PC-P30-I-Analogue

P30: Analogue I/O

8 inputs + 4 analogue outputs
ISA bus

P30: Analog I/O

Brief description of the card

  • Management of 8 analogue inputs + 4 analogue outputs.
  • Both voltage and current input signals, individually adjustable over different ranges.
  • Use of a DSP microprocessor for high acquisition speed and "intelligent" processing on board.
  • Digital filter, SW programmable, for acquisition of each input.
  • PID algorithm, SW configurable, for controlling the 4 analogue outputs.
  • Possibility of customized Firmware.
  • Can be inserted directly into an ISA slot on a Personal Computer.

Leomatic supplies the P30 boards with a software library that allows to manage all their potentialities and to realize the interface for the applications.
The accompanying software also includes some "demo" source files that illustrate the use of the library in various programming languages.
Leomatic is available to create customised versions of the acquisition and processing firmware.

Leomatic logo

P30: Analog I/O

ISA BUS boards (standard or industrial PC)

product information

  • Management of 8 analogue inputs, individually selectable via jumpers as a voltage signal with range:
    • ± 10 Volts
    • ± 2.5 Volts
    • ± 5 Volts (on request)
    • ± 1.25 Volts (on request)
      or as a current signal with range:
    • ± 20 mA
  • Management of 4 analogue outputs, with range:
    • ± 10 Volts
  • 12-bit A/D and D/A converters.
  • Use of 40 MHz DSP microprocessor.
  • Conversion time: 10 µs.
  • Possibility of generating an interrupt to the CPU, selectable via jumpers between 2 different IRQs.
  • Coexistence of 16 P30 boards (addressable via jumpers), for a total of 128 simultaneous analogue inputs + 64 outputs.

  • Dimensions: 100 mm x 125 mm.
  • Front Panel: Standard PC slot.
  • 1 ISA bus comb.
  • 1 x 15-pin D-SUB male connector for the 8 input channels.
  • 1 x 15-pin D-SUB female connector for the 4 output channels.

Consumption :

  • 150 mA on + 5 Vdc.
  • 20 mA on +12 Vdc.
  • 10 mA at -12 Vdc.

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2021-02-21T10:34:13+01:00