Abstract: A known-deployed file metadata repository (KDFMR) and analysis engine enumerates reference lists of files stored on a software delivery point (SDP) and compares the enumerated list of files and associated metadata to previously stored values in the KDFMR. If newly stored or modified files are identified, the analysis engine acquires the files from the SDP. Each file is analyzed to determine whether the file is an atomic file or a container file and metadata is generated or extracted. Each file stored in a container file is recursively extracted and analyzed, where metadata is generated for each extracted file and each container file. The KDFMR periodically analyzes the files stored on the SDP for differences to maintain the currency of the KDFMR data with respect to files stored on the SDP. Storage or modification of files on the SDP triggers analysis of the associated file. KDFMR data is updated with metadata determined based on sandbox detonation of files and/or identified artifacts of known-deployed files.

Abstract: A known-deployed file metadata repository (KDFMR) and analysis engine enumerates reference lists of files stored on a software delivery point (SDP) and compares the enumerated list of files and associated metadata to previously stored values in the KDFMR. If newly stored or modified files are identified, the analysis engine acquires the files from the SDP. Each file is analyzed to determine whether the file is an atomic file or a container file and metadata is generated or extracted. Each file stored in a container file is recursively extracted and analyzed, where metadata is generated for each extracted file and each container file. The KDFMR periodically analyzes the files stored on the SDP for differences to maintain the currency of the KDFMR data with respect to files stored on the SDP. Storage or modification of files on the SDP triggers analysis of the associated file. KDFMR data is updated with metadata determined based on sandbox detonation of files and/or identified artifacts of known-deployed files.

Abstract: A voltage regulator that includes an input voltage; a first JFET transistor, the input voltage being applied to a drain of the first JFET transistor; a second JFET transistor, the input voltage being applied to a drain of the second JFET transistor; and a resistor string, the resistor string including a first resistor, a second resistor and a third resistor, the resistor string and the second JFET transistor forming a voltage reference circuit having a reference voltage.

Abstract: A voltage regulator that includes an input voltage; a first JFET transistor, the input voltage being applied to a drain of the first JFET transistor; a second JFET transistor, the input voltage being applied to a drain of the second JFET transistor; and a resistor string, the resistor string including a first resistor, a second resistor and a third resistor, the resistor string and the second JFET transistor forming a voltage reference circuit having a reference voltage.

Abstract: A radiation-hardened DC-DC converter capable of operating at cryogenic temperatures in high radiation environments. The radiation-hardened DC-DC converter can include an input side, the input side producing a high frequency AC voltage; a transformer; and an output side, the output side including a magnetic amplifier, wherein the pre-regulated high frequency AC voltage is fed to the magnetic amplifier through the transformer allowing the magnetic amplifier to provide a pulse width modulation function for voltage regulation.

Abstract: A DC/DC electrical configuration for operating over a large span of input voltages. The electrical configuration converter including a pre-filter, a voltage limiter; a first DC/DC converter; a second DC/DC converter; a step-down transformer; and a rectifier filter. The DC-DC electrical configuration safely operates in a presence of an input voltage that varies in magnitude.

Abstract: A radiation-hardened DC-DC converter capable of operating at cryogenic temperatures in high radiation environments. The radiation-hardened DC-DC converter can include an input side, the input side producing a high frequency AC voltage; a transformer; and an output side, the output side including a magnetic amplifier, wherein the pre-regulated high frequency AC voltage is fed to the magnetic amplifier through the transformer allowing the magnetic amplifier to provide a pulse width modulation function for voltage regulation.

Abstract: A radiation hardened active OR circuit for providing a controlled electrical response in radiation-intensive applications. The circuit can include a first voltage source; a second voltage source; a comparator for sampling the first voltage source and the second voltage source; a first switch; and a second switch. The comparator can select a higher magnitude of the first voltage source and the second voltage source and connects the higher magnitude of the first voltage source and the second voltage source to a common output by steering a drive signal to one of the first switch or the second switch.

Abstract: A DC/DC electrical configuration for operating over a large span of input voltages. The electrical configuration converter including a pre-filter, a voltage limiter; a first DC/DC converter; a second DC/DC converter; a step-down transformer; and a rectifier filter. The DC-DC electrical configuration safely operates in a presence of an input voltage that varies in magnitude.

Abstract: A radiation hardened active OR circuit for providing a controlled electrical response in radiation-intensive applications. The circuit can include a first voltage source; a second voltage source; a comparator for sampling the first voltage source and the second voltage source; a first switch; and a second switch. The comparator can select a higher magnitude of the first voltage source and the second voltage source and connects the higher magnitude of the first voltage source and the second voltage source to a common output by steering a drive signal to one of the first switch or the second switch.

Abstract: A radiation hardened motor drive stage utilizes a non-radiation hardened P-channel FET switch. The radiation hardened motor drive stage includes a non-radiation hardened P-channel FET switch that is connected three (3) pairs of upper and lower switch blocks or legs wherein the output of each pair is connected to a motor winding switch terminal. The upper switch blocks or legs are connected the P-channel switch a. The lower switch block or legs are connected to a negative power bus. The negative power bus permits the N-channel FETS or IGTS within the switch blocks or legs exposed to ionized radiation to be controlled, even when their gate threshold voltage has dropped below zero volts.

Abstract: A power switching circuit designed for operating in a radiation environment using non-radiation hardened components is provided. The power switching circuit provides a high-voltage rated, non-radiation hardened N-channel FET (N-FET) controlled by a relatively small, low-voltage, non-radiation hardened P-channel FET (P-FET), while both devices are operating in a radiation environment. The P-FET device is drive by a sufficiently high drive voltage in order to overcome gate threshold shifts resulting from accumulated radiation damage.

Abstract: A radiation tolerant electrical component is provided without a radiation hardened material FET. A p-channel MOSFET provides switching capabilities in radiated environments because its gate voltage starts at a negative value and becomes more negative with exposure to radiation. Therefore, the gate is still controllable when exposed to radiation.

Abstract: A power switching circuit designed for operating in a radiation environment using non-radiation hardened components is provided. The power switching circuit provides a high-voltage rated, non-radiation hardened N-channel FET (N-FET) controlled by a relatively small, low-voltage, non-radiation hardened P-channel FET (P-FET), while both devices are operating in a radiation environment. The P-FET device is drive by a sufficiently high drive voltage in order to overcome gate threshold shifts resulting from accumulated radiation damage.

Abstract: A radiation-tolerant inrush limiter is provided. The inrush limiter does not incorporate radiation-hardened parts, but instead uses an ordinary (non-hardened) p-channel FET to provide switching functionality.

Abstract: A radiation hardened motor drive stage utilizes a non-radiation hardened P-channel FET switch. The radiation hardened motor drive stage includes a non-radiation hardened P-channel FET switch that is connected three (3) pairs of upper and lower switch blocks or legs wherein the output of each pair is connected to a motor winding switch terminal. The upper switch blocks or legs are connected the P-channel switch a. The lower switch block or legs are connected to a negative power bus. The negative power bus permits the N-channel FETS or IGTS within the switch blocks or legs exposed to ionized radiation to be controlled, even when their gate threshold voltage has dropped below zero volts.

Abstract: A radiation tolerant electrical component is provided without a radiation hardened material FET. A p-channel MOSFET provides switching capabilities in radiated environments because its gate voltage starts at a negative value and becomes more negative with exposure to radiation. Therefore, the gate is still controllable when exposed to radiation.

Abstract: A method of producing an economical DC/DC converter that efficiently produces a relatively low output voltage and operates in a high ionizing radiation dose environment such as found in spacecraft and particle accelerator applications. That is, the converter comprises two P-channel FETs, a switching means for switching conductivity between the two P-channel FETs, and output means for outputting an output voltage. The output voltage being a step-down voltage that is unaffected by high-ionizing radiation such that is found in space or particle accelerators.

Abstract: Systems and methods are disclosed for operating an automated vehicle wash or lubrication system and providing user selected car wash or lubrication services according to a prepaid customer account, in which the customer's credit card is automatically charged at a regular interval or based on a certain number of services having been provided for the prepaid wash or lubrication services.

Abstract: The present invention provides a radiation-tolerant, solid-state-relay without radiation-hardened parts. In further detail, the solid-state-relay includes a non-hardened P-channel MOSFET, a low power storage of voltage gain and a feedback signal with the low power stage of voltage gain being relatively insensitive to radiation effects.