Methodology

• Calculation of voltage, voltage angles, power flows and losses in the grid by means of various algorithms (e.g. Newton-Raphson, Fast Decoupled Newton-Raphson, Forward/Backward Sweeping)

Advantages

• Calculation at the push of a button - no configuration necessary
• Automatic selection of the best possible algorithm
• Can include network reinforcements and connection requests in the calculation

Methodology

• Calculation of short circuit quantities for short circuits at all nodes of the grid (traversal or nodal method) according to VDE 0102 / EN 60909
• Calculation of the resulting branch currents

Advantages

• Comprehensive short circuit calculation at the push of a button, with no complex configuration of short-circuit locations required
• Visualization displayed directly on the grid topology

Methodology

• Power flow calculation with various snapshots
• Stochastic addition of loads and generators enables simulation of future scenarios (Monte Carlo approach)

Advantages

• Evaluate the operational limits of the load and generation cases with one click
• Run a comprehensive Monte Carlo grid study in seconds, with minimal configuration

Methodology

• Evaluation of connection requests according to D-A-CH-CZ or VDE application rules (voltage change, flicker, harmonics)
• Calculation of voltage increase using approximation formulas or difference power flow

Advantages

• Quick and easy configuration of the connection request
• Bewertung per Mausklick
• Easy export of PDF report

Methodology

• Changes in the grid model (exchange/expansion of components) and storage are defined as grid reinforcement
• Cost factors are allocated
• The results are presented along with a comparison of multiple options

Advantages

• Flexible configuration of grid reinforcements including SmartGrid options such as voltage regulators and on-load tap-changing transformers
• A technical and economic comparison of all options enables optimal decision-making
• Grid reinforcement can be incorporated in connection requests and other calculations

Methodology

• Modeling of fuses, definite-time overcurrent protection and distance-protection devices
• Comprehensive switch-off calculation with short circuits at all grid nodes, and identification of branch currents
• Display of switch-off times and comparison with limit values (tabular and graphic)
• Selectivity diagrams and stage plans with a single click

Advantages

• Quick evaluation of switch-off conditions, with very little manual configuration
• Meaningful, informative diagrams and visualizations
• Reliable detection of required actions in the protection configuration