Description
The National Instruments PXIe-5423 Waveform Generator, with part numbers 785115-01 and 785116-01, offers versatile waveform generation capabilities, including sine waves up to 40 MHz, square waves up to 25 MHz, and triangle and ramp waveforms ranging from 0 to 5 MHz. User-defined function generation is also available within a frequency range of 0 to 40 MHz. This device is equipped with a suite of advanced features such as digital filtering, fractional resampling, independent generation engines and sequencing, self-calibration, frequency list mode, and capabilities for synchronization and integration, as well as waveform scripting and streaming.
It provides an output amplitude range from 0.00775 Vpk-pk to 12 Vpk-pk into a 50 Ω load, ensuring precise signal generation for a variety of applications. The high sampling rate of 200 MS/s allows for accurate reproduction of high-speed waveforms. In terms of durability and reliability, the PXIe-5423 is designed with a significant input impedance of greater than 100 kΩ and can operate with a pulse width of greater than 150 ns. Additionally, it is capable of withstanding random vibrations during operation, ranging from 5 Hz to 500 Hz at 0.3 grms, highlighting its robustness for challenging environments.
Feature | Description |
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Part Numbers | 785115-01, 785116-01 |
Waveform Generation Capabilities |
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Advanced Features |
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Output Amplitude into 50 Ω load | 0.00775 Vpk-pk to 12 Vpk-pk |
Sampling Rate | 200 MS/s |
Input Impedance (DC) | >100 kΩ |
Pulse Width | >150 ns |
Random Vibration (Operating) | 5 Hz to 500 Hz, 0.3 grms |
Question 1: What are the maximum frequency capabilities for sine, square, triangle, and ramp waveforms that the National Instruments PXIe-5423 Waveform Generator can produce?
Answer 1: The National Instruments PXIe-5423 Waveform Generator can produce sine waves up to 40 MHz, square waves up to 25 MHz, and triangle and ramp waveforms from 0 to 5 MHz, with the capability for user-defined function generation within a frequency range of 0 to 40 MHz.
Question 2: What types of waveforms can the National Instruments PXIe-5423 Waveform Generator produce, and what is its maximum frequency range for user-defined functions?
Answer 2: The National Instruments PXIe-5423 Waveform Generator offers the capability to generate sine waves up to 40 MHz, square waves up to 25 MHz, and triangle and ramp waveforms from 0 to 5 MHz, with user-defined functions within 0 to 40 MHz, and it boasts advanced features such as digital filtering, fractional resampling, independent generation engines and sequencing, self-calibration, frequency list mode, synchronization and integration, as well as waveform scripting and streaming; its
Question 3: What are the capabilities and features of the National Instruments PXIe-5423 Waveform Generator, including its supported waveform types and frequency ranges, output amplitude range, sampling rate, input impedance, and durability in terms of withstanding vibrations?
Answer 3: The National Instruments PXIe-5423 Waveform Generator is capable of generating sine waves up to 40 MHz, square waves up to 25 MHz, and triangle and ramp waveforms from 0 to 5 MHz, with user-defined functions within a 0 to 40 MHz range; it offers an output amplitude from 0.00775 Vpk-pk to 12 Vpk-pk into a 50 Ohm load, and high fidelity signal generation with a 200 MS
Question 4: What capabilities does the National Instruments PXIe-5423 Waveform Generator offer in terms of waveform frequency ranges and advanced features, and how does its durability specifications contribute to its performance in challenging environments?
Answer 4: The National Instruments PXIe-5423 Waveform Generator can produce sine waves up to 40 MHz, square waves up to 25 MHz, and triangle and ramp waveforms ranging from 0 to 5 MHz.
Question 5: What advanced features does the National Instruments PXIe-5423 Waveform Generator offer to enhance its waveform generation and integration capabilities?
Answer 5: The National Instruments PXIe-5423 Waveform Generator offers advanced features such as digital filtering, fractional resampling, independent generation engines and sequencing, self-calibration, frequency list mode, and capabilities for synchronization and integration, as well as waveform scripting and streaming, to enhance its waveform generation and integration capabilities.