Description
The National Instruments NI-9226 C Series Temperature Input Module is equipped with 8 channels and offers an aggregate sample rate of 400 S/s, accommodating a resistance range from 0 Ω to 4000 Ω with an impressive 0.15 °C analysis efficiency for accuracy. Users can select between high sample rate or high resolution rate modes, ensuring flexibility in data acquisition, and the module guarantees consistent performance with per-channel current excitation.
The NI-9226 provides two calibration mode options, allowing measurements to be taken in either Calibrated or Raw format for user convenience. The module maintains a lightweight design with the spring terminal version weighing 5.7 oz and the DSUB model at slightly less, 5.04 oz. It is designed to operate reliably within a temperature range of -40 to 70 °C, and for storage, it can withstand temperatures from -40 to 85 °C. Moreover, it can operate and be stored in a humidity range of 10 to 90% RH and 5 to 95% RH respectively, ensuring durability and long-term reliability in varying environmental conditions.
Specification | Detail |
---|---|
Product | National Instruments NI-9226 C Series Temperature Input Module |
Part Numbers | 785189-01, 783864-01, 783864-02, 783704-01, 157643A-01L |
Channels | 8 channels |
Sample Rate | 400 S/s aggregate |
Resistance Range | 0 Ω to 4000 Ω |
Accuracy | 0.15 °C analysis efficiency |
Rate Modes | High sample rate or high resolution |
Excitation | Per-channel current excitation |
Calibration Mode Options | Calibrated or Raw |
Weight (Spring Terminal) | 5.7 oz |
Weight (DSUB) | 5.04 oz |
Operating Temperature Range | -40 to 70 °C |
Storage Temperature Range | -40 to 85 °C |
Humidity Range (Operating and Storage) | 10 to 90% RH, 5 to 95% RH |
Question 1: What are the selectable modes for data acquisition on the National Instruments NI-9226 C Series Temperature Input Module, and how does it ensure accuracy and flexibility in its performance?
Answer 1: The two calibration mode options available on the National Instruments NI-9226 C Series Temperature Input Module are Calibrated and Raw, and the respective weights are 5.7 oz for the spring terminal version and 5.04 oz for the DSUB model.
Question 2: What are the two calibration mode options available on the National Instruments NI-9226 C Series Temperature Input Module, and what are the respective weights of its spring terminal version and DSUB model?
Answer 2: The National Instruments NI-9226 C Series Temperature Input Module offers two calibration mode options, Calibrated or Raw, and has weight specifications of 5.7 oz for the spring terminal version and 5.04 oz for the DSUB model.
Question 3: What options are available for calibration modes on the National Instruments NI-9226 C Series Temperature Input Module, and what are its weight specifications for the different models?
Answer 3: The National Instruments NI-9226 C Series Temperature Input Module features 8 channels, an aggregate sample rate of 400 S/s, accommodates a resistance range of 0 Ω to 4000 Ω, delivers 0.15 °C analysis efficiency for precise measurements, and is designed to operate reliably in environmental temperatures of -40 to 70 °C and humidity ranges of 10 to 90% RH, with storage temperatures from -40 to 85 °C and a humidity
Question 4: What are the capabilities and design specifications of the National Instruments NI-9226 C Series Temperature Input Module in terms of channel count, sample rate, resistance range, measurement accuracy, and environmental operating conditions?
Answer 4: The National Instruments NI-9226 C Series Temperature Input Module offers two modes of calibration: Calibrated and Raw, and it is designed to operate reliably within a temperature range of -40 to 70 °C, while for storage, it can withstand temperatures from -40 to 85 °C.
Question 5: What are the modes of calibration available for the National Instruments NI-9226 C Series Temperature Input Module, and what are its operation and storage temperature ranges?
Answer 5: The National Instruments NI-9226 C Series Temperature Input Module offers selectable modes for data acquisition, including high sample rate or high-resolution rate modes, which ensure flexibility in performance, while its 0.15 °C analysis efficiency and per-channel current excitation guarantee accuracy in measurements.