Abstract: A steering system for a medical device may include a first drive member having a central longitudinal axis; a central shaft extending through the first drive member; a control knob coupled to the first drive member; a braking knob coupled to the central shaft and including a first protrusion; and a brake shoe member coupled to the central shaft between the control knob and the braking knob. The first protrusion may be positioned within a first channel of the brake shoe member; the first protrusion may be configured to engage the brake shoe member to move a first arm of the brake shoe member radially outward towards a wall of the control knob when the braking knob is rotated in a first direction; and the first arm may be configured to move away from the wall when the braking knob is rotated in a second direction.

Abstract: An improved device and system for facilitating polymerase chain reaction including a light source, detector, waveguide, and filters that occupy minimal space and facilitate detection of stationary samples, reduced sample read time, and simultaneous reading of multiple light wavelengths.

Abstract: A system for communicating hose test information using a test results transfer protocol (TRTP) is disclosed. The system also includes a network interface. The system also includes a memory storage. The system also includes one or more processors configured to: initialize a plurality of status words according to the TRTP, generate a payload array configuration having a number of payloads in a payload array and a number of registers, generate the payload array having hose test result information according to the TRTP, and provide the generated payload array to the network interface for transmission.

Abstract: A testbench system is disclosed. The system includes a network interface; a memory storage; a transducer; and one or more processors.

Abstract: A system for communicating hose test information using a test results transfer protocol (TRTP) is disclosed. The system also includes a network interface. The system also includes a memory storage. The system also includes one or more processors configured to: initialize a plurality of status words according to the TRTP, generate a payload array configuration having a number of payloads in a payload array and a number of registers, generate the payload array having hose test result information according to the TRTP, and provide the generated payload array to the network interface for transmission.

Abstract: A testbench system is disclosed. The system includes a network interface; a memory storage; a transducer; and one or more processors. The one or more processors are configured to operate in a first phase and: perform calibration of the transducer and generate calibration data; generate a unique identification (CTS-ID) for the transducer based on the calibration data; mark the transducer with the CTS-ID; and provide the CTS-ID and the calibration data to the network interface for transmission to a database.

Abstract: A system for communicating hose test information using a test results transfer protocol (TRTP) is disclosed. The system also includes a network interface. The system also includes a memory storage. The system also includes one or more processors configured to: initialize a plurality of status words according to the TRTP, generate a payload array configuration having a number of payloads in a payload array and a number of registers, generate the payload array having hose test result information according to the TRTP, and provide the generated payload array to the network interface for transmission.

Abstract: A testbench system is disclosed. The system includes a network interface; a memory storage; a transducer; and one or more processors. The one or more processors are configured to operate in a first phase and: perform calibration of the transducer and generate calibration data; generate a unique identification (CTS-ID) for the transducer based on the calibration data; mark the transducer with the CTS-ID; and provide the CTS-ID and the calibration data to the network interface for transmission to a database.

Abstract: A testbench system 210, 206 for analyzing hose assemblies 204 is disclosed. The testbench system 210, 206 includes a network interface 308 and a memory storage 310. The testbench also includes and one or more processors 312 configured to: obtain a unique assembly identification (UAID) for a hose assembly, reference a database 162 using the UAID to obtain hose usage information and hose characteristics for the hose assembly 204, perform one or more tests on the hose assembly based on the hose characteristics and generate test results, determine whether the hose assembly 204 meets one or more thresholds based on the test results, and generate a pass/fail message based on whether the determination of whether the hose assembly meets the one or more thresholds, and transfer the pass/fail message to the network interface 308.

Abstract: An RF clocked device can include a signal processor operable to receive an RF signal having an RF signal frequency and output a clock signal having a clock frequency based on the RF signal frequency. The RF clocked device can also include a clock operable to receive, and operate, using the clock signal. The clock can output at least one of a time and a date. In addition, a clock system can include an RF clocked device. The RF clocked device can include a signal processor operable to receive an RF signal having an RF signal frequency and output a clock signal having a clock frequency based on the RF signal frequency. The RF clocked device can also include a clock operable to receive, and operate, using the clock signal. The clock can output at least one of a time and a date. The clock system can also include a client device operable to receive timing information from the RF clocked device.

Abstract: An RF clocked device can include a signal processor operable to receive an RF signal having an RF signal frequency and output a clock signal having a clock frequency based on the RF signal frequency. The RF clocked device can also include a clock operable to receive, and operate, using the clock signal. The clock can output at least one of a time and a date. In addition, a clock system can include an RF clocked device. The RF clocked device can include a signal processor operable to receive an RF signal having an RF signal frequency and output a clock signal having a clock frequency based on the RF signal frequency. The RF clocked device can also include a clock operable to receive, and operate, using the clock signal. The clock can output at least one of a time and a date. The clock system can also include a client device operable to receive timing information from the RF clocked device.

Abstract: The Automotive Info-cator is designed to assist and organize the Automotive Repair Industry, by placing all repair and insurance related information in one highly visible, accessible, water-resistant place. This information is then available for the repair technician, parts staff, and insurance estimators. The Info-cator acts as a line of communication between the office staff and all others involved in the repair process.

Abstract: A method is described of treating a gas stream exhausted from an atomic layer deposition (ALD) process chamber to which two or more gaseous precursors are alternately supplied. Between the process chamber and a vacuum pump used to draw the gas stream from the chamber, the gas stream is conveyed to a gas mixing chamber, to which a reactant is supplied for reacting with one of the gaseous precursors to form solid material. The gas stream is then conveyed to a cyclone separator to separate solid material from the gas stream. By deliberately reacting a non-reacted precursor to form solid material upstream from the pump, reaction within the pump of the non-reacted precursor and a second non-reacted precursor subsequently drawn from the chamber by the pump can be inhibited.

Abstract: A method and apparatus for producing and storing a digital image that electronically represents an image on a filmstrip, wherein the image recording medium is scanned to produce digital pixel data representative of the image content of successive scan lines of the medium, and the digital pixel data from successive scan lines are written to a circular buffer. The location of respective image frames contained in the digital pixel data written to the buffer is detected by analyzing the data written to the buffer using predetermined algorithms, and then the digital pixel data representative of detected image frames is copied into frame buffers before the data on the circular buffer of image frames already copied into image buffers is overwritten with digital pixel data representative of the contents of subsequent scan lines of the image recording medium.