![]() Two modules are available to address specific needs. It computes the necessary parameters required to assess the risk level and adopt the adequate safety procedures. ![]() To analyze and promote the electrical safety for employees working on or near electrical equipment. Module that assists in finding optimal settings for Volt/VAR control devices to optimize distribution networks.Īllows the installation of voltage regulators at optimal locations on a distribution feeder.ĭesigned to help engineers handle the complexity of the system reliability improvement issue. Helps engineers design and verify their protection scheme, and address different coordination issues in any power system. To determine the acceptability of a new load or generator interconnection by evaluating its impact on a series of power quality criteria. The analysis automates a series of time-consuming, repetitive and error-prone verifications and returns insightful results that clearly identify violations. The calculation method provides aggregate and granular hosting capacity results for each distribution feeder and considers numerous circuit-specific attributes.Īssists engineers in their generation interconnection system impact studies. Allows to quickly assess the hosting capacity of the network and filter out interconnection requests that are non-compliant. Time-series simulation to study the impact of irradiance variations, wind fluctuations and load variations on network controls such as regulators, load tap changers and switched capacitors, and on the behavior of battery energy storage devices.Īddresses DER and load interconnection issues by determining the maximum allowable capacity that can be added at any point of the network without violating a set of constraints. This analysis provides full impedance scan results and allows the user to see problematic areas even before installing harmonic devices. The Frequency scan capability included in this module is also available as an independent module. It features single phase and full three-phase modeling capabilities and includes a large library of pre-defined models for network equipment and harmonic current sources. Performs harmonic penetration analysis in electric power systems. To simulate the dynamic behavior of distribution systems with distributed generation under various transient events (fault application/clearing, large motor starting, disconnection of co-generation units, islanding, etc.) ![]() Provides a framework within which predictive and historical reliability assessment scenarios are run and the impacts of the related investment such as DA (Distribution Automation) can be evaluated and understood.įacilitates the evaluation of the feasibility and the profitability of a project based on the factual system model. To analyze the unbalanced power flow and the voltages at every level of a distribution power system. To perform accurate time range analysis based on a combination of AMR data and historical consumption patterns. To create, view and modify time-dependent projects (using the CYME Advanced Project Manager) consisting in modifications to the network such as the addition of any load at a given date, change/replacement of power transformers within a substation, a rephasing/reconductoring project, network switching or reconfiguration, etc. Supports the collaborative and detailed preparation of a project that consists in modifications to the network with related simulations. CYMDIST includes a full Network Editor as well as To perform several types of analysis on balanced or unbalanced three-phase, two-phase and single-phase systems that are operated in radial, looped or meshed configurations.
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