Description
The National Instruments NI-9201 C Series Voltage Input Module is an advanced, high-resolution data acquisition device with a part number selection of 783730-01, 779013-01, 779372-01, and 189880-51. It is designed to handle an input range of ±10 V and is equipped with 8 single-ended analog input channels. This module features a 12-Bit resolution and is capable of a maximum sampling rate of 500 kS/s, ensuring quick and accurate data capture.
For safety against unexpected surges, it offers overvoltage protection up to 100 V per channel, and utilizes a Successive approximation register (SAR) ADC type for reliable analog-to-digital conversion. The module demonstrates excellent precision with a gain error of ±0.04% and an offset error of ±0.07%. Its performance is consistent over temperature variations, with a gain drift of ±34 ppm/°C and an offset drift of ±100 µV/°C.
Energy efficiency is also considered, as the NI-9201 has a power consumption of 1 W maximum in active mode and drops down to a mere 1 mW maximum in sleep mode. To accommodate various installation requirements, it is available with different terminal types including Screw, Spring, and DSUB. Each of these features contributes to the module’s adaptability and reliability in various application environments.
Feature | Specification |
---|---|
Product Name | National Instruments NI-9201 C Series Voltage Input Module |
Part Numbers | 783730-01, 779013-01, 779372-01, 189880-51 |
Input Range | ±10 V |
Channel Count | 8 single-ended analog input channels |
Resolution | 12-Bit |
Maximum Sampling Rate | 500 kS/s |
Overvoltage Protection | Up to 100 V per channel |
ADC Type | Successive approximation register (SAR) |
Gain Error | ±0.04% |
Offset Error | ±0.07% |
Gain Drift | ±34 ppm/°C |
Offset Drift | ±100 µV/°C |
Power Consumption (Active Mode) | 1 W max |
Power Consumption (Sleep Mode) | 1 mW max |
Terminal Type | Screw, Spring, DSUB |
Question 1: What are the key specifications and features of the National Instruments NI-9201 C Series Voltage Input Module that contribute to its adaptability and reliability in various application environments?
Answer 1: The National Instruments NI-9201 C Series Voltage Input Module offers Screw, Spring, and DSUB terminal types to accommodate a variety of installation requirements.
Question 2: What is the input voltage range and maximum sampling rate of the National Instruments NI-9201 C Series Voltage Input Module?
Answer 2: The National Instruments NI-9201 C Series Voltage Input Module boasts key specifications and features such as an input range of ±10 V, 8 single-ended analog input channels, 12-Bit resolution, a maximum sampling rate of 500 kS/s, overvoltage protection of up to 100 V per channel, a Successive approximation register (SAR) ADC type, precision with a gain error of ±0.04% and an offset error of ±0.07%, gain drift
Question 3: What are the key specifications and safety features of the National Instruments NI-9201 C Series Voltage Input Module that ensure its precise performance and adaptability in diverse application environments?
Answer 3: The input voltage range of the National Instruments NI-9201 C Series Voltage Input Module is ±10 V, and it has a maximum sampling rate of 500 kS/s.
Question 4: What is the maximum overvoltage protection level offered by the National Instruments NI-9201 C Series Voltage Input Module, and what type of ADC does it utilize for conversion?
Answer 4: The National Instruments NI-9201 C Series Voltage Input Module offers overvoltage protection up to 100 V per channel and utilizes a Successive Approximation Register (SAR) ADC for analog-to-digital conversion.
Question 5: What types of terminal options are available for the National Instruments NI-9201 C Series Voltage Input Module to meet diverse installation requirements?
Answer 5: The National Instruments NI-9201 C Series Voltage Input Module boasts key specifications such as 8 single-ended analog input channels, a 12-Bit resolution, and a maximum sampling rate of 500 kS/s for rapid and accurate data capture, while its safety features include overvoltage protection up to 100 V per channel, and precise performance is ensured by a gain error of ±0.04%, an offset error of ±0.07%, a gain drift of ±34 ppm/°