NI 9205 with spring terminal 32-Ch ±10V to 200mV 16-bit AI ±10V Ch-to-COM TESTED

Description

Up for sale is pre-owned NI 9205 with spring terminal C Series Voltage Input Module [±10 V, 250 kS/s, 16-Bit, 32-Channel]  for use with any CompactDAQ or CompactRIO system.
Please review all posted photographs to confirm cosmetic condition, operation (tested against Fluke DMM), and detailed specification.
The NI‑9205 performs single-ended or differential analog inputs, with four programmable input ranges for each: ±200 mV, ±1 V, ±5 V, and ±10 V.
It is an effective combination of channel count and speed at a low price for an economical multifunction system. You can choose from four programmable input ranges.
To protect against signal transients, the NI 9205 includes ±30 V of overvoltage protection between input channels and common (COM). In addition, the NI‑9205 also includes a
channel-to-earth ground double isolation barrier for safety, noise immunity, and high common-mode voltage range. It is rated for 1,000 Vrms transient overvoltage protection.
• DSUB
• 250 Vrms, CAT II, channel-to-earth isolation (spring terminal); 60 VDC, CAT I, channel-to-earth isolation (DSUB)
• 16 AI Differential/32 AI Single-Ended, ±200 mV to ±10 V, 16 Bit, 250 kS/s Aggregate
• MSRP: 88
• P/N: 193299G-01
< Analog Input Characteristics >
Number of channels: 16 differential/32 single-ended channels
ADC resolution: 16 bits
DNL: No missing codes guaranteed
Conversion time (maximum sampling rate): CompactRIO & CompactDAQ chassis 4.00 μs (250 kS/s)|R Series Expansion chassis 4.50 μs (222 kS/s)
Input coupling DC
Nominal input ranges: ±10 V, ±5 V, ±1 V, ±0.2 V
Minimum overrange, ±10 V range: 4%
Maximum working voltage for analog inputs (signal + common mode): Each channel must remain within ±10.4 V of COM
Input impedance (AI-to-COM): Powered on >10 GΩ in parallel with 100 pF|Powered off/overload 4.7 kΩ minimum
Input bias current ±100 pA
Crosstalk, at 100 kHz: Adjacent channels -65 dB | Non-adjacent channels -70 dB
Analog bandwidth 370 kHz
Overvoltage protection: AI channel, 0 to 31 ±30 V, one channel only | AISENSE ±30 V
Settling time for multichannel measurements, accuracy, all ranges: ±120 ppm of full-scale step, ±8 LSB 4 μs convert interval| ±30 ppm of full-scale step, ±2 LSB 8 μs convert interval
Analog triggers-->
Number of triggers: 1
Resolution: 10 bits, 1 in 1,024
Bandwidth, -3 dB: 370 kHz
Accuracy: ±1% of full scale
Scaling coefficients-->
±10 V range: 328 μV/LSB
±5 V range: 164.2 μV/LSB
±1 V range: 32.8 μV/LSB
±0.2 V range: 6.57 μV/LSB
CMRR, DC to 60 Hz: 100 dB
Absolute accuracy-->
±10 V range
Accuracy at full scale: 6,230 μV
Random noise, σ: 240 μVrms
Sensitivity: 96.0 μV
±5 V range
Accuracy at full scale: 3,230 μV
Random noise, σ 116 μVrms
Sensitivity: 46.4 μV
±1 V range
Accuracy at full scale: 690 μV
Random noise, σ: 26 μVrms
Sensitivity: 10.4 μV
±0.2 V range
Accuracy at full scale: 174 μV
Random noise, σ: 10 μVrms
Sensitivity: 4.0 μV
Residual gain error-->
±10 V range: 115 ppm of reading
±5 V range: 135 ppm of reading
±1 V range: 155 ppm of reading
±0.2 V range 215 ppm of reading
Gain tempco: 11 ppm/°C
Reference tempco: 5
Residual offset error-->
±10 V range 20 ppm of range
±5 V range 20 ppm of range
±1 V range 25 ppm of range
±0.2 V range 40 ppm of range
Offset tempco-->
±10 V range 44 ppm of range/°C
±5 V range 47 ppm of range/°C
±1 V range 66 ppm of range/°C
±0.2 V range 162 ppm of range/°C
INL error: 76 ppm of range
< Digital Characteristics >
Number of channels: 1 digital input channel, 1 digital output channel
Overvoltage protection ±30 V
Digital logic levels-->
Input high: VIH Minimum 2.0 V |Maximum 3.3 V
Input low: VIL Minimum 0 V | Maximum 0.34 V
Output high VOH, sourcing 75 μA: Minimum 2.1 V | Maximum 3.3 V
Output low, VOH, sinking 250 μA: Minimum 0 V | Maximum 0.4 V
External digital triggers: Source PFI0 | Delay 100 ns maximum
< Power Requirements >
Power consumption from chassis: Active mode 625 mW maximum | Sleep mode 15 mW
Thermal dissipation (at 70 °C):  Active mode 625 mW maximum | Sleep mode 15 mW