anti-blooming structure of an image sensor is supplied with varying voltages during different integration periods such that charges generated in response to low level light are fully captured, whereas charges generated in response to a bright light spill over in a controlled manner. Accordingly, sensor's response may be generated to result in higher gains at low light levels and progressively lower gains at the higher light levels.

Abstract: A system for monitoring the condition of a conveyor belt having magnetically permeable cords, has a magnetic field generator for generating a magnetic field to magnetize the cords, in use, a magnetic field sensing unit for sensing the magnetic field provided, in use, by the cords and for providing signals representative of the magnetic field, and a processor for performing a discrete wavelet transform on the signals. The wavelet may be a Morlet waveform. The sensing unit comprises an array of spaced magnetic field sensors, the transform being performed on signals supplied by the sensors.