Patent application number | Description | Published |
20080230704 | NOVEL POSITRON EMISSION DETECTORS AND CONFIGURATIONS - A three-dimensional detector module for use in detecting annihilation photons generated by positrons emitted from radio-labeled sites within a body is formed from multiple solid state photo-detectors attached to one or more scintillators. Each photo-detector can be attached to a scintillator to form a photo-detector/scintillator combination and multiple photo-detector/scintillator combinations can be arranged in an array. Alternatively, multiple photo-detectors can be attached to the surface of a single scintillator to form an array. Multiple arrays are then stacked to form a photo-detector module. The modules can then be assembled to form a sheet of photo-detector modules. Multiple sheets or multiple modules can then be arranged around a body to detect emissions from radio-labeled sites in the body. Multiple position sensors attached to the photo-detectors, arrays or modules provide the ability to locate the source of the positron emissions from the labeled sites in the body and generate an image of the emission site. A series of novel PET configurations can be constructed from these detector modules, making PET scanners portable, more sensitive and flexible to be used in numerous different operational configurations, such as operating room, emergency rooms, critical care units, or battlefield. | 09-25-2008 |
20100010343 | Detection of radiation labeled sites using a radiation detection probe or camera incorporating a solid state photo-multiplier - Intraoperative radiation detection probes and cameras for use in surgical or transcutaneous procedures or procedures incorporating probes inserted through body orifices to aid in the location, detection and removal of radiation labeled cells, abnormal tissue or deposits thereon incorporate solid state or silicon photomultiplier (SSPM, or SiPM) devices to provide safe, highly sensitive and compact beta and gamma probes or cameras for use in locating the radiation labeled sites within the human body or abnormal labeled sites within the body. The probes may include both gamma and beta detecting components as well as means for enhancing the accuracy and sensitivity of the beta detectors. | 01-14-2010 |
20100198061 | Detection of radiation labeled sites using a radiation detection probe or camera incorporating a solid state photo-multiplier - Intraoperative radiation detection probes and cameras for use in surgical or transcutaneous procedures or procedures incorporating probes inserted through body orifices to aid in the location, detection and removal of radiation labeled cells, abnormal tissue or deposits thereon incorporate solid state or silicon photomultiplier (SSPM, or SiPM) devices to provide safe, highly sensitive and compact beta and gamma probes or cameras for use in locating the radiation labeled sites within the human body or abnormal labeled sites within the body. The probes may include both gamma and beta detecting components as well as means for enhancing the accuracy and sensitivity of the beta detectors. | 08-05-2010 |
20100219346 | NOVEL POSITRON EMISSION DETECTORS AND CONFIGURATIONS - A three-dimensional detector module for use in detecting annihilation photons generated by positrons emitted from radio-labeled sites within a body is formed from multiple solid state photo-detectors attached to one or more scintillators. Each photo-detector can be attached to a scintillator to form a photo-detector/scintillator combination and multiple photo-detector/scintillator combinations can be arranged in an array. Alternatively, multiple photo-detectors can be attached to the surface of a single scintillator to form an array. Multiple arrays are then stacked to form a photo-detector module. The modules can then be assembled to form a sheet of photo-detector modules. Multiple sheets or multiple modules can then be arranged around a body to detect emissions from radio-labeled sites in the body. Multiple position sensors attached to the photo-detectors, arrays or modules provide the ability to locate the source of the positron emissions from the labeled sites in the body and generate an image of the emission site. A series of novel PET configurations can be constructed from these detector modules, making PET scanners portable, more sensitive and flexible to be used in numerous different operational configurations, such as operating room, emergency rooms, critical care units, or battlefield. | 09-02-2010 |
20120032086 | HAND-HELD GAMMA RAY SCANNER - A hand held gamma ray scanner comprises a one dimensional array of SSPM detectors coupled to a scintillator slab or an array of scintillators. A position tracker is attached to this “scanner” enabling software in a support system to acquire the position of the scanner, as well as 1-D images of the distribution of gamma rays received from radiation labeled tissue and generate an output signal in real time. | 02-09-2012 |
20120068076 | PORTABLE PET SCANNER FOR IMAGING OF A PORTION OF THE BODY - A mobile PET scanner for use in bed side or a surgical environment comprises a mobile support base, with first and a second arm arms extending therefrom. The first arm is configured for placement under a table supporting an individual while the second arm is substantially parallel to and above said first arm with the individual being located between the first and second arms. Multiple module blocks are positioned along the length of the first and second arm. Each modules block comprises scintillators with solid state silicone multipliers or multi-pixel photon counters attached thereto. Positrons emitted from radiation labeled tissue within the individual's body impinge on the multiple scintillators to generate. The photons from each of the scintillator are received by each of a solid state silicone multipliers or multi-pixel photon counters associated therewith and an electrical signal representative of the received photons is then generated. The electrical signal output from each of the solid state silicone multipliers or multi-pixel photon counters is then transmitted to a computerized data collection and analysis system, which substantially instantaneously generates a visual image on a screen showing the location within the individuals body emitted the photons. This image can be coordinated with a photo image or a CT image showing the same portion of the individual's body. | 03-22-2012 |
Patent application number | Description | Published |
20080292311 | Intelligent Transmitter Module - An intelligent transmitter module (“ITM”) includes a CDR circuit for equalizing and retiming an electrical data signal, a driver for generating a modulation signal and/or performing waveform shaping of the equalized and retimed signal, and an optical transmitter configured to emit an optical signal representative of the data signal. A linear amplifier may also be included to amplify the modulation signal when the optical transmitter is a laser with managed chirp. Alternately or additionally, a microcontroller with a 14-bit or higher A2D can be included to control and optimize operation of the ITM. In one embodiment, the CDR, driver, linear amplifier, and/or microcontroller are flip chip bonded to a first substrate while the laser with managed chirp is bonded to a second substrate. The first substrate may comprise a multi-layer high frequency laminate. | 11-27-2008 |
20090122493 | OPTOELECTRONIC SUBASSEMBLY WITH INTEGRAL THERMOELECTRIC COOLER DRIVER - Optical subassemblies including optical transmit and receive subassemblies. The optical subassemblies comprise a housing; a substrate mounted within the housing; a thermoelectric cooler (TEC) thermally coupled to the substrate, the TEC being mounted within the housing; an optical component structurally mounted on the substrate, wherein the optical component is thermally coupled to the TEC; and a TEC driver electrically coupled to the TEC, wherein the TEC driver is configured to electrically drive the TEC, the TEC driver being mounted within the housing. | 05-14-2009 |
20100010343 | Detection of radiation labeled sites using a radiation detection probe or camera incorporating a solid state photo-multiplier - Intraoperative radiation detection probes and cameras for use in surgical or transcutaneous procedures or procedures incorporating probes inserted through body orifices to aid in the location, detection and removal of radiation labeled cells, abnormal tissue or deposits thereon incorporate solid state or silicon photomultiplier (SSPM, or SiPM) devices to provide safe, highly sensitive and compact beta and gamma probes or cameras for use in locating the radiation labeled sites within the human body or abnormal labeled sites within the body. The probes may include both gamma and beta detecting components as well as means for enhancing the accuracy and sensitivity of the beta detectors. | 01-14-2010 |
20100198061 | Detection of radiation labeled sites using a radiation detection probe or camera incorporating a solid state photo-multiplier - Intraoperative radiation detection probes and cameras for use in surgical or transcutaneous procedures or procedures incorporating probes inserted through body orifices to aid in the location, detection and removal of radiation labeled cells, abnormal tissue or deposits thereon incorporate solid state or silicon photomultiplier (SSPM, or SiPM) devices to provide safe, highly sensitive and compact beta and gamma probes or cameras for use in locating the radiation labeled sites within the human body or abnormal labeled sites within the body. The probes may include both gamma and beta detecting components as well as means for enhancing the accuracy and sensitivity of the beta detectors. | 08-05-2010 |
20110062312 | OPTOELECTRONIC SUBASSEMBLY WITH INTEGRAL THERMOELECTRIC COOLER DRIVER - Optical subassemblies including optical transmit and receive subassemblies. The optical subassemblies comprise a housing, and first and second substrates mounted within the housing. Also disposed within the housing is a thermoelectric cooler (TEC) thermally coupled to the first substrate. An optical transmitter is mounted on the first substrate, and thermally coupled to the TEC. A TEC driver is mounted on the second substrate and electrically coupled to the TEC. In some embodiments a thermal resistance mechanism is provided for connecting the first substrate to the second substrate. | 03-17-2011 |
Patent application number | Description | Published |
20120025087 | MODFET active pixel X-ray detector - Detection of ionizing radiation with modulation doped field effect transistors (MODFETs) is provided. There are two effects which can occur, separately or together. The first effect is a direct effect of ionizing radiation on the mobility of electrons in the 2-D electron gas (2DEG) of the MODFET. An ionizing radiation absorption event in or near the MODFET channel can perturb the 2DEG mobility to cause a measurable effect on the device conductance. The second effect is accumulation of charge generated by ionizing radiation on a buried gate of a MODFET. The conductance of the MODFET can be made sensitive to this accumulated charge, thereby providing detection of ionizing radiation. 1-D or 2-D arrays of MODFET detectors can be employed to provide greater detection area and/or spatial resolution of absorption events. Such detectors or detector pixels can be integrated with electronics, such as front-end amplification circuitry. | 02-02-2012 |
20130200930 | INTEGRATED POWER SUPPLY FOR FIBER OPTIC COMMUNICATION DEVICES AND SUBSYSTEMS - An example embodiment includes a fiber optic integrated circuit (IC). The fiber optic IC includes an integrated power supply. The integrated power supply includes a filter, an active switch, and a pulse width modulator (“PWM”). The filter is configured to convert a signal to an output signal of the integrated power supply. The active switch is configured to control introduction of the signal to the filter. The PWM is configured to generate a PWM output signal that triggers the active switch. | 08-08-2013 |
20140002180 | INTEGRATED CIRCUIT WITH VOLTAGE CONVERSION | 01-02-2014 |
20140219665 | ACTIVE LINEAR AMPLIFIER INSIDE TRANSMITTER MODULE - In one example embodiment, a transmitter module includes a header electrically coupled to a chassis ground. First and second input nodes are configured to receive a differential data signal. A buffer stage has a first node coupled to the first input node and a second node coupled to the second input node. An amplifier stage has a fifth node coupled to a third node of the buffer stage and a sixth node coupled to a signal ground that is not coupled to the chassis ground. An optical transmitter has an eighth node coupled to a seventh node of the amplifier stage and a ninth node configured to be coupled to a voltage source. A bias circuit is configured to couple a fourth node of the buffer stage to a bias current source. | 08-07-2014 |
20150155949 | ACTIVE LINEAR AMPLIFIER INSIDE TRANSMITTER MODULE - In one example embodiment, a transmitter module includes a header electrically coupled to a chassis ground. First and second input nodes are configured to receive a differential data signal. A buffer stage has a first node coupled to the first input node and a second node coupled to the second input node. An amplifier stage has a fifth node coupled to a third node of the buffer stage and a sixth node coupled to a signal ground that is not coupled to the chassis ground. An optical transmitter has an eighth node coupled to a seventh node of the amplifier stage and a ninth node configured to be coupled to a voltage source. A bias circuit is configured to couple a fourth node of the buffer stage to a bias current source. | 06-04-2015 |
Patent application number | Description | Published |
20090182531 | LOGGING MECHANISM FOR AN INTELLIGENT TRANSMITTER MODULE - An optoelectronic device having an intelligent transmitter module (“ITM”) includes a mechanism for logging operational information regarding the ITM. The optoelectronic device includes a microcontroller and a persistent memory. The microcontroller is configured to identify the operational information, and write log information representing the operational information to the persistent memory. The operational information may include statistical data about operation, or may include measured parameters. Log entries may be made periodically and/or in response to events. The log may then be evaluated to determine the conditions under which the ITM has historically operated. | 07-16-2009 |
20090196631 | MONOLITHIC POWER MONITOR AND WAVELENGTH DETECTOR - Monolithic single and/or dual detector structures are fabricated on the emitting surface of a VCSEL and/or on a lens or glass substrate configured to be positioned along the axis of emission of an optical light source. Each monolithic detector structure includes one or two PIN detectors fabricated from amorphous silicon germanium with carbon doping or amorphous germanium with hydrogen doping. The monolithic detectors may additionally include various metallization layers, buffer layers, and/or anti-reflective coatings. The monolithic detectors can be grown on 1550 NM VCSELs used in optical transmitters, including lasers with managed chirp and TOSA modules, to reduce power and real estate requirements of the optical transmitters, enabling the optical transmitters to be implemented in long-reach SFP+ transceivers. | 08-06-2009 |
20090208225 | VARIABLE OPTICAL ATTENUATOR INTEGRATION INTO TRANSMITTER OPTICAL SUBASSEMBLIES - A small-scale VOA system includes a polarization rotator, a voltage multiplier circuit, and at least one transistor. The polarization rotator can be positioned within a TOSA along the emission axis of a corresponding optical signal source in addition to one or more polarizers. A microcontroller provides a first low voltage control signal to a voltage multiplier to generate a large voltage DC signal which is provided to the transistor. The transistor modulates the large voltage signal with a second control signal from the microcontroller to generate a large voltage AC signal for driving the polarization rotator. The polarization rotation of the polarization rotator can be altered depending on the applied large-voltage AC signal. As a result, the polarization rotator and one or more polarizers can variably attenuate signals emitted by the optical signal source or act as a shutter. | 08-20-2009 |
20110170880 | VARIABLE OPTICAL ATTENUATOR INTEGRATION INTO TRANSMITTER OPTICAL SUBASSEMBLIES - A small-scale VOA system includes a polarization rotator, a voltage multiplier circuit, and at least one transistor. The polarization rotator can be positioned within a TOSA along the emission axis of a corresponding optical signal source in addition to one or more polarizers. A microcontroller provides a first low voltage control signal to a voltage multiplier to generate a large voltage DC signal which is provided to the transistor. The transistor modulates the large voltage signal with a second control signal from the microcontroller to generate a large voltage AC signal for driving the polarization rotator. The polarization rotation of the polarization rotator can be altered depending on the applied large-voltage AC signal. As a result, the polarization rotator and one or more polarizers can variably attenuate signals emitted by the optical signal source or act as a shutter. | 07-14-2011 |
20120082450 | MONOLITHIC POWER MONITOR AND WAVELENGTH DETECTOR - Monolithic single and/or dual detector structures are fabricated on the emitting surface of a VCSEL and/or on a lens or glass substrate configured to be positioned along the axis of emission of an optical light source. Each monolithic detector structure includes one or two PIN detectors fabricated from amorphous silicon germanium with carbon doping or amorphous germanium with hydrogen doping. The monolithic detectors may additionally include various metallization layers, buffer layers, and/or anti-reflective coatings. The monolithic detectors can be grown on 1550 NM VCSELs used in optical transmitters, including lasers with managed chirp and TOSA modules, to reduce power and real estate requirements of the optical transmitters, enabling the optical transmitters to be implemented in long-reach SFP+ transceivers. | 04-05-2012 |
Patent application number | Description | Published |
20080292322 | OPTOELECTRONIC DEVICES WITH INTELLIGENT TRANSMITTER MODULES - An optoelectronic device can implement an intelligent transmitter module (“ITM”), rather than a conventional TOSA, for the transmission of optical data signals. The ITM can include an optical transmitter, a CDR and driver IC, and a microcontroller and/or linear amplifier. Space available in the optoelectronic device due to using an ITM rather than a TOSA and PCB-bound CDR, driver, microcontroller, and/or linear amplifier can be used for the inclusion of one or more electronic and/or optical components. Electronic components that can be included in a device with an ITM include: an FPGA, a DSP, a memory chip, a digital diagnostic IC, a video IC, a wireless interface, and an RF interface. Optical components that can be included in a device with an ITM include: a VOA, an SOA, a MUX, a DEMUX, a polarization controller, and an optical power monitoring device. | 11-27-2008 |