Table 3-1. input range and measurement precision, Considerations for selecting input ranges, Input coupling – National Instruments NI 6115/6120 User Manual

Chapter 3

Hardware Overview

NI 6115/6120 User Manual

3-4

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Considerations for Selecting Input Ranges

The range you select depends on the expected range of the incoming signal.
A large input range can accommodate a large signal variation but reduces
the voltage resolution. Choosing a smaller input range improves the voltage
resolution but may result in the input signal going out of range. For best
results, match the input range as closely as possible to the expected range
of the input signal.

Input Coupling

You can configure the NI 6115/6120 for either AC or DC input coupling
on a per channel basis. Use AC coupling when the AC signal contains a
large DC component. If you enable AC coupling, you remove the large DC
offset for the input amplifier and amplify only the AC component. This
configuration effectively uses the dynamic range of the ADC.

The input impedance for the programmable gain instrumentation amplifier
(PGIA) channels is 1 M

Ω for ranges ≤ ±10 V and 10 kΩ for

ranges > ±10 V. This configuration provides an AC-coupled corner
frequency of 2.34 Hz for ranges

≤ ±10 V and 234 Hz for ranges > ±10 V.

Table 3-1. Input Range and Measurement Precision

Input Range

Precision

1

6115 (12-Bit)

6120 (16-Bit)

–50 to +50 V

2

–20 to +20 V
–10 to +10 V

–5 to +5 V
–2 to +2 V

–1 to +1V

–500 to +500 mV
–200 to +200 mV

24.4 mV
9.77 mV
4.88 mV
2.44 mV

977

µV

488

µV

244

µV

97.7

µV

1.53 mV

610

µV

305

µV

153

µV

61.0

µV

30.5

µV

15.3

µV

6.10

µV

1

The value of 1 least significant bit (LSB) of the ADC; that is, the voltage increment

corresponding to a change of one count in the ADC count.

2

Do not exceed ±42 VDC maximum.

Note: Refer to Appendix A,

Specifications

, for absolute maximum ratings.