Virtual Instrumentation Mcq Page

– Dataflow is key: a node runs when all its inputs are available. This naturally leads to parallelism and avoids the “sequential thinking” problem of text languages. Summary Table (for quick revision) | Concept | Description | |---------|-------------| | VI Definition | Software-defined measurement & control | | Key Software | LabVIEW (Graphical programming) | | VI Parts | Front Panel (UI) + Block Diagram (Code) | | Hardware Core | DAQ (Data Acquisition) Board | | Communication | GPIB (for old instruments), PXI (for modular), USB/PCIe | | Key Advantage | Flexibility, user-defined processing, automation | | Programming Model | Dataflow (execution depends on data availability) |

– Real-world sensors often produce weak, noisy, or non-linear signals. Signal conditioning (amplifiers, filters, excitation) makes them suitable for the DAQ board. 14. Which of the following is NOT a typical component of a virtual instrumentation system? A) Computer with VI software B) DAQ hardware C) Physical front-panel hard keys (like a dedicated oscilloscope knob) D) Sensors/transducers virtual instrumentation mcq

– In LabVIEW, the Block Diagram uses a dataflow model: a node (function) executes when data is available at all its inputs. 13. What is the role of “Signal Conditioning” in a VI system? A) To delete noise from digital signals B) To prepare raw sensor signals (e.g., amplify, filter, isolate, linearize) before ADC conversion C) To display signals on the front panel D) To save data to a hard drive – Dataflow is key: a node runs when