Abstract: A direct-coupled level shifter to level shift a ground referenced input logic signal to an output logic signal that can have either a positive or negative reference. The level shifter includes two level shift drivers, each of which includes a positive level shift driver and a negative level shift driver. The positive level shift drivers operate when the reference of the latch is above ground and turn off when the reference is below ground. Similarly, the negative level shift drivers operate when the reference is below ground and turn off when the reference is above ground. The output logic signal is based on the output from the positive level shift driver receiving the input signal and the output from the negative level shift driver receiving an inverse of the input signal. The inverse of the output logic signal is based on the output from the positive level shift driver receiving an inverse of the input signal and the output from the negative level shift driver receiving the input signal.

Abstract: The present technology is related to employing a template/macro-based order entry system. An initial order data message contains a macro that establishes the initial parameters for an order and a unique ID is associated with the template. Subsequent, and potentially smaller sized data messages contain the unique ID as well as relevant order details for placing an order. Of course, the technology described herein envisions a much broader concept of reducing message sizes to help improve overall latency and is not limited to order entry.

Abstract: A gas supply apparatus with improved control is provided. The gas supply apparatus provides gas at an outlet junction. The apparatus includes a gas mixer for gasses from primary and secondary supplies to a given ratio. The apparatus also includes a gas reservoir supplied by the gas mixer. A tertiary supply valve is also included and connected in parallel with the reservoir. The tertiary supply valve is adapted to connect the outlet junction to a tertiary gas supply when gas is not being supplied to a mixer by the primary and/or secondary supply.

Abstract: A propulsion system for a vehicle (10) includes a propulsor (102) for generating a thrust for the vehicle, a motor (104) operable with the propulsor for driving the propulsor, a motor mount (164) for mounting the motor in or to the vehicle, and a thrust measuring device (172). The thrust measuring device (172) includes a strain sensor (174) mounted to a structural component of at least one of the propulsor (102), the motor (104), or the motor (164) mount for directly measuring a strain on the structural component caused by the thrust generated by the propulsor during operation of the propulsion system.

Abstract: A driver shutdown circuit configured to trigger driver shutdown based on the magnitude and duration of the driving current. A first GaN FET is connected to a second GaN FET and an input node and generates a discharging current proportional to the driving current. The discharging current is drawn from a timer capacitor through the first and second GaN FETs. The second GaN FET receives a control signal and stops flow of the discharging current in between driver pulses so a pre-charger circuit can recharge the timer capacitor to a particular voltage. The discharging current drains the timer capacitor, and a shutdown signal generator outputs a shutdown signal to the driver in response to the voltage on the timer capacitor decreasing below a triggering voltage.

Abstract: A circuit for providing an adjustable output driver current for use in LiDAR or other similar GaN driver applications. The circuit creates an appropriate gate-to-source voltage, VGS, for a high-current GaN driver FET to obtain a desired, high slew-rate driver current, IDRV. An externally provided reference current is used to create the required VGS for the driver FET, which is stored on an external capacitor. The value of the capacitor far exceeds the relatively low input-capacitance of the GaN driver FET. When a pulse IDRV of desired value is needed, the voltage on the capacitor is impinged upon the gate of the driver FET, thereby creating the desired IDRV. The reference charging circuit replenishes any charge lost on the capacitor, so that the same desired IDRV can be obtained on the next command pulse.

Abstract: A cascaded bootstrapping gate driver configured to provide quick turn-on of a high side power FET and low static current consumption. The cascaded bootstrapping gate driver includes an initial bootstrapping stage with a resistor to decrease static current consumption during transistor turn-off. A secondary bootstrapping stage is driven by the initial bootstrapping stage and includes a GaN FET transistor with a low on resistance in place of the resistor. The source terminal of the GaN FET transistor provides a gate driving voltage to the high side power switch FET. The low on-resistance of the GaN FET transistor provides quick turn-on of the high side power FET. Transistors in the cascaded bootstrapping gate driver are preferably enhancement mode GaN FETs and may be integrated into a single semiconductor die.

Abstract: An enhancement mode GaN FET based gate driver circuit including an active pre-driver to drive a high-slew rate, high current output stage GaN FET. Due to the active driver current from the pre-driver, the output stage pull-up FET can turn on faster as compared to a pre-driver that utilizes a passive pull-up load. The active pre-driver must provide a voltage to drive the gate of the output stage pull-up FET which is higher than the normal supply voltage to enable the maximum output level of the driver FET to approach the normal supply voltage. A feedback circuit is included in the active pre-driver to avoid the need for two supply voltages.

Abstract: Blade feedback systems and methods for determining a blade angle position and rotational speed of a plurality of propeller blades of a variable pitch propeller assembly are provided. Exemplary blade feedback system includes features for determining an axial position of a beta tube. Based at least in part on the axial position of the beta tube, the blade angle of the plurality of propeller blades can be determined. Exemplary blade feedback system can also include features for determining the rotational speed of the beta tube such that the rotational speed of the propeller blades can be determined.

Abstract: The present invention relates to macrocyclic compounds which are capable of selective binding to a target saccharide (e.g. glucose), making them particularly well suited for use in saccharide sensing applications. The present invention also relates to processes for the preparation of said compounds, to compositions and devices comprising them, and to their use in the detection of a target saccharide.

Abstract: A system and method for providing access to data of a first party including receiving information for identifying the first party, authenticating the first party using the received information for identifying the first party and generating a first read-only personal identification number (PIN). The first read-only PIN is associated with a first set of access rights for the data of the first party and provided to a second party. The first read-only PIN is stored with the first set of access rights in a computer database. A third party receives the first read-only PIN from the second party, authenticates the received first read-only PIN using the stored first read-only PIN and provides the second party with access to at least a portion of the data of the first party using the first set of access rights associated with the first read-only PIN if the received first read-only PIN is authenticated.

Abstract: A system and computer-implemented method for providing access to data of a first party including receiving information for identifying the first party, authenticating the first party using the received information for identifying the first party and generating a first read-only personal identification number (PIN). The first read-only PIN is associated with a first set of access rights for the data of the first party and provided to a second party. The first read-only PIN is stored with the first set of access rights in a computer database. A third party receives the first read-only PIN from the second party, authenticates the received first read-only PIN using the stored first read-only PIN and provides the second party with access to at least a portion of the data of the first party using the first set of access rights associated with the first read-only PIN if the received first read-only PIN is authenticated.

Abstract: The technology relates to allowing investors to electronically invest in private market investments, such as a private equity fund. System and methods described herein relate to an electronic private marketplace where investors can participate in a rule-based system for establishing and investing in private market assets, such as a private equity fund, during predetermined time periods for various buying and selling activities in the private marketplace.

Abstract: In one embodiment, a method includes receiving, for each smart meter in a first group of multiple smart meters connected to a power-distribution system, first information about energy contributions to the power-distribution system tracked by the smart meter and receiving, for each smart meter in a second group of the smart meters, second information about energy consumption from the power-distribution system tracked by the smart meter. The method also includes determining, based on the first information and the second information, a likelihood of an energy shortage during a specified period of time. The method further includes sending instructions to one or more of the smart meters in the second group to limit consumption of energy during the specified period of time and sending instructions to one or more of the smart meters in the first group to increase their energy contributions during the specified period of time.

Abstract: A gas chromatograph device includes an inductively heated column configured for gas chromatography. The gas chromatograph includes a column configured for gas chromatography and an inductive heating source. The inductive heating source is configured to directly or indirectly heat the column. The inductive heating source includes an inductive heating element or coil. The inductive heating element or coil is configured to induce a current directly or indirectly in the column. Wherein, the column in the gas chromatograph is inductively heated via the inductive heating source.

Abstract: A gas chromatograph with a positioning system for the inlet liner and the column includes a column and the positioning system for the inlet liner and the column. The column is configured for gas chromatography. Wherein, the positioning system for the inlet liner and the column is configured to position the inlet liner and the column with respect to one another. The positioning system for the inlet liner and the column is configured to repeatably and optimally position the inlet liner and the column with respect to one another. The positioning system for the inlet liner and the column positions the inlet liner in a perpendicular orientation to the column.

Abstract: A gas chromatograph with a removable column holder includes a column and a removable column holder. The column is configured for gas chromatography. The removable column holder houses the column. The removable column holder is configured to be removable from the gas chromatograph device with the column. The removable column holder houses only the column. The removable column holder is configured to allow removing and interchanging of the column within the removable column holder. The removable column holder is configured to protect the column within the column holder from mechanical damage and contamination due to handling. The removable column holder is configured to allow a user to install the column into the gas chromatograph without the need for tools. The removable column holder is also configured to reduce the possibility of error when installing the column.

Abstract: A gas chromatograph with column recognition technology system for the column includes a column and the column recognition technology system for the column. The column is configured for gas chromatography. The column includes column parameters associated with the column. The column recognition technology system may be configured to auto-recognize the column in the gas chromatograph device. Wherein, the column recognition technology system may be configured to auto-recognize the column parameters associated with the auto-recognized column.

Abstract: Blade feedback systems and methods for determining a blade angle position and rotational speed of a plurality of propeller blades of a variable pitch propeller assembly are provided. Exemplary blade feedback system includes features for determining an axial position of a beta tube. Based at least in part on the axial position of the beta tube, the blade angle of the plurality of propeller blades can be determined. Exemplary blade feedback system can also include features for determining the rotational speed of the beta tube such that the rotational speed of the propeller blades can be determined.

Abstract: In certain examples embodiments, an sequenced transaction process is provided that treats multiple individual transaction processes as a single transaction. Participants are able to submit requests (e.g., orders) via a client computer system specifying a total amount (e.g., in volume or other amount) that they are will to commit to against. The participants may also specify specific amounts for resources that are being matched during the sequenced transaction process. The sequenced transaction process then determines how much of each resource will be matched against each of the submitted requests.