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Data Acquisition/ADC Card for InstruNet 400 systems, which provides 8off independently configurable differential or 16 Single-Ended Analog Input Channels, 4 Analog Outputs (2x 14bit, 2x 8bit) and 4off Universal Digital I/O channels.
This card is the main Analog to Digital Conversion card for the InstruNet-400 system.
Software support is offered within the InstruNet World software, while drivers are available for our Orchestrator SCADA software, along with NI Labview plus DasyLab. An enhanced version of InstruNet World (IW+) can be provided along with the necessary files/demo programs to produce Interfaces in C or VB.
|
Analog Input |
16se/8di Voltage Input Channels with 16-bit A/D Converter |
This A/D module provides 16se/8di voltage input channels (Ch#1...#16), each of which are independently software programmable with Windows software that support the direct connection to many common sensor types |
|
Absolute Accuracy |
Specified |
Error components (i.e. INL, DNL, linearity, noise, temperature drift , time stability) are summed and specified as "Absolute Accuracy" with the following supported sensors (click for accuracy and maximum sample rate): Voltage, Thermocouple, Thermistor, RTD, Load Cell, Strain Gauge, Potentiometer, Current, Resistance. |
|
Voltage Ranges |
±10mV ... ±5V, |
Voltage input range on each channel is independently software programmable to one of: ±10mV, ±20mV, ±40mV, ±80mV, ±600mV, ±1.2V, ±2.5V, ±5V, ±10V(single-ended only) , 0 to 1.2V, 0 to 2.5V, 0 to 5V |
|
Internal A/D |
16-bit |
Internal 16-bit A/D Converter resolves voltage input range to 0...65535 digital value. |
|
Sensors |
Direct Connect |
Each of the 8 differential channels support the direct connection to the following sensor types (click for Wiring Diagram and Setup Instructions): Voltage, Thermocouple, Thermistor, RTD, Load Cell, Strain Gage, Potentiometer, Current, Resistance |
|
Channel Amplifiers |
Software Programmable |
Each channel provides the following software programmable parameters: A/D Signal-Averaging-Per-Point (0 ... 100mSec) , Sample-Rate (samples-per-second-per-channel) , Digital IIR Filter (LowPass, HighPass, BandPass, or BandStop) , Voltage Measurement Range (±10mV...±10V ) , Sensor Type , and Single-Ended or Differential Wiring |
|
Wiring |
Single-Ended or Differential |
Single-ended (SE) wiring involves measuring the voltage between the input pin and instruNet Ground; whereas Differential (DI) wiring involves measuring the voltage between two input pins |
|
Protected Voltage |
-25 to +25V |
Short any combination of voltage input channels to external -25 to +25V power source (i.e. capable of high current), instruNet power on or off, any duration, without damage |
|
RFI Filter |
24 KHz RFI filter on = ±80mVrange |
RFI filter is a low pass filter that rejects high frequencies that could cause small measurement errors if left unfiltered |
|
Digital Filter |
LowPass, HighPass, BandPass, or BandStop |
Each channel provides optional digital IIR lowpass, highpass, bandpass and bandstop filters with independent software programmable cut-off frequency, minimum dB stopband attenuation, maximum dB passband attenuation, and filter type (e.g. Elliptic, Chebyshev B, Chebyshev S, and Butterworth). Number of poles is programmable between 2 and 32 for bandpass/bandstop; and between 2 and 16 for lowpass/highpass . |
|
Maximum Sample Rate |
166Ks/sec/aggregate |
Digitize at a maximum sample rate of 166K sample/sec for 1 channel on largest voltage input range. More channels at same voltage input range involves slower rates, e.g. 83Ks/sec per channel for 2 channels, 41Ks/sec/ch for 4 channels, and 20Ks/sec/ch for 8 channels. For a details on maximum sample rate and bandwidth with different voltage input ranges, sensor types, and a/d averaging ; please request the absolute accuracy specification tables. Things that decrease High Speed I/O sample rate: longer computer to instruNet cable, i330 optical-isolator. Sample rate is set accurate to 50 ppm (e.g. user specifies 20000 s/sec yet system actually digitizes at 20001 s/sec). Minimum sample rate is 0.015 samples/sec/ch. |
|
Sensor Excitation |
Included |
Excitation power (+3.3V ±.2V, <0.22A, 28mA per sensor max) is provided for sensors, along with other End User Power voltages. This 3.3V, which is referenced to instruNet Ground, is automatically readback by A/D when calculating sensor values. |
|
Common Mode Voltage |
-10 to +10V |
All voltage input pins must be driven with a voltage between -10 and +10V, with respect to instruNet ground. instruNet ground is connected to instruNet chassis, which is connected to Earth ground via instruNet power supply plug . |
|
Input Coupling |
DC |
Measure constant DC voltage or dynamic AC waveform with absolute voltage accuracy |
|
Input Impedance |
100M Ohm |
Internal 100M Ohm resistor (5% accuracy) between input pin and instruNet ground reduces fluctuating measurments when input pin is left unconnected |
|
Common Mode Rejection Ratio |
>= 74dB |
CMRR is the amount of rejection of a common signal that is present on both inputs of a differential measurement. Theoretically, it should not be measured because the differential measurement looks at the voltage between two pins; however small internal imbalances cause a small error, which is specified here with a DC to 60Hz common mode signal. |
|
Analog Output |
|
|
|
Description |
2x 14-bit Voltage Outputs |
This module provides 2 channels (Ch#19...#20) that can output a voltage between -10.1 and +10.1V accurate to ±4mV. An internal 14-bit d/a converter is following by an amplifier that can drive up to ±4 mA of current and drive up to 10K pF of capacitance. Each output is short-circuit protected against -18 to +18V, power on or off, without damage |
|
Output Voltage Range |
-10.1 to +10.1V |
Each channel is set independently to a voltage between -10.1 and +10.1V via software running on a Windows computer |
|
D/A Resolution |
14-bit |
Internal 14-bit digital-to-analog converter resolves 0...16383 digital value to -10.1 to +10.1V analog voltage with ~1.3mV per LSB (least-significant-bit) monotonic resolution |
|
Output Absolute Accuracy |
±4mV max error |
Output is set accurate to ±4mV, which is the sum of all maximum error components (i.e. INL, DNL, linearity) |
|
Description |
2x 8-bit Voltage Outputs |
This module provides 2 channels (Ch#17...#18) that can output a voltage between 0 and +10.1V accurate to ±78mV. An internal 8-bit d/a converter is following by an amplifier that can drive up to ±4 mA of current and drive up to 10K pF of capacitance. Each output is short-circuit protected against -18 to +18V, power on or off, without damage |
|
Output Voltage Range |
0 to +10.1V |
Each channel is set independently to a voltage between 0 and +10.1V via software running on a Windows computer |
|
D/A Resolution |
8-bit |
Internal 8-bit digital-to-analog converter resolves 0...255 digital value to 0 to +10.1V analog voltage with ~39.8mV per LSB (least-significant-bit) monotonic resolution |
|
Output Absolute Accuracy |
±78mV max error |
Output is set accurate to ±78mV, which is the sum of all maximum error components (i.e. INL, DNL, linearity) |
|
Digital I/O |
|
|
|
Description |
4 Bidirectional Digital I/O |
The 20mA sink digital I/O port consists of 4 individual TTL-compatible lines (Ch#25...#28), each of which can be configured as: digital input bit, digital output bit, control output, clock output. When configured as an input, a channel can be used to sense a digital high (2.1 to 30 Volts) or digital low (-10V to .65Volts). When configured as an output, a channel can be set high (e.g. >2V) or low (e.g. <0.8V). These I/O pins are short-circuit protected against high voltages up to 32.0V and down to -16.0V. |
|
Function |
Multiple Options |
Software programmed to one of: digital input bit, digital output bit, control output, clock output. Clock output options are: 24MHz, 12MHz24 , 6MHz, 1.5MHz, 1MHz, 375KHz, 100KHz, 93.750008KHz, 23.437502KHz, 10KHz, 5.9KHz, 1.5KHz, 1KHz, 366Hz, 100Hz, 91.552734Hz, 22.888184Hz, 10Hz, 5.7Hz, 1.4Hz, 1Hz, 0.358Hz, 0.0894Hz. Control output options are: pulse low when rd/wr to Uio 25..28 port, pulse low when read from Uio 25..28 port, pulse low when in software reset or power is off. |
|
TTL Compatible |
Yes |
Supports 0.8V for logic 0 and 2V for logic 1, which is typical for TTL |
|
3.3V Cmos Compatible |
Yes |
Supports 1.1V (3.3V*.35) for logic 0 and 2.3V (3.3V*.7) for logic 1, which is typical for digital Cmos powered by 3.3V |
|
5V Cmos Compatible |
Yes |
Supports 1.75V (5V*.35) for logic 0 and 3.5V (5V*.7) for logic 1, which is typical for digital Cmos powered by 5V |
|
Drive Relay Directly |
Yes |
Wire one side of external relay coil to power supply (e.g. 5V, 12V), wire other side to I/O pin, and output logic 0 to turn on relay |
|
Detect Switch Closure |
Yes |
Wire one side of external switch to gnd, wire other side to I/O pin, input logic 0 when switch is closed, and input logic 1 when switch is open |
|
General |
|
|
|
I/O Connector |
HD44 male |
High density 44 pin male connector |
|
Wiring Box |
Compatible |
Easy to install wiring box: i510 |
|
Physical Dimensions |
134.6mm x 130.3mm x 25.4mm |
Standard instruNet i4xx card, |
|
Operating Temp. |
1 to 45°C |
Operate in temperature between 1°C and 45°C, no condensation |
|
Storage Temperature |
-20 to 70°C |
Store in ambient temperature between -20°C and +70°C |
|
Relative Humidity |
<= 90% |
Operate in humidity less than 90%, no condensation |
|
Hot Plug & Play |
Yes |
One can insert i4xx module with power on or off, without damage |
Data Acquisition/ADC Card for InstruNet 400 systems, which provides 8off independently configurable differential or 16 Single-Ended Analog Input Channels, 4 Analog Outputs (2x 14bit, 2x 8bit) and 4off Universal Digital I/O channels.
This card is the main Analog to Digital Conversion card for the InstruNet-400 system.
Software support is offered within the InstruNet World software, while drivers are available for our Orchestrator SCADA software, along with NI Labview plus DasyLab. An enhanced version of InstruNet World (IW+) can be provided along with the necessary files/demo programs to produce Interfaces in C or VB.
|
Analog Input |
16se/8di Voltage Input Channels with 16-bit A/D Converter |
This A/D module provides 16se/8di voltage input channels (Ch#1...#16), each of which are independently software programmable with Windows software that support the direct connection to many common sensor types |
|
Absolute Accuracy |
Specified |
Error components (i.e. INL, DNL, linearity, noise, temperature drift , time stability) are summed and specified as "Absolute Accuracy" with the following supported sensors (click for accuracy and maximum sample rate): Voltage, Thermocouple, Thermistor, RTD, Load Cell, Strain Gauge, Potentiometer, Current, Resistance. |
|
Voltage Ranges |
±10mV ... ±5V, |
Voltage input range on each channel is independently software programmable to one of: ±10mV, ±20mV, ±40mV, ±80mV, ±600mV, ±1.2V, ±2.5V, ±5V, ±10V(single-ended only) , 0 to 1.2V, 0 to 2.5V, 0 to 5V |
|
Internal A/D |
16-bit |
Internal 16-bit A/D Converter resolves voltage input range to 0...65535 digital value. |
|
Sensors |
Direct Connect |
Each of the 8 differential channels support the direct connection to the following sensor types (click for Wiring Diagram and Setup Instructions): Voltage, Thermocouple, Thermistor, RTD, Load Cell, Strain Gage, Potentiometer, Current, Resistance |
|
Channel Amplifiers |
Software Programmable |
Each channel provides the following software programmable parameters: A/D Signal-Averaging-Per-Point (0 ... 100mSec) , Sample-Rate (samples-per-second-per-channel) , Digital IIR Filter (LowPass, HighPass, BandPass, or BandStop) , Voltage Measurement Range (±10mV...±10V ) , Sensor Type , and Single-Ended or Differential Wiring |
|
Wiring |
Single-Ended or Differential |
Single-ended (SE) wiring involves measuring the voltage between the input pin and instruNet Ground; whereas Differential (DI) wiring involves measuring the voltage between two input pins |
|
Protected Voltage |
-25 to +25V |
Short any combination of voltage input channels to external -25 to +25V power source (i.e. capable of high current), instruNet power on or off, any duration, without damage |
|
RFI Filter |
24 KHz RFI filter on = ±80mVrange |
RFI filter is a low pass filter that rejects high frequencies that could cause small measurement errors if left unfiltered |
|
Digital Filter |
LowPass, HighPass, BandPass, or BandStop |
Each channel provides optional digital IIR lowpass, highpass, bandpass and bandstop filters with independent software programmable cut-off frequency, minimum dB stopband attenuation, maximum dB passband attenuation, and filter type (e.g. Elliptic, Chebyshev B, Chebyshev S, and Butterworth). Number of poles is programmable between 2 and 32 for bandpass/bandstop; and between 2 and 16 for lowpass/highpass . |
|
Maximum Sample Rate |
166Ks/sec/aggregate |
Digitize at a maximum sample rate of 166K sample/sec for 1 channel on largest voltage input range. More channels at same voltage input range involves slower rates, e.g. 83Ks/sec per channel for 2 channels, 41Ks/sec/ch for 4 channels, and 20Ks/sec/ch for 8 channels. For a details on maximum sample rate and bandwidth with different voltage input ranges, sensor types, and a/d averaging ; please request the absolute accuracy specification tables. Things that decrease High Speed I/O sample rate: longer computer to instruNet cable, i330 optical-isolator. Sample rate is set accurate to 50 ppm (e.g. user specifies 20000 s/sec yet system actually digitizes at 20001 s/sec). Minimum sample rate is 0.015 samples/sec/ch. |
|
Sensor Excitation |
Included |
Excitation power (+3.3V ±.2V, <0.22A, 28mA per sensor max) is provided for sensors, along with other End User Power voltages. This 3.3V, which is referenced to instruNet Ground, is automatically readback by A/D when calculating sensor values. |
|
Common Mode Voltage |
-10 to +10V |
All voltage input pins must be driven with a voltage between -10 and +10V, with respect to instruNet ground. instruNet ground is connected to instruNet chassis, which is connected to Earth ground via instruNet power supply plug . |
|
Input Coupling |
DC |
Measure constant DC voltage or dynamic AC waveform with absolute voltage accuracy |
|
Input Impedance |
100M Ohm |
Internal 100M Ohm resistor (5% accuracy) between input pin and instruNet ground reduces fluctuating measurments when input pin is left unconnected |
|
Common Mode Rejection Ratio |
>= 74dB |
CMRR is the amount of rejection of a common signal that is present on both inputs of a differential measurement. Theoretically, it should not be measured because the differential measurement looks at the voltage between two pins; however small internal imbalances cause a small error, which is specified here with a DC to 60Hz common mode signal. |
|
Analog Output |
|
|
|
Description |
2x 14-bit Voltage Outputs |
This module provides 2 channels (Ch#19...#20) that can output a voltage between -10.1 and +10.1V accurate to ±4mV. An internal 14-bit d/a converter is following by an amplifier that can drive up to ±4 mA of current and drive up to 10K pF of capacitance. Each output is short-circuit protected against -18 to +18V, power on or off, without damage |
|
Output Voltage Range |
-10.1 to +10.1V |
Each channel is set independently to a voltage between -10.1 and +10.1V via software running on a Windows computer |
|
D/A Resolution |
14-bit |
Internal 14-bit digital-to-analog converter resolves 0...16383 digital value to -10.1 to +10.1V analog voltage with ~1.3mV per LSB (least-significant-bit) monotonic resolution |
|
Output Absolute Accuracy |
±4mV max error |
Output is set accurate to ±4mV, which is the sum of all maximum error components (i.e. INL, DNL, linearity) |
|
Description |
2x 8-bit Voltage Outputs |
This module provides 2 channels (Ch#17...#18) that can output a voltage between 0 and +10.1V accurate to ±78mV. An internal 8-bit d/a converter is following by an amplifier that can drive up to ±4 mA of current and drive up to 10K pF of capacitance. Each output is short-circuit protected against -18 to +18V, power on or off, without damage |
|
Output Voltage Range |
0 to +10.1V |
Each channel is set independently to a voltage between 0 and +10.1V via software running on a Windows computer |
|
D/A Resolution |
8-bit |
Internal 8-bit digital-to-analog converter resolves 0...255 digital value to 0 to +10.1V analog voltage with ~39.8mV per LSB (least-significant-bit) monotonic resolution |
|
Output Absolute Accuracy |
±78mV max error |
Output is set accurate to ±78mV, which is the sum of all maximum error components (i.e. INL, DNL, linearity) |
|
Digital I/O |
|
|
|
Description |
4 Bidirectional Digital I/O |
The 20mA sink digital I/O port consists of 4 individual TTL-compatible lines (Ch#25...#28), each of which can be configured as: digital input bit, digital output bit, control output, clock output. When configured as an input, a channel can be used to sense a digital high (2.1 to 30 Volts) or digital low (-10V to .65Volts). When configured as an output, a channel can be set high (e.g. >2V) or low (e.g. <0.8V). These I/O pins are short-circuit protected against high voltages up to 32.0V and down to -16.0V. |
|
Function |
Multiple Options |
Software programmed to one of: digital input bit, digital output bit, control output, clock output. Clock output options are: 24MHz, 12MHz24 , 6MHz, 1.5MHz, 1MHz, 375KHz, 100KHz, 93.750008KHz, 23.437502KHz, 10KHz, 5.9KHz, 1.5KHz, 1KHz, 366Hz, 100Hz, 91.552734Hz, 22.888184Hz, 10Hz, 5.7Hz, 1.4Hz, 1Hz, 0.358Hz, 0.0894Hz. Control output options are: pulse low when rd/wr to Uio 25..28 port, pulse low when read from Uio 25..28 port, pulse low when in software reset or power is off. |
|
TTL Compatible |
Yes |
Supports 0.8V for logic 0 and 2V for logic 1, which is typical for TTL |
|
3.3V Cmos Compatible |
Yes |
Supports 1.1V (3.3V*.35) for logic 0 and 2.3V (3.3V*.7) for logic 1, which is typical for digital Cmos powered by 3.3V |
|
5V Cmos Compatible |
Yes |
Supports 1.75V (5V*.35) for logic 0 and 3.5V (5V*.7) for logic 1, which is typical for digital Cmos powered by 5V |
|
Drive Relay Directly |
Yes |
Wire one side of external relay coil to power supply (e.g. 5V, 12V), wire other side to I/O pin, and output logic 0 to turn on relay |
|
Detect Switch Closure |
Yes |
Wire one side of external switch to gnd, wire other side to I/O pin, input logic 0 when switch is closed, and input logic 1 when switch is open |
|
General |
|
|
|
I/O Connector |
HD44 male |
High density 44 pin male connector |
|
Wiring Box |
Compatible |
Easy to install wiring box: i510 |
|
Physical Dimensions |
134.6mm x 130.3mm x 25.4mm |
Standard instruNet i4xx card, |
|
Operating Temp. |
1 to 45°C |
Operate in temperature between 1°C and 45°C, no condensation |
|
Storage Temperature |
-20 to 70°C |
Store in ambient temperature between -20°C and +70°C |
|
Relative Humidity |
<= 90% |
Operate in humidity less than 90%, no condensation |
|
Hot Plug & Play |
Yes |
One can insert i4xx module with power on or off, without damage |
