Patent application number | Description | Published |
20080210674 | OPTICAL SENSOR FOR QUALITY MONITORING OF A WELDING PROCESS - Disclosed is the design and working principle of a welding monitoring system that can monitor the spectra of zinc and iron in the plasma generated during a welding process involving zinc-coated steel. The monitoring system is capable of monitoring multiple parameters, including spectral line intensity, electron temperature, and ratio of zinc and iron composition in the plasma. The results can then be used individually or in combination to predict resulting weld quality and generate appropriate feedback control signals. | 09-04-2008 |
20080223832 | REAL TIME IMPLEMENTATION OF GENERALIZED PREDICTIVE CONTROL ALGORITHM FOR THE CONTROL OF DIRECT METAL DEPOSITION (DMD) PROCESS - A linear model based generalized predictive control system controls the molten pool temperature during a Direct Metal Deposition (DMD) process. The molten pool temperature is monitored by a two-color pyrometer. A single-input single-output linear system that describes the dynamics between the molten pool temperature and the laser power is identified and validated. The incremental generalized predictive control algorithm with Kalman filter estimation is used to control the molten pool temperature. | 09-18-2008 |
20080296270 | REAL-TIME IMPLEMENTATION OF GENERALIZED PREDICTIVE ALGORITHM FOR DIRECT METAL DEPOSITION (DMD) PROCESS CONTROL - A direct metal deposition (DMD) process is stabilized by monitoring the temperature and the shape of the melt pool during deposition, applying a recursive least square (RLS) model estimation algorithm to adaptively identify process characteristics in accordance with the temperature and the shape of the melt pool, and delivering the process characteristics to a generalized predictive controller with input constraints to control the process. The process may be controlled by adjusting laser power or by adjusting the speed of the movement of the laser. In the preferred embodiment the temperature is monitored using a two-color pyrometer, and the shape of the melt pool is monitored by detecting the edge of the melt pool with a camera and/or photodetector. | 12-04-2008 |
20100133247 | MONITORING OF A WELDING PROCESS - A method of monitoring a welding process, comprising detecting a selected portion of a light spectrum of plasma plume of a fusion welding process with a photo detector, processing the detected portion of the spectrum, comparing the detected portion of the spectrum with an expected spectra to determine whether a weld is acceptable, providing a signal to a welder control, and adjusting the weld process based on the signal. | 06-03-2010 |
20100325902 | METHOD OF MANUFACTURING OF CUTTING KNIVES USING DIRECT METAL DEPOSITION - Direct metal deposition (DMD) is used to fabricate knife edges with extended service life. A metal alloy powder is deposited along a blank and melted with a laser beam so that the powder solidifies into a strip of material having a hardness and/or wear resistance greater than that of the starting material. The piece is then finished to produce a sharp edge in the solidified material. The powder may be melted while it is being deposited, or it may be melted after being deposited. A slot or groove may be formed in the blank with the metal alloy powder being deposited into the slot or groove. A hardened steel alloy powder is deposited onto a mild steel blank. For example, a tool steel or vanadium steel powder may be deposited onto a 1018 steel blank. An invention line-beam nozzle may be used for deposition and/or powder melting. | 12-30-2010 |
20140026730 | METHOD OF MANUFACTURING OF CUTTING KNIVES USING DIRECT METAL DEPOSITION - Direct metal deposition (DMD) is used to fabricate knife edges with extended service life. A metal alloy powder is deposited along a blank and melted with a laser beam so that the powder solidifies into a strip of material having a hardness and/or wear resistance greater than that of the starting material. The piece is then finished to produce a sharp edge in the solidified material. The powder may be melted while it is being deposited, or it may be melted after being deposited. A slot or groove may be formed in the blank with the metal alloy powder being deposited into the slot or groove. A hardened steel alloy powder is deposited onto a mild steel blank. For example, a tool steel or vanadium steel powder may be deposited onto a 1018 steel blank. An invention line-beam nozzle may be used for deposition and/or powder melting. | 01-30-2014 |
Patent application number | Description | Published |
20120275238 | MEMORY CIRCUIT AND CONTROL METHOD THEREOF - A memory circuit according to one embodiment of the present invention includes a clock driver and an ODT timer. The clock driver is configured to provide a system clock signal based on a root clock signal when the memory circuit is in a read mode, and is configured to stop providing the system clock signal when the memory circuit is not in the read mode. The ODT timer is configured to provide a system ODT signal when the memory circuit is not in the read mode, wherein the transition edge of the system ODT signal is aligned with the transition edge of the root clock signal. | 11-01-2012 |
20130163713 | METHODS, APPARATUSES, AND CIRCUITS FOR BIMODAL DISABLE CIRCUITS - Circuits, integrated circuits, and methods are disclosed for bimodal disable circuits. In one such example method, a counter is maintained, with the counter indicating a logic level at which an output signal will be disabled during at least a portion of one of a plurality of disable cycles. The logic level indicated by the counter is transitioned. An input signal is provided as the output signal responsive to the enable signal indicating that the output signal is to be enabled, and the output signal is disabled at the logic level indicated by the counter responsive to the enable signal indicating that the output signal is to be disabled. | 06-27-2013 |
20130194013 | APPARATUSES AND METHODS FOR ALTERING A FORWARD PATH DELAY OF A SIGNAL PATH - Apparatuses and methods related to altering the timing of command signals for executing commands is disclosed. One such method includes calculating a forward path delay of a clock circuit in terms of a number of clock cycles of an output clock signal provided by the clock circuit and adding a number of additional clock cycles of delay to a forward path delay of a signal path. The forward path delay of the clock circuit is representative of the forward path delay of the signal path and the number of additional clock cycles is based at least in part on the number of clock cycles of forward path delay. | 08-01-2013 |
20130342239 | INVALID SIGNAL FILTERING METHOD AND SHIFTER UTILIZING THE METHOD - A shifter with invalid signal filtering mechanism, comprising: a first shifting stage, for receiving and capturing an input signal in a first clock cycle; and a second shifting stage, after the first shifting stage, for receiving the input signal from the first shifting stage, and for receiving a validity signal indicating whether the input signal is valid or invalid, before a second clock cycle next to the first clock cycle occurs; wherein the second shifting stage captures the input signal transmitted from the first shifting stage if the validity signal indicates that the input signal is valid, where the second shifting stage does not capture the input signal transmitted from the first shifting stage if the validity signal indicates that the input signal is invalid. | 12-26-2013 |
20130342254 | APPARATUSES AND METHODS FOR ADJUSTING A MINIMUM FORWARD PATH DELAY OF A SIGNAL PATH - Apparatuses and methods related to adjusting a minimum forward path delay of a signal path are disclosed. One such signal path includes a signal path having a minimum forward path delay, wherein the signal path is configured to adjust the minimum forward path delay based at least in part on a selected latency and a propagation delay of the minimum forward path delay. An example method includes reducing a forward path delay of a command path by at least one clock cycle of a clock signal to provide a command according to a selected latency responsive to a count value representative of a minimum forward path delay of the command path being greater than a maximum count value for the selected latency. | 12-26-2013 |
20140002148 | METHODS, APPARATUSES, AND CIRCUITS FOR BIMODAL DISABLE CIRCUITS | 01-02-2014 |
20140035640 | APPARATUSES AND METHODS FOR ALTERING A FORWARD PATH DELAY OF A SIGNAL PATH - Apparatuses and methods related to altering the timing of command signals for executing commands is disclosed. One such method includes calculating a forward path delay of a clock circuit in terms of a number of clock cycles of an output clock signal provided by the clock circuit and adding a number of additional clock cycles of delay to a forward path delay of a signal path. The forward path delay of the clock circuit is representative of the forward path delay of the signal path and the number of additional clock cycles is based at least in part on the number of clock cycles of forward path delay. | 02-06-2014 |
20140111263 | SHIFTER CAN AVOID UTILIZING PARTIAL PULSE - A shifter that can avoid utilizing a partial pulse, comprising: at least one shifting stage, for receiving an external clock signal or a command triggering clock signal to generate sampling signals according a command signal; and a command triggering clock signal generating circuit, for generating the command triggering clock signal according to the command signal. The shifting stage utilizes the external clock signal to generate the sampling signal but does not utilize the command triggering clock signal to generate the sampling signal, if the command triggering clock signal may have a partial pulse for a cycle that the shifting stage generates the sampling signal. | 04-24-2014 |
20140218077 | METHODS, APPARATUSES, AND CIRCUITS FOR BIMODAL DISABLE CIRCUITS - Circuits, integrated circuits, and methods are disclosed for bimodal disable circuits. In one such example method, a counter is maintained, with the counter indicating a logic level at which an output signal will be disabled during at least a portion of one of a plurality of disable cycles. The logic level indicated by the counter is transitioned. An input signal is provided as the output signal responsive to the enable signal indicating that the output signal is to be enabled, and the output signal is disabled at the logic level indicated by the counter responsive to the enable signal indicating that the output signal is to be disabled. | 08-07-2014 |
20140355361 | CIRCUIT IN DYNAMIC RANDOM ACCESS MEMORY DEVICES - A circuit in dynamic random access memory devices includes a command extension circuit. The command extension circuit is configured to generate at least one multiple-cycle command signal by lengthening a single-cycle clock command signal from a command decoding circuit. Control logic extends and reduces the multiple-cycle command signal to provide additional functions such as burst length and burst chop. Additional control logic is configured to determine whether a clock signal is enabled in output control logic circuitry according to the multiple-cycle command and logic level generated in the output logic circuitry. | 12-04-2014 |
20150071022 | APPARATUSES AND METHODS FOR PROVIDING ACTIVE AND INACTIVE CLOCK SIGNALS TO A COMMAND PATH CIRCUIT - Apparatuses and methods for providing active and inactive clock signals to a command path circuit are described. An example method includes providing an active clock signal to a command path for a first portion of a command cycle for a command of back-to-back commands. The command path decodes the command and provides an output command signal responsive to the clock signal. The method further includes providing an inactive clock signal to the command path for a second portion of the command cycle for the command of the back-to-back commands. | 03-12-2015 |
Patent application number | Description | Published |
20090026967 | Optically-triggered multi-stage power system and devices - A multi-stage optically-triggered power system. At least one triggering stage is responsive to at least one optical trigger to directly create photogeneration of carriers in the at least one triggering stage and thus generate at least one output signal. At least one main power device stage coupled to the at least one triggering stage is responsive to the at least one generated output signal to activate the at least one main power device stage. The at least one triggering stage and the at least one main power device stage may be monolithically integrated. | 01-29-2009 |
20090102291 | Fuel-Cell Based Power Generating System Having Power Conditioning Apparatus - A power conditioner includes power converters for supplying power to a load, a set of selection switches corresponding to the power converters for selectively connecting the fuel-cell stack to the power converters, and another set of selection switches corresponding to the power converters for selectively connecting the battery to the power converters. The power conveners output combined power that substantially optimally meets a present demand of the load. | 04-23-2009 |
20090196082 | Multiphase Converter Apparatus and Method - An ac/ac converter for accepting a pulsating dc input with encoded sinusoidal modulation and providing a multiphase modulated output. The converter comprises a bridge including a plurality of switches having switch legs for modulating the pulsating dc input at a carrier frequency over a plurality of phases. The bridge is coupled at one end to a pulsating dc source and coupled at another end to a modulated signal output. A controller is provided for the plurality of switches for causing, for each of the plurality of phases, under unity power factor, one of the switch legs to modulate the pulsating dc input at the carrier frequency while the other switch legs do not modulate the pulsating dc input at the carrier frequency. | 08-06-2009 |
20090283664 | Optically-Triggered Power System and Devices - A power device is provided in an optically-triggered power system having a controller for generating electrical control signals and a converter for converting the electrical control signals to optical control signals. The power device includes a pair of terminals and a P-body region provided adjacent an N | 11-19-2009 |
20120098029 | PHOTONICALLY-ACTIVATED SINGLE-BIASFAST-SWITCHING INTEGRATED THYRISTOR - Preferred embodiments of the invention include a thyristor core that is single biased by a source, such as a power source (or a portion thereof) that is being switched through the thyristors. An optically activated transistor that is preferably a minority carrier device is in series with the thyristor core. The thyristor core has an optically activated gate. The turn-off of the thyristor can be accelerated by the turn-on (conduction state) of a gate switch, which ensures a unity gain turn-off of the core thyristor. | 04-26-2012 |
20140211521 | SCALABLE SINGLE-STAGE DIFFERENTIAL POWER CONVERTER - An embodiment of the invention is a scalable single stage differential power converter. The inverter can be implemented in signal, split and multi-phases. A multiphase converter can be achieved with only three modules. Integrated magnetics used in preferred embodiments of the invention mitigate the DC component of the steady-state dynamics and can be extended to AC ripple mitigation. Control architectures in preferred embodiments can mitigate higher order harmonics in steady state dynamics. Embodiments of the invention also provide scalability for voltage and current source topologies. | 07-31-2014 |