For utility engineers, consulting firms, and industrial facility managers, mastering the Plot Manager is not optional—it is essential for delivering high-quality deliverables.
| Analysis Module | Plot Manager Use Case | Benefit | | :--- | :--- | :--- | | | Visualize rotor angles, frequency deviations, and voltage profiles of multiple generators following a fault. | Allows for a direct comparison to determine which generator configuration is more stable. | | Harmonic Analysis | Generate bar charts of individual harmonic current or voltage magnitudes and plots of total harmonic distortion (THD). | Significantly accelerates the identification of resonance conditions and filtering requirements. | | Motor Acceleration | Plot motor speed, current, and terminal voltage during start-up. | Enables precise determination of successful start time and identification of excessive voltage drops. | | Protection Coordination | Combine TCC curves with simulated fault current plots. | Validates protection device settings with empirical simulation data, ensuring proper selectivity. | | General Reporting | Create high-quality, standardized plots for integration into client reports. | Saves time and ensures a professional, consistent output for all project deliverables. | etap plot manager
: Modern versions utilize advanced Python-based frameworks for rapid charting and graphing across all major modules. | | Harmonic Analysis | Generate bar charts
Overlay plots from different study cases or scenarios onto a single chart to visually analyze the impact of system changes. | Enables precise determination of successful start time