Abstract: Method and system that produce requisite drive signals to fully exercise and test electromechanical elements of a liquid rocket stage including solenoid valve drives, DC motor drives and actuator drive signals. The electrical driver tester includes a signal processor, power driver circuits, and A/D and D/A circuits to monitor and control the drive circuitry. Drive current is monitored and a signal proportional to the current is produced for the purpose of analyzing current profiles as part of the test regimen for the device under test. Actuator speed and positioning are controlled in real time with a tailored lead lag control algorithm implemented with digital signal processor hardware.

Abstract: Method and system to configure a common set of electronic components using software in order to simulate different electronic, mechanical and/or electro-mechanical instruments or instrument functions. For each instrument function or traditional mode of operation to be simulated, software models are created which when directed to the electronic components, cause the electronic components to respond to input in the same manner that the actual, traditional physical instrument would respond to satisfy the same test requirement input. The software models are preferably stored in a model repository which is searchable to enable a user to select the instrument function or traditional mode of operation to be simulated with the corresponding model being provided to the electronic components. Once the model, i.e., a function for each synthetic element, is downloaded and the electronic components configured according to the model functions, testing of the assemblies or other UUTs can begin.

Abstract: Arrangement and method for simulating electro-mechanical systems includes a simulator for simulating an operating environment of a plurality of different electro-mechanical systems, a first interface unit for enabling the simulator to interface with a host computer and input/output devices, and a second interface unit for enabling the simulator to be reprogrammed and re-configured to enable simulation of the operating environment of the different electro-mechanical systems. The simulator may include a user-programmable field programmable gate array and a digital signal processing unit coupled to the field programmable gate array.

Abstract: Method and system to configure a common set of electronic components using software in order to simulate different electronic, mechanical and/or electro-mechanical instruments or instrument functions. For each instrument function or traditional mode of operation to be simulated, software models are created which when directed to the electronic components, cause the electronic components to respond to input in the same manner that the actual, traditional physical instrument would respond to satisfy the same test requirement input. The software models are preferably stored in a model repository which is searchable to enable a user to select the instrument function or traditional mode of operation to be simulated with the corresponding model being provided to the electronic components. Once the model, i.e., a function for each synthetic element, is downloaded and the electronic components configured according to the model functions, testing of the assemblies or other UUTs can begin.

Abstract: A distributed test system for implementing enhanced BIT (Built-In-Test) within an ESM (Electronic Surveillance Monitoring) or RF receiver system. The distributed test system includes a system processor, a programmable RF source element or other comparable test signal generating arrangement, and switched path coupled elements and various measurement elements, each embedded at strategic locations within the ESM system so as to effect maximum path coverage and test benefit.

Abstract: Method and system to configure a common set of electronic components using software in order to simulate different electronic, mechanical and/or electro-mechanical instruments or instrument functions. For each instrument function or traditional mode of operation to be simulated, software models are created which when directed to the electronic components, cause the electronic components to respond to input in the same manner that the actual, traditional physical instrument would respond to satisfy the same test requirement input. The software models are preferably stored in a model repository which is searchable to enable a user to select the instrument function or traditional mode of operation to be simulated with the corresponding model being provided to the electronic components. Once the model, i.e., a function for each synthetic element, is downloaded and the electronic components configured according to the model functions, testing of the assemblies or other UUTs can begin.