Paquete integrado de software de Arco Eléctrico

Arco Eléctrico CA

ArcFault™- Arco Eléctrico de Alta Tensión

Arco Eléctrico CD

Arc Flash Safety Standards

Calculadoras de Arco Eléctrico

Técnicas para Mitigación de Arco Eléctrico

Talleres Prácticos de Arco Eléctrico

 Arc Flash Promo

Evaluación Automática de Arco Eléctrico

Análisis Avanzado de Energía incidente de Arco Eléctrico con Estudio de
Coordinación de Dispositivos Protección

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Solución de software todo en uno para realizar análisis de arco eléctrico de CA y CD en sistemas BT, MT y AT.


Producto de seguridad y protección

IEEE 1584-2018 Arc Flash Incident Engery Calculation Method

Arco Eléctrico IEEE 1584 y NFPA 70E

Realice análisis de arco eléctrico y evalúe automáticamente la energía incidente y los puntos de daño de arco eléctrico en múltiples ubicaciones. Más información


NFPA 70E 2021 – Hazard Evaluation of Stored Capacitor Energy

This webinar provides a summary of the major changes to NFPA 70E 2021 and demonstrates how engineers can use ETAP 20.5 to evaluate the impact of connected and disconnected capacitor energy, calculate arc blast hazard related protection boundaries and how to print Capacitor Hazard Labels in compliance with NFPA 70E 2021. 

Evaluación Automática de Arco Eléctrico


La Evaluación Automática de Arco Eléctrico ETAP le permite evaluar rápidamente la energía incidente de arco eléctrico con el estudio automatizado de coordinación de dispositivos de protección para reducir significativamente las modificaciones costosas y equipos de mitigación. El webinario muestra la evaluación automática de gráficas de área-C y puntos de daño del equipo.


DGUV-I 203-077 Arc Flash Calculations in ETAP


This webinar presents the European/German standard DGUV-I 203-077 for arc flash hazard calculations. This method, just like IEEE 1584-2018, is in use in many European countries. We will compare the German Arc Flash methodology to IEEE 1584-2018 and introduce ETAP tools available for Arc Flash calculations based on this standard. Application examples as well as features & capabilities will be presented. Learn more

High Voltage Arc Flash for T&D, Industrial and Renewable Systems

ArcFault™ - Recomendado para sistemas de 15 kV y superiores

Software de análisis Arco Eléctrico recomendado para sistemas de potencia eléctrica que operan a 15 kV o más en cumplimiento con los requisitos de OSHA para sistemas eléctricos de transmisión, distribución, industrial y energía renovable. Más información

Arco Eléctrico de Alta Tensión

  • OSHA 1910.269
  • Código Nacional de Seguridad Eléctrica - NESC
  • Fallas de arco LT, LL, Trifásicas
  • Arco-en-una-caja - 15 kV a 36 kV
  • Aplicable para 1 kV a 800 kV

Análisis de Arco Eléctrico de Corriente Directa

El software de Arco Eléctrico CD de ETAP calcula la energía incidente para diferentes tipos de aplicaciones de corriente directa, incluidas instalaciones de misión crítica, plantas electroquímicas, bancos de baterías de subestaciones, plantas fotovoltaicas, plantas nucleares y sistemas de transporte.Más información

Cálculo de la Energía Incidente de Arco Eléctrico CD

  • Cálculos de límites de protección de energía incidente y choque eléctrico
  • Métodos de Potencia Máxima, Stokes & Oppenlander y Paukert
  • Anexos D.5.1 a D.5.3 de NFPA 70E 2018

Calculadoras de Arco Eléctrico

Arc Flash Calculators

Escenarios rápidos "Qué pasaría si" y visualización instantánea de resultados

Las calculadoras Arco Eléctrico de ETAP proporcionan una poderosa herramienta gráfica para la evaluación rápida de múltiples o grupos de escenarios "qué pasaría si".

Calculadoras Gráficas de Arco Eléctrico

  • Estándar IEEE 1584-2018 Calculadora de Arco Eléctrico
  • Estándar IEEE 1584-2002 Calculadora CL de Fusible e Interruptor
  • Calculadora de Arco Eléctrico CD
  • Calculadora de Arco Eléctrico de Alta Tensión – OSHA, NESC
  • DGUV-I 203-077 (anteriormente BGI/GUV-I 5188E) Calculadora alemana Std. Arc Flash
  • Capacitor Energy Hazard Evaluation

Técnicas para Mitigación de Arco Eléctrico

Zone Selective Interlock

Técnicas de Mitigación

Mejore la seguridad y minimice el daño de los equipo validando las técnicas de mitigación del arco eléctrico.  Más información

  • ESZ Enclavamiento Selectivo de Zona - ESZ
  • Interruptor de Modo de Mantenimiento
  • Fusibles limitadores de corriente
  • Sensores de luz y presión
  • Protección Diferencial
  • Puesta a Tierra de Alta Resistencia

Capacitaciones de Arco Eléctrico

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Recursos adicionales

High-Voltage Arc Flash for Overhead Conductor Systems

Arc flash analysis extends well beyond the scope of IEEE 1584 and NFPA 70E methodology for transmission, distribution and renewable energy systems. For many years, the industry has been lacking an “all-in-one” solution for performing arc flash analysis on DC, LV, MV and HV AC systems. ETAP ArcFault™ provides a validated method for performing arc fault simulations in T&D open-air overhead conductor systems plus it provides two methods to determine the incident energy for arc-flash in 3-phase enclosed equipment for 15 to 38 kV renewable energy collector systems. This presentation explains the background and methods for arc fault simulations and explains how ETAP ArcFault helps utilities comply with OSHA requirements to perform arc-flash analysis for systems voltage above 1.0 kV.

Create fully customizable Arc Flash Hazard Labels in any language for any standard with ETAP eLabelMaker™

ETAP Arc Flash Analysis software includes a variety of arc flash hazard safety labels in multiple languages. This webinar will demonstrate the new eLabelMaker™ features, such as two-incident energy result labels, QR codes, and fully customizable label. Create arc flash labels in any language even without having access to specific ETAP Language Editions. Existing arc flash labels are still available with every release, but in addition, the eLabelMaker™ allows the user to create any type of label, depending on the specific needs or regional standard requirements.

Generator Brush Collector Ring’s Arc Flash Hazard, A Safety Concern!

For some types of generator exciter systems, collector rings and brushes are used to provide energy from the exciter to the rotating field. The brushes wear down and constantly need to be replaced with the unit on-line and while brush/ring assembly is still energized, a risky and unsafe maintenance operation and may cause a serious harm. A potential shock and arc-flash hazard. This presentation addresses the important and dangerous maintenance of worn-down collector rings and brushes, electrical safety, lack of standards and guidelines, and a first possible calculation method.

AC and DC Arc Flash Methods for Renewable Energy Systems

This presentation will address the difficulties and lessons learnt on performing arc flash analysis using available methods (outside the voltage limits of IEEE 1584-2018 standard) on a 2.3 MW PV generation facility. The analysis includes system modeling, short-circuit, arc flash (both AC and DC) using various applicable calculation methods that best fit this application along with available tools in ETAP and generating worst-case arc flash deliverables.

Industrial Plant Electrical Risk Management Program

The Electrical Risk Management (ERM) group at FTI uses ETAP to provide short circuit, coordination, and arc flash studies as a part of building a safety program for industrial facilities around the US and Canada. This presentation will describe our approach to an overall safety program and the ways that a safety program encompasses more that just an engineering study. Some topics to be discussed are the need for maintenance personnel to understand the labeling, assessing the risk vs. just looking at the label, the choice between full coordination and arc flash hazard, field verification, and bolted fault current vs arcing fault current as it relates to equipment evaluation. We will look at the ETAP model of one of our industrial customers and discuss the benefits of using ETAP for our studies – reliability, adaptability to many systems by using configurations and scenarios, wizards, availability of DC and MV calculations, Star TCCs, ease of exporting reports to Excel, and solar and wind sources capability.

ETAP ArcSafety Solution Overview - A comprehensive suite of Arc Flash software analysis tools

Learn about ETAP ArcSafety, an all-in-one AC & DC arc flash solution for LV, MV & HV systems that improves safety, reduces risk, minimizes equipment damage, and validates mitigation techniques.

HV Arc Flash Studies for one of the Largest Utilities in South America

This presentation focuses on HV arc flash hazard analysis, as part of a multi-voltage AF study (115, 34.5, 13.8, and 0.22 kV) for one of the three largest utilities in South America with hydro and renewables generation and T&D. It demonstrates the versatility of the ETAP ArcFault™ to assist in the calculations and estimates of electric arc currents and incident energy level for HV substation equipment. The presentation discusses how ArcFault study results were used to select engineering and administrative control strategies, personal protective equipment (PPE), changes in protection schemes and adjustments to reduce electrical risks in operation & maintenance of electrical T&D systems.

AC Arc Flash using IEEE 1584 - University Campus Case Study

Since the release of IEEE 1584-2018, the industry has been challenged to reach a consensus on applying the new standard. The most significant application “pain” so far has been identifying actual equipment data for input to the study, including bus gap and electrode configurations in the equipment. A case study of an arc flash analysis for a large university campus with MV and LV power distribution equipment of different types, vintages, and manufacturers is presented. The presentation highlights selection of electrode configuration(s) for various equipment types and voltage levels and correct application of arc current and enclosure size correction factors to significantly reduce the data entry time and effort. The presentation will cover upcoming IEEE P1584.1 revisions to apply IEEE 1584 for arc-flash hazard calculations directly from the revision subgroup chair.

Data Center Power System Expansion: DC Arc Flash Case Study

Case study of a a power system study, which involved the replacement of an extensive UPS system at a data center. The studies included short-circuit, protective device coordination, and arc-flash hazard analysis for both the AC and DC systems consistent with the NFPA 70E 2018 and IEEE 1584 2018 Standards. The DC equipment as installed required mitigation efforts due to high incident energies. This presentation details the analysis, findings, and recommended mitigation for anyone embarking on similar retrofit or expansion studies.

ETAP DC Arc Flash Analysis - Part 1-3

The topics discussed in this video are the characteristics of an Arc, DC Short Circuit calculations, the Maximum Power Method, the Stokes and Oppenlander Method, Paukert Method, how these methods are utilized in ETAP, the calculation of incident energy, how to configure ETAP 11.1 to determine whether or not you are dealing with an open or closed air equipment, and the result analyzer.

Arc Flash

Introduction to ETAP Arc Flash, analysis module. Learn how to get started with Arc Flash.

Star™ Auto-Evaluation: Automated Protection & Coordination Design

This presentation will highlight how Star Auto-Evaluation software can improve your system design, safety, reliability and operation. Validate protective device settings for equipment protection, identify mis-coordination and fix zone selectivity issues, apply industry rules for system protection & coordination and significantly increase efficiency, accuracy, and design consistency.

Low Voltage Cable Capacity, Sizing & Protection against Electric Shock

ETAP provides a comprehensive, integrated design and analysis solution for electric power systems. This webinar will highlight several study cases to demonstrate the software’s capabilities in LV system modeling for cable capacity, sizing and protection against electric shock, as well as reporting and project deliverables.

Evaluación y Aplicaciones de Arco Eléctrico de Alta Tensión

Artículo técnico de dos partes publicado por la InterNational Electrical Testing Association (NETA) en NetaWorld, coautor de Albert Marroquin, VP de V&V en ETAP.