Abstract: The present disclosure relates to anti-CDCP1 antibodies, and antigen binding fragments thereof that specifically bind to the full length and cleaved forms CUB domain-containing protein 1 (CDCP1), and conjugates comprising anti-CDCP1 antibodies and uses thereof for treatment and detection of cancer.

Abstract: A built-in test system includes a control circuit, a transient voltage suppressor circuit, and a test switch. The control circuit is configured to receive a signal, and the transient voltage suppressor circuit includes first and second transient voltage suppressors connected in series between the signal and ground. The test switch is connected to selectively conduct current between the signal and a node between the first and second transient voltage suppressors. The control circuit is configured to control the test switch to test the first and second transient voltage suppressors.

Abstract: A lightning protection circuit includes a first lightning protection branch including at least one transient voltage suppression (TVS) protection element, and a testing element integral to the lightning protection circuit. The testing element is operable to test a functionality of the lightning protection circuit while he lightning protection circuit is installed in an electronic control system. A controller is connected to the testing element, such that the controller receives sensed signals from the testing element.

Abstract: A built-in test system includes a control circuit, a transient voltage suppressor circuit, and a test switch. The control circuit is configured to receive a signal, and the transient voltage suppressor circuit includes first and second transient voltage suppressors connected in series between the signal and ground. The test switch is connected to selectively conduct current between the signal and a node between the first and second transient voltage suppressors. The control circuit is configured to control the test switch to test the first and second transient voltage suppressors.

Abstract: A lightning protection circuit includes a first lightning protection branch including at least one transient voltage suppression (TVS) protection element, and a testing element integral to the lightning protection circuit. The testing element is operable to test a functionality of the lightning protection circuit while he lightning protection circuit is installed in an electronic control system. A controller is connected to the testing element, such that the controller receives sensed signals from the testing element.

Abstract: According to one embodiment of the invention, a method for analyzing data from an instrument is disclosed. The raw data generated by the instrument, along with configuration data generated by a user, is packaged into a calling model. The raw data may include, for example, counts having a certain kinetic energy when analyzing photoelectron spectroscopy data. The configuration data may include several parameters selected by the user based on the composition and configuration of the structure being measured. The calling model may serve as an interface between the instrument and an engine for generating an algorithm for returning desired results to the user. The engine then generates the algorithm as well as the results specified by the user, and the calling model returns the results to the user. This allows a specific algorithm and results for a specific measured sample or structure to be generated using known algorithms and functions.

Abstract: According to one embodiment of the invention, a method for analyzing data from an instrument is disclosed. The raw data generated by the instrument, along with configuration data generated by a user, is packaged into a calling model. The raw data may include, for example, counts having a certain kinetic energy when analyzing photoelectron spectroscopy data. The configuration data may include several parameters selected by the user based on the composition and configuration of the structure being measured. The calling model may serve as an interface between the instrument and an engine for generating an algorithm for returning desired results to the user. The engine then generates the algorithm as well as the results specified by the user, and the calling model returns the results to the user. This allows a specific algorithm and results for a specific measured sample or structure to be generated using known algorithms and functions.

Abstract: A method of tuning an inspection system. An inspection piece is sensed and analyzed to identify anomalies. Level information is analyzed with an initial set of thresholds, and an initial portion of the anomalies are flagging as defects. The inspection system parameters are changed, and the level information is analyzed with a modified set of thresholds. The anomalies are flagged as defects based on the immediately preceding analysis of the level information. The steps of changing the thresholds and reflagging the defects are repeated as desired, and the modified set of thresholds are stored for use in an inspection system recipe.

Abstract: Methods and compositions are disclosed for modulating the immune system of animals. Applicant has identified that oral administration of immunoglobulins purified from animal blood can modulate serum IgG, TNF-? or other nonspecific immunity components' levels for treatment of immune dysfunction disorders, potentiation of vaccination protocols, and improvement of overall health and weight gain in animals, including humans.

Abstract: A friction disc (110) includes a pair of segmented friction facings (112) adhered to the opposing sides of annular core (114). The friction facings (112) are composed of three arcuate segments (116) of sintered material or paper impregnated with a resin interjoined together at match lines (118) located generally 120.degree. apart. Each arcuate segment (116) includes opposed ends having tab and slot configurations which are designed to have a pair of arcuate edge lines (124, 126), (124', 126') located in an opposed relationship proximate the annular centerline of the width of the segment (116). An interconnector edge line (128), (128') is located angularly across the annular centerline of the segment (116) and joined tangentially to the arcuate match lines (124, 126), (124', 126'). The remaining end of each arcuate match line (124, 126), (124', 126') is then joined to the respective inside annular edge (134) and outside annular edge (136) of each arcuate segment ( 116).