Analog Input / Output

Analog Input module

There are 16-bit AD converter type and 12-bit AD converter type.
Please use it according to your application.

Analog Output module

These modules are equipped with a 16-bit DAC and have high resolution and high accuracy.

Details

Features

  • Super-high conversion speed of 50 μs per point
  • A single module can handle four or eight differential signal inputs.
  • Input signal range can be selected on channel basis from 0 to 5V, 1 to 5V, -10 to 10V, 0 to 10V DC, 0 to 20mA DC and 4 to 20mA DC.
  • 4 input points / 8 input points can be multiplexed during sequential A/D conversion.
  • The input terminals are isolated from the internal circuit by photocouplers.
  • Conversion cycle can be selected on module basis from 50μs, 100μs, 250μs, 500μs, 1ms, 16.6ms, 20ms and 100ms.
  • Advanced and easy-to-use features such as scaling and filtering are provided.

Specifications

  F3AD04-5R F3AD08-4R F3AD08-5R F3AD08-6R
Number of inputs 4 differential input 8 differential inputs
Absolute maximum rating 18 V DC or 25 mA DC max.
-18 V DC or -25 mA DC min.
Input signal range*1 Voltage signal only
0 to 5 V DC (-0.25 to 5.25 V DC)
1 to 5 V DC (-0.25 to 5.25 V DC)
-10 to 10 V DC (-11.0 to 11.0 V DC)
0 to 10 V DC (-0.5 to 10.5 V DC)
Current signal only
0 to 20mA DC (-1.0 to 21.0 mA DC)
4 to 20mA DC (-1.0 to 21.0 mA DC)
Voltage signal only
0 to 5 V DC (-0.25 to 5.25 V DC)
1 to 5 V DC (-0.25 to 5.25 V DC)
-10 to 10 V DC (-11.0 to 11.0 V DC)
0 to 10 V DC (-0.5 to 10.5 V DC)
Voltage signal or current signal
0 to 5 V DC (-0.25 to 5.25 V DC)
1 to 5 V DC (-0.25 to 5.25 V DC)
-10 to 10 V DC (-11.0 to 11.0 V DC)
0 to 10 V DC (-0.5 to 10.5 V DC)
0 to 20mA DC (-1.0 to 21.0 mA DC)
4 to 20mA DC (-1.0 to 21.0 mA DC)
Conversion cycle*2 50μs/100μs/250μs/500μs/1ms/16.6ms/20ms/100ms×(number of inputs); selectable on module basis.
Allowable common-mode voltage ±6 V DC max. (0 to 5 V DC, 1 to 5 V DC, 0 to 20mA DC, 4 to 20mA DC)
±1 V DC max. (-10 to 10 V DC, 0 to 10 V DC)
Isolation method Across input terminals and internal circuit: Photocoupler isolation
Across input terminals: Not isolated
Withstanding voltage 500V DC for one minute
Input resistance 1 MΩ min.*3 250 Ω 1 MΩ min.*3 1 M Ω min. when configured for voltage input*3
250 Ω when configured for current input
Maximum Resolution*4 0.4 mV:
0 to 5 V DC or 1 to 5 V DC or -10 to 10 V DC or 0 to 10 V DC input signal range (16-bit A/D conversion)
0.4 mV for 0 to 5 V DC, 1 to 5 V DC ,-10 to 10 V DC or 0 to 10 V DC input signal range
1.6 μA for 0 to 20 mA DC or 4 to 20 mA DC input signal range (16-bit A/D conversion)
Overall accuracy 23 ±2 ℃:± 0.1 %(full scale)
0 to 55 ℃:± 0.2 %(full scale)*5
Scaling Upper and lower limit values can be set to any value between -30,000 and 30,000.*6
Offset Offset value can be set to any value between -5,000 and 5,000
Filter*7 First-order lag filter or moving average computation can be enabled or disabled for individual channels. *8
Hold data Supports recording of peak values and trough values
Self diagnosis Hardware self-diagnosis during operation Over-range input detection
Current consumption 210 mA(5 V DC)
External connection 18-point terminal block, M 3.5 screws
External dimensions 28.9(W)×100(H)×106.2(D)mm
Weight 200 g

*1 : The default input signal range is 0 to 20mA DC for F3AD08-4R, and -10 to 10 V DC for F3AD04-5R, F3AD08-5R and F3AD08-6R. Conversion results are valid within the selected input signal range.
*2 : The conversion cycle is configurable on module basis. It is affected by the number of channels in use (number of unskipped channels). By default, the conversion cycle is 1 ms . Data of 8 channel module is updated every 8 ms (=Conversion cycle 1 ms × 8 inputs). Data of 4 channel module is updated every 4 ms (=Conversion cycle 1 ms × 4 inputs).
*3 : The input resistance is about 2 MΩ for channels where the input terminal IN*- is not connected to the AG terminal.
*4 : The module uses 16-bit A/D converters internally. The maximum resolution given here is due to scaling computation. The available input signal ranges vary with module type (see “Input Signal Range” row)
*5 : Accuracy is ±1% (full scale) when drift compensation is disabled.
*6 : Upper and lower limit values can be set to any value between -20,000 and 20,000 with a firmware prior to Rev.03.
*7 : First-order lag filter or moving average cannot be used when the conversion cycle is set to 50 μs.
*8 : First-order lag filter and moving average computation cannot be used concurrently on the same channel. When first-order lag filter is enabled, the actual time constant during operation is affected by the conversion cycle and number of skipped channels. The filter time constant is specified in milliseconds. The number of data points to be used for moving average computation can be set to any integer from 2 to 32.

Features

  • Conversion speed of 1ms per point.
  • A single module can handle four or eight differential signal inputs.
  • Input signal range can be selected on channel basis from 0 to 5V, 1 to 5V, -10 to 10V, 0 to 10 V DC, 0 to 20mA DC and 4 to 20 mA DC.
  • 4 input points / 8 input points can be multiplexed during sequential A/D conversion.
  • The input terminals are isolated from the internal circuit by photocouplers.
  • Advanced and easy-to-use features such as scaling and filtering are provided.

Specifications

  F3AD04-5V F3AD08-5V F3AD08-4W
Number of inputs 4 differential inputs 8 differential inputs
Absolute maximum rating 18 V DC or 25 mA DC max.
-18 V DC or -25 mA DC min.
Input signal range*1 Voltage signal only
0 to 5 V DC (-0.25 to 5.25 V DC)
1 to 5 V DC (-0.25 to 5.25 V DC)
-10 to 10 V DC (-11.0 to 11.0 V DC)
0 to 10 V DC (-0.5 to 10.5 V DC)
Current signal only
0 to 20 mA DC (-1.0 to 21.0 mA DC)
4 to 20 mA DC (-1.0 to 21.0 mA DC)
Conversion cycle*2 1ms×(number of inputs)

Allowable common-mode voltage

±6 V DC max. (0 to 5 V DC, 1 to 5 V DC, 0 to 20 mA DC, 4 to 20 mA DC)
±1 V DC max. (-10 to 10 V DC, 0 to 10 V DC)
Isolation method Across input terminals and internal circuit: Photocoupler isolation
Across input terminals: Not isolated
Withstanding voltage 500 V DC for one minute
Input resistance 1M Ω min.*3 250 Ω
Maximum Resolution 1.4 mV : 0 to 5 V DC or 1 to 5 V DC or 0 to 10 V DC input signal range
5.7 mV : -10 to 10 V DC input signal range (12-bit A/D conversion)
5.6 μA for 0 to 20 mA DC or 4 to 20 mA DC input signal range (12-bit A/D conversion)
Overall accuracy 23 ±2 ºC: ± 0.2% (full scale)
0 to 55 ºC: ± 0.5% (full scale)*4
Scaling Upper and lower limit values can be set to any value between -30,000 and 30,000. *5
Offset Offset value can be set to any value between -5,000 and 5,000
Filter First-order lag filter or moving average computation can be enabled or disabled for individual channels.*6
Hold data Supports recording of peak values and trough values
Self diagnosis Hardware self-diagnosis during operation Over-range input detection
Current consumption 210mA(5 V DC)
External connection 18-point terminal block, M 3.5 screws
External dimensions 28.9(W)×100(H)×106.2(D)mm
Weight 200g

*1 : The default input signal range is -10 to 10 V DC for F3AD04-5V, F3AD08-5V and 0 to 20mA DC for F3AD08-4W. Conversion results are valid within the selected input signal range.
*2 : By default, data of 8 channel module is updated every 8 ms ( = Conversion cycle 1 ms × 8 inputs). Data of 4 channel module is updated every 4 ms ( = Conversion cycle 1 ms × 4 inputs).
*3 : The input resistance is about 2 MΩ for channels where the input terminal IN*- is not connected to the AG terminal.
*4 : Accuracy is ±1% (full scale) when drift compensation is disabled.
*5 : Upper and lower limit values can be set to any value between -20,000 and 20,000 with a firmware prior to Rev.03.
*6 : First-order lag filter and moving average computation cannot be used concurrently on the same channel. When first-order lag filter is enabled, the actual time constant during operation is affected by the conversion cycle and number of skipped channels. The filter time constant is specified in milliseconds. The number of data points to be used for moving average computation can be set from 2 to 32.

Features

High-speed conversion and response

  • High DA conversion speed of 2 µs per channel
  • Fast output response to update instructions of 2 µs + 2 µs x (number of channels to be updated)
  • Short output update interval between channels of 2 µs

High resolution and accuracy

  • 16-bit DAC ensures higher resolution and accuracy
  • High output resolution of 0.2 mV for voltage output; high output resolution of 0.5 µA for current output
  • High overall accuracy of voltage range ±0.1% of full scale (at 23±2ºC) or current range ±0.2% of full scale (at 23±2ºC)

High functionality

  • DACs of all active channels of the same module (up to 8 channels) can be updated synchronously with a specified channel
  • The output type and output range is configurable by software.

 

Specifications

  F3DA04-6R*1 F3DA08-5R*1
Number of outputs 4 8
Absolute maximum ratings Output terminals: No external voltage or current must be applied.
Between the terminals of external power supply: 30 V max.
Isolation Between output terminals and internal circuitry: Isolated (capacitance coupling), capable of withstanding 500 V DC for 1 minute.
Between output terminals or between output terminals and external power supply: Not isolated, common negative
Output signal range Voltage  output: -10 to 10 V(-11 to 11 V)[defalt]
      0 to 10 V (-0.5 to 10.5 V)
      0 to 5 V (-0.25 to 5.25 V)
      1 to 5 V (0.1 to 5.25 V)
Current output: 4 to 20 mA(1.25 to 21 mA)
      0 to 20 mA(-1 to 21 mA)
      -20 to 20 mA(-21 to 21 mA)
Voltage output: -10 to 0 V(-11 to 11 V)[default]
      0 to 10V (-0.5 to 10.5 V)
      0 to 5V (-0.25 to 5.25 V)
      1 to 5V (0.1 to 5.25 V)
Output impedance Voltage output: 0.5 Ω max.
Current output: 3 MΩ max
Impedance at disabled output: 1 MΩ min.
Leakage current at disabled output: ± 0.5 µA max.
Voltage output:: 0.5 Ω max.
Impedance at disabled output::1 MΩ min.
Leakage current at disabled output: ±0.5 μA max.
Allowable load resistance Voltage output:
1 kΩ min.(-10 to 10 V, 0 to 10 V range)
500 Ω min.(0 to 5 V, 1 to 5 V range)
Current output: 600 Ω min.
Voltage output:
1 kΩ min.(-10 to 10 V, 0 to 10 V range)
500 Ω min.(0 to 5 V, 1 to 5 V range)
Allowable capacitive load Voltage output: 20 nF max.
Allowable inductive load Current output: 1 mH max., electropneumatic converter PK-5502 or equivalent -
Output update time*2 2 µs + 2 µs x (number of channels to be updated) For instance, 4 µs if one channel is updated, or 10 µs if 4 channels are updated. 2 µs + 2 µs x (number of channels to be updated) For instance, 4 µs if one channel is updated, or 18 µs if 8 channels are updated.
Synchronous output*3 DAC of all active channels of the same module can be updated synchronously.
Output response time Voltage output: About 20μs(-10 to 10 V range, 2 kΩ load)
Current output: About 10μs(4 to 20 mA range,  250 Ω load)
Voltage output:About 20 μs(-10 to 10 V range, 2 kΩ load)
Output resolution
(16-bit DAC)
Voltage output: About 0.5 mV(-10 to 10, 0 to 10 V range)
      About 0.2 mV(0 to 5V, 1 to 5 V range)
Current output: About 0.5 μA(4 to 20 mA range)
      About 1 μA(0 to 20 mA, -20 to 20 mA range)
Voltage output: 0.5mV(-10 to 10 V, 0 to 10 V range)
               0.2mV(0 to 5 V, 1 to 5 V range)
Overall accuracy Voltage output: ±0.1 % of FS(23 ±2 ℃, 10 MΩ load)
      ±0.3% of FS(0 to 55℃, 10 MΩ load)
Current output::±0.2% of FS(23 ±2 ℃, 100 Ω load)
      ±0.3% of FS(0 to 55 ℃, 100 Ω load)
Voltage output: ±0.1%ofFS(23 ±2 ℃, 10 MΩ load)
               ±0.3% of FS(0 to 55 ℃, 10 MΩ load)
Scaling Output signal range can be set to any digital range within -30,000 and 30,000.
CPU fail-time output The output behavior at CPU failure is configurable for each channel independently
Current consumption 60 mA (excluding that of external power supply)
External power supply Rated voltage: 24 V DC
Allowable voltage range: 19.2 V DC to 30 V DC
Current consumption: 200 mA (inrush current: 1 A)
External connection 18-point terminal block, M 3.5 screws
External dimensions 28.9(W)×100(H)×106.2(D) mm
Weight 180 g

*1 : The module must be supplied with an external power supply. All specifications assume that the external power supply is on.
*2 : The given output update time applies if the module is installed in the main unit and data to be updated is written collectively to the module using a WRITE instruction. Otherwise, 4 µs per channel is required.
*3 : The update period for synchronous output depends on the number of channels used and the user application.

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