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What I/O Options are available (analog, digital, use of amplifiers, use of low voltage inputs, IEC 61850, etc)?

  • Analog converter module with 16 independent 16-bit converter,
    • 2.5 us conversion time (16 ch. Converted in 2.5 us)
    • Optional converters with 500 nanoseconds conversion time available (16 channels Converted in 500 nanoseconds)
    • Front-end instrumentation differential amplifiers with maximum input voltage range adjustable from +_ 1V +- 100V (+- 600V optional attenuator box)  by changing two resistors to keep the full 16-bit resolution
    • Simultaneous conversion of all channels controlled by the FPGA
    • Possibility to control the coversion time of each channel by the FPGA
    • Possibility to convert analog signal between the base simulator time step to implement special models and signal processing functions with time step of 2.5 micros or 500 nanoseconds depending on A/D converter speed selected
    • Gain and offset calibration factor adjustable through software and stored on local non-volatile memory installed on the module
  • Analog converter output module with 16 independent 16-bit converters,
    • One (1) us conversion time per converter (16 channels Converted in 1 us)
    • With output buffer amplifiers with maximum output voltage range adjustable from +_ 100 mV to +- 16 V  (+- 16 V standard)  to keep the full 16-bit resolution
    • Simultaneous conversion of all channels controlled by the FPGA
    • Possibility to control the conversion time of each channel by the FPGA
    • Possibility to convert analog signal between the base simulator time step to implement special models and signal processing functions with time step of 1 micros
    • Gain and offset calibration factor adjustable through software and stored on local non-volatile memory installed on the module
    • Short-circuit protection at 10 mA (optional 100 mA buffer available)
  • Discrete output module with 32 independent channels per module
    • Push-pull type
    • 50 nanoseconds delay
    • Galvanic isolation
    • Output voltage adjustable from 5V to 30V
    • Short-circuit protection at 100 mA
  • Optional TTL,  SPI and LVDS output
  • Discrete Input module with 32 independent channels per module
    • Current input from 2 mA to 6 mA
    • Input current protection by a resettable solid-state fuse
    • Input voltage adjustable from 5V to 30 V
    • 100 nanoseconds delay maximum
    • Galvanic isolation
  • Optional TTL,  SPI and LVDS digital input
  • Optical fiber Input and output module with 32 independent channels per module
    • 10 Mbits optical interface
    • Type of optical interface selected for the specific application
  • High-voltage Input and output module with 32 independent channel per module
    • 100-volt voltage output, 1 us, for the train industry
    • Source or sink mode
  • 1-A, 10V current output  module with 8 independent channels per module
    • 50-kHz bandwidth
    • Used to interface with control systems with high-current input
  • 5A to 50 A current sensor and +- 600 V voltage sensor  module
    • 4 current sensors and 4 differential voltage sensors per module
    • 50-kHz bandwidth
  • Other Optional I/O boards