INTEGRATED MICROGRID PLATFORM

Make Optimal Investment Planning Decisions the Right Way

Generate the Most Optimal Microgrid Configurations and Dispatch

with Unmatched Technical Rigor and Up to 90% Reduction in Time to Results over Existing Solutions

  • Streamlined GIS interface

  • Optimal DER Sizing and Selection

  • Optimal Cable, Wire & Transformer Sizing

  • Optimal Siting per Power Flow & Heat Transfer

  • Optimal Dispatch and Microgrid Configuration

  • Sensitivity Analysis

  • CHP-Enabled Technologies

  • Comprehensive Thermal Load Models

  • Electric Vehicle Storage and Dispatch

  • Detailed Utility Tariff Modeling and Catalog

  • Fault Analysis Balanced & Unbalanced

  • 8760+ QSTS DER Power Flow Analysis

  • One-Line Diagram Balanced & Unbalanced

  • Enhanced DER-CAM and OpenDSS analytics

  • Load Starting Power Flow with Starter Models

Mixed Integer Linear Optimization Programming + One-Line Diagram Model + QSTS Power Flow + Fault Analysis + Project Management

  • GIS Planning View with Google Maps Integration

  • Optimal Investment Decisions from 1 to 50 years

  • Video Game Inspired Interface for Unrivaled Ease of Use 

  • Team Collaboration with Secure Project Data Exchange with Team Members

  • Automated Microgrid Configurator with MILP Optimizer and QSTS Power Flow

  • Project Location Aware Auto-Populating Environmental Constraints and Tariffs

  • Least-Cost Optimized DER Portfolio Design

  • Revenue Optimization from Export of On-Site Generation

  • Site-specific Analysis to Maximize Return On DER Investments

  • Lower Emissions, Increase Speed to Deploy, and Meet Regulatory Standards 

  • Detailed Feed-In Tariffs, SGIP-Based Incentives and Ancillary Services Modeling

  • Node-by-Node and Technology-by-Technology Sizing and Dispatch Optimization

Full Suite of DER Technologies

Renewable Energy Technologies

  • Solar PV

  • Wind Turbine

Storage Technologies

  • Lithium Ion Technology

  • Flow Battery Technology

  • Electric Vehicle Charging and Dispatch

  • Energy Transfer Between Days & Seasons

Conventional Technologies

  • Fuel Cell

  • Gas Turbine

  • Microturbine

  • Internal Combustion Engine

  • CHP-Enabling for Conventional Technologies

Thermal Technologies

  • Boiler

  • Heat Pump

  • Water Heater

  • Solar Thermal

  • Biomass Boiler

  • Thermal Storage

  • Absorption Chiller

  • Direct-Fired Chiller

Ancillary Equipment

  • Refrigeration unit

  • Pipes for Heat Delivery

  • Transformers for Voltage Control

  • Switching Equipment for Islanding

  • Cables and Wires for Power Delivery

  • Inverters with non-linear efficiency curves

Investment Paramters

  • Tax Incentives and CO2 Taxes

  • Sales from Renewable Energy

  • Sales from Non-Renewable Energy

  • Power Purchase Agreements (PPA)

  • Net Metering from Renewable Energy

  • Do Not Charge Battery from Utility Grid

  • Cables, Transformers, Heat Pipes Costs

  • Node-by-Node Investment Optimization

  • One-Time Fixed & Variable Installation Costs

  • Fixed and Variable OPEX / Maintenance Costs

Capture the Value of All Distinct Energy Domains

Copyright XENDEE 2019 | XENDEE Distinct Energy Domains Considered for Microgrid Configuration and Dispatch Optimization

Next-Generation Deep Circuit Power System Analysis

QSTS Power Flow Load Model

  • Time-Series 8760 up to 50 Years

  • Time-Series to 1/1000th of Second

  • Constant kVA Model

  • Constant Current Model

  • Linear P Quadratic Q Model

  • Constant Impedance Model

  • Constant P Quadratic Q Model

  • Power Factor Leading or Lagging

QSTS Power Flow Storage Model

  • Constant Admittance

  • Constant kW @ Set Power Factor

  • Short Circuit X/R and Amp Multiplier

  • System Idling Losses in kW and kVAR

  • C-Rates for Charging and Discharging

  • Delta, Wye-Solid, Wye-Z, Wye-Ungrounded

QSTS Power Flow Generator Model

  • 2, 4 and 6 Pole Models

  • Max Power Delivery Limit

  • Max Power Absorption Limit

  • Constant P Fixed X, Constant PQ

  • Constant PQ, Z, P |V|, and P Fixed Q

  • Delta, Wye, Wye-Z, Wye-Ungrounded

  • X/R, Steady-State, and Transient X

  • Subtransient & Negative Sequence X

QSTS Power Flow Cable Model

  • All Major Insulation Types

  • Copper and Aluminium Material

  • Positive Sequence Capacitance

  • Distinct Per Phase Cables in Parallel

  • Positive & Zero Sequence Impedance

  • Primary & Secondary Side Protection

  • Fully Unbalanced Network Topologies

  • Non-Magnetic, Magnetic and Armored

QSTS Power Flow Overhead Wire Model

  • Distinct Per Phase Wires in Parallel

  • 1-Wire, 3-Wire, 4-Wire Configurations

  • Fully Unbalanced Network Topologies

  • Pole Design with Earth Resistivity

  • AAC, AAAC, ACSR, ACSR/AW Material

  • Resistance, GMR, Diameter Data

  • Integrated KRON Reduction

QSTS Power Flow Transformer Model

  • 1-Phase and 3-Phase Two Winding

  • Center Tapped and 3-Winding Models

  • LTC Control with Bandwidth Settings

  • Automatic Voltage Control via LTC

  • Line Voltage Regulator for Wires

  • X/R Ratio, Z% and Cooling Type

QSTS Power Smart Meter and Monitor Model

  • Powers kW kVAR Monitoring

  • Option to Monitor Line Losses

  • Voltage and Current Monitoring

  • kWh, kVARh, Max kW kVA, Overloads

  • Meter Accumulators and “drag hand”

  • Voltage Flicker Level & Severity Index

  • 3-Phase 2-Phase 1-Phase Line Losses

  • Option to Monitor Transformer Losses

Accurate Utility Tariff Modeling Features

  • Net Metering

  • Standby Charge

  • Real-Time Pricing

  • Time of Use Rates

  • Basic service fees

  • Daily Demand Charges

  • Contract Demand Charge

  • Monthly Demand Charges

  • Monthly Natural Gas Rates

  • Seasonal Time-Of-Use Rate Variation

  • CO2 Tax Based on Marginal Emissions

Included and User-Defined Catalogs

  • EnergyPlus Load Profiles

  • 100+ Wind Turbine Models

  • Solar PV Data Entry Automation

  • Major Commercial Building Types

  • Loss of Load Cost by Facility Type

  • ASHRAE Climate Zone Loadshapes

  • TMY3 Worldwide Site Weather Data

  • Worldwide Wind Power Performance

  • Engineering & Economic Vendor Data

  • Solar Thermal Data Entry Automation

  • Seasonal Fuel Price (e.g. Diesel, NG, H)

Optimization Tabulated and Graphical Reporting

  • Return On Investment

  • Annualized Energy Costs

  • Levelized Costs of Electricity

  • Yearly Investments and OPEX

  • Total Annual Electricity Balance

  • Optimal Sizes for New Generation

  • CAPEX for New Generation Sources

  • Optimal Dispatch Logic for Sources

  • Optimal Dispatch Logic for All Loads

  • Optimal Dispatch by Day Type & Month

QSTS 8760 Tabulated and Graphical Reporting

  • Echo of Input Data

  • Voltage Pre-Starting Event(s)

  • Smart Meter Data at Every Node

  • Line Voltage Regulator Settings

  • Voltage During Starting Event(s)

  • Voltage Steady-State Conditions

  • OpenDSS Plug and Play Data Model

  • Each Branch Per Phase Amp & Angle

  • Transformer Load, Losses & Settings

  • Each Node Per Phase Voltage & Angle

  • Voltage Drop & Loading at Every Node

  • Cable/Wire by Phase Losses & Loading

Fault Analysis Tabulated and Graphical Reporting

  • Echo of Input Data

  • OpenDSS Plug and Play Data Model

  • Positive and Zero Sequence X

  • Positive and Zero Sequence Z

  • Positive and Zero Sequence R

  • Classical Short Circuit Method

  • ANS C37 / IEEE Red Book Method

  • Time Cycle Varying Machine Z & X/R

  • Peak, Momentary 1/2 cycle, 1st cycle, 1 1/2 – 4 cycle, interrupting, 8 cycle and 30 cycle

  • Each Node Per-Phase Fault Current Values

Generate the Most Optimal Microgrid Configurations and Dispatch

  • Streamlined GIS interface

  • Optimal DER Sizing and Selection

  • Optimal Cable, Wire & Transformer Sizing

  • Optimal Siting per Power Flow & Heat Transfer

  • Optimal Dispatch and Microgrid Configuration

  • Sensitivity Analysis

  • CHP-Enabled Technologies

  • Comprehensive Thermal Load Models

  • Electric Vehicle Storage and Dispatch

  • Detailed Utility Tariff Modeling and Catalog

  • Fault Analysis Balanced & Unbalanced

  • 8760+ QSTS DER Power Flow Analysis

  • One-Line Diagram Balanced & Unbalanced

  • Enhanced DER-CAM and OpenDSS analytics

  • Load Starting Power Flow with Starter Models

Mixed Integer Linear Optimization Programming + One-Line Diagram Model + QSTS Power Flow + Fault Analysis + Project Management

  • GIS Planning View with Google Maps Integration

  • Optimal Investment Decisions from 1 to 50 years

  • Video Game Inspired Interface for Unrivaled Ease of Use 

  • Team Collaboration with Secure Project Data Exchange with Team Members

  • Automated Microgrid Configurator with MILP Optimizer and QSTS Power Flow

  • Project Location Aware Auto-Populating Environmental Constraints and Tariffs

  • Least-Cost Optimized DER Portfolio Design

  • Revenue Optimization from Export of On-Site Generation

  • Site-specific Analysis to Maximize Return On DER Investments

  • Lower Emissions, Increase Speed to Deploy, and Meet Regulatory Standards 

  • Detailed Feed-In Tariffs, SGIP-Based Incentives and Ancillary Services Modeling

  • Node-by-Node and Technology-by-Technology Sizing and Dispatch Optimization

Full Suite of DER Technologies

Renewable Energy Technologies

  • Solar PV

  • Wind Turbine

Storage Technologies

  • Lithium Ion Technology

  • Flow Battery Technology

  • Electric Vehicle Charging and Dispatch

  • Energy Transfer Between Days & Seasons

Conventional Technologies

  • Fuel Cell

  • Gas Turbine

  • Microturbine

  • Internal Combustion Engine

  • CHP-Enabling for Conventional Technologies

Thermal Technologies

  • Boiler

  • Heat Pump

  • Water Heater

  • Solar Thermal

  • Biomass Boiler

  • Thermal Storage

  • Absorption Chiller

  • Direct-Fired Chiller

Ancillary Equipment

  • Refrigeration unit

  • Pipes for Heat Delivery

  • Transformers for Voltage Control

  • Switching Equipment for Islanding

  • Cables and Wires for Power Delivery

  • Inverters with non-linear efficiency curves

Investment Paramters

  • Tax Incentives and CO2 Taxes

  • Sales from Renewable Energy

  • Sales from Non-Renewable Energy

  • Power Purchase Agreements (PPA)

  • Net Metering from Renewable Energy

  • Do Not Charge Battery from Utility Grid

  • Cables, Transformers, Heat Pipes Costs

  • Node-by-Node Investment Optimization

  • One-Time Fixed & Variable Installation Costs

  • Fixed and Variable OPEX / Maintenance Costs

Capture the Value of All Distinct Energy Domains

Copyright XENDEE 2019 | XENDEE Distinct Energy Domains Considered for Microgrid Configuration and Dispatch Optimization

Next-Generation Deep Circuit Power System Analysis

QSTS Power Flow Load Model

  • Time-Series 8760 up to 50 Years

  • Time-Series to 1/1000th of Second

  • Constant kVA Model

  • Constant Current Model

  • Linear P Quadratic Q Model

  • Constant Impedance Model

  • Constant P Quadratic Q Model

  • Power Factor Leading or Lagging

QSTS Power Flow Storage Model

  • Constant Admittance

  • Constant kW @ Set Power Factor

  • Short Circuit X/R and Amp Multiplier

  • System Idling Losses in kW and kVAR

  • C-Rates for Charging and Discharging

  • Delta, Wye-Solid, Wye-Z, Wye-Ungrounded

QSTS Power Flow Generator Model

  • 2, 4 and 6 Pole Models

  • Max Power Delivery Limit

  • Max Power Absorption Limit

  • Constant P Fixed X, Constant PQ

  • Constant PQ, Z, P |V|, and P Fixed Q

  • Delta, Wye, Wye-Z, Wye-Ungrounded

  • X/R, Steady-State, and Transient X

  • Subtransient & Negative Sequence X

QSTS Power Flow Cable Model

  • All Major Insulation Types

  • Copper and Aluminium Material

  • Positive Sequence Capacitance

  • Distinct Per Phase Cables in Parallel

  • Positive & Zero Sequence Impedance

  • Primary & Secondary Side Protection

  • Fully Unbalanced Network Topologies

  • Non-Magnetic, Magnetic and Armored

QSTS Power Flow Overhead Wire Model

  • Distinct Per Phase Wires in Parallel

  • 1-Wire, 3-Wire, 4-Wire Configurations

  • Fully Unbalanced Network Topologies

  • Pole Design with Earth Resistivity

  • AAC, AAAC, ACSR, ACSR/AW Material

  • Resistance, GMR, Diameter Data

  • Integrated KRON Reduction

QSTS Power Flow Transformer Model

  • 1-Phase and 3-Phase Two Winding

  • Center Tapped and 3-Winding Models

  • LTC Control with Bandwidth Settings

  • Automatic Voltage Control via LTC

  • Line Voltage Regulator for Wires

  • X/R Ratio, Z% and Cooling Type

QSTS Power Smart Meter and Monitor Model

  • Powers kW kVAR Monitoring

  • Option to Monitor Line Losses

  • Voltage and Current Monitoring

  • kWh, kVARh, Max kW kVA, Overloads

  • Meter Accumulators and “drag hand”

  • Voltage Flicker Level & Severity Index

  • 3-Phase 2-Phase 1-Phase Line Losses

  • Option to Monitor Transformer Losses

Accurate Utility Tariff Modeling Features

  • Net Metering

  • Standby Charge

  • Real-Time Pricing

  • Time of Use Rates

  • Basic service fees

  • Daily Demand Charges

  • Contract Demand Charge

  • Monthly Demand Charges

  • Monthly Natural Gas Rates

  • Seasonal Time-Of-Use Rate Variation

  • CO2 Tax Based on Marginal Emissions

Included and User-Defined Catalogs

  • EnergyPlus Load Profiles

  • 100+ Wind Turbine Models

  • Solar PV Data Entry Automation

  • Major Commercial Building Types

  • Loss of Load Cost by Facility Type

  • ASHRAE Climate Zone Loadshapes

  • TMY3 Worldwide Site Weather Data

  • Worldwide Wind Power Performance

  • Engineering & Economic Vendor Data

  • Solar Thermal Data Entry Automation

  • Seasonal Fuel Price (e.g. Diesel, NG, H)

Optimization Tabulated and Graphical Reporting

  • Return On Investment

  • Annualized Energy Costs

  • Levelized Costs of Electricity

  • Yearly Investments and OPEX

  • Total Annual Electricity Balance

  • Optimal Sizes for New Generation

  • CAPEX for New Generation Sources

  • Optimal Dispatch Logic for Sources

  • Optimal Dispatch Logic for All Loads

  • Optimal Dispatch by Day Type & Month

QSTS 8760 Tabulated and Graphical Reporting

  • Echo of Input Data

  • Voltage Pre-Starting Event(s)

  • Smart Meter Data at Every Node

  • Line Voltage Regulator Settings

  • Voltage During Starting Event(s)

  • Voltage Steady-State Conditions

  • OpenDSS Plug and Play Data Model

  • Each Branch Per Phase Amp & Angle

  • Transformer Load, Losses & Settings

  • Each Node Per Phase Voltage & Angle

  • Voltage Drop & Loading at Every Node

  • Cable/Wire by Phase Losses & Loading

Fault Analysis Tabulated and Graphical Reporting

  • Echo of Input Data

  • OpenDSS Plug and Play Data Model

  • Positive and Zero Sequence X

  • Positive and Zero Sequence Z

  • Positive and Zero Sequence R

  • Classical Short Circuit Method

  • ANS C37 / IEEE Red Book Method

  • Time Cycle Varying Machine Z & X/R

  • Peak, Momentary 1/2 cycle, 1st cycle, 1 1/2 – 4 cycle, interrupting, 8 cycle and 30 cycle

  • Each Node Per-Phase Fault Current Values

Generate the Most Optimal Microgrid Configurations and Dispatch

  • Streamlined GIS interface

  • Optimal DER Sizing and Selection

  • Optimal Cable, Wire & Transformer Sizing

  • Optimal Siting per Power Flow & Heat Transfer

  • Optimal Dispatch and Microgrid Configuration

  • Sensitivity Analysis

  • CHP-Enabled Technologies

  • Comprehensive Thermal Load Models

  • Electric Vehicle Storage and Dispatch

  • Detailed Utility Tariff Modeling and Catalog

  • Fault Analysis Balanced & Unbalanced

  • 8760+ QSTS DER Power Flow Analysis

  • One-Line Diagram Balanced & Unbalanced

  • Enhanced DER-CAM and OpenDSS analytics

  • Load Starting Power Flow with Starter Models

Mixed Integer Linear Optimization Programming + One-Line Diagram Model + QSTS Power Flow + Fault Analysis + Project Management

  • GIS Planning View with Google Maps Integration

  • Optimal Investment Decisions from 1 to 50 years

  • Video Game Inspired Interface for Unrivaled Ease of Use 

  • Team Collaboration with Secure Project Data Exchange with Team Members

  • Automated Microgrid Configurator with MILP Optimizer and QSTS Power Flow

  • Project Location Aware Auto-Populating Environmental Constraints and Tariffs

  • Least-Cost Optimized DER Portfolio Design

  • Revenue Optimization from Export of On-Site Generation

  • Site-specific Analysis to Maximize Return On DER Investments

  • Lower Emissions, Increase Speed to Deploy, and Meet Regulatory Standards 

  • Detailed Feed-In Tariffs, SGIP-Based Incentives and Ancillary Services Modeling

  • Node-by-Node and Technology-by-Technology Sizing and Dispatch Optimization

Full Suite of DER Technologies

Renewable Energy Technologies

  • Solar PV

  • Wind Turbine

Storage Technologies

  • Lithium Ion Technology

  • Flow Battery Technology

  • Electric Vehicle Charging and Dispatch

  • Energy Transfer Between Days & Seasons

Conventional Technologies

  • Fuel Cell

  • Gas Turbine

  • Microturbine

  • Internal Combustion Engine

  • CHP-Enabling for Conventional Technologies

Thermal Technologies

  • Boiler

  • Heat Pump

  • Water Heater

  • Solar Thermal

  • Biomass Boiler

  • Thermal Storage

  • Absorption Chiller

  • Direct-Fired Chiller

Ancillary Equipment

  • Refrigeration unit

  • Pipes for Heat Delivery

  • Transformers for Voltage Control

  • Switching Equipment for Islanding

  • Cables and Wires for Power Delivery

  • Inverters with non-linear efficiency curves

Investment Paramters

  • Tax Incentives and CO2 Taxes

  • Sales from Renewable Energy

  • Sales from Non-Renewable Energy

  • Power Purchase Agreements (PPA)

  • Net Metering from Renewable Energy

  • Do Not Charge Battery from Utility Grid

  • Cables, Transformers, Heat Pipes Costs

  • Node-by-Node Investment Optimization

  • One-Time Fixed & Variable Installation Costs

  • Fixed and Variable OPEX / Maintenance Costs

Capture the Value of All Distinct Energy Domains

Copyright XENDEE 2019 | XENDEE Distinct Energy Domains Considered for Microgrid Configuration and Dispatch Optimization

Next-Generation Deep Circuit Power System Analysis

QSTS Power Flow Load Model

  • Time-Series 8760 up to 50 Years

  • Time-Series to 1/1000th of Second

  • Constant kVA Model

  • Constant Current Model

  • Linear P Quadratic Q Model

  • Constant Impedance Model

  • Constant P Quadratic Q Model

  • Power Factor Leading or Lagging

QSTS Power Flow Storage Model

  • Constant Admittance

  • Constant kW @ Set Power Factor

  • Short Circuit X/R and Amp Multiplier

  • System Idling Losses in kW and kVAR

  • C-Rates for Charging and Discharging

  • Delta, Wye-Solid, Wye-Z, Wye-Ungrounded

QSTS Power Flow Generator Model

  • 2, 4 and 6 Pole Models

  • Max Power Delivery Limit

  • Max Power Absorption Limit

  • Constant P Fixed X, Constant PQ

  • Constant PQ, Z, P |V|, and P Fixed Q

  • Delta, Wye, Wye-Z, Wye-Ungrounded

  • X/R, Steady-State, and Transient X

  • Subtransient & Negative Sequence X

QSTS Power Flow Cable Model

  • All Major Insulation Types

  • Copper and Aluminium Material

  • Positive Sequence Capacitance

  • Distinct Per Phase Cables in Parallel

  • Positive & Zero Sequence Impedance

  • Primary & Secondary Side Protection

  • Fully Unbalanced Network Topologies

  • Non-Magnetic, Magnetic and Armored

QSTS Power Flow Overhead Wire Model

  • Distinct Per Phase Wires in Parallel

  • 1-Wire, 3-Wire, 4-Wire Configurations

  • Fully Unbalanced Network Topologies

  • Pole Design with Earth Resistivity

  • AAC, AAAC, ACSR, ACSR/AW Material

  • Resistance, GMR, Diameter Data

  • Integrated KRON Reduction

QSTS Power Flow Transformer Model

  • 1-Phase and 3-Phase Two Winding

  • Center Tapped and 3-Winding Models

  • LTC Control with Bandwidth Settings

  • Automatic Voltage Control via LTC

  • Line Voltage Regulator for Wires

  • X/R Ratio, Z% and Cooling Type

QSTS Power Smart Meter and Monitor Model

  • Powers kW kVAR Monitoring

  • Option to Monitor Line Losses

  • Voltage and Current Monitoring

  • kWh, kVARh, Max kW kVA, Overloads

  • Meter Accumulators and “drag hand”

  • Voltage Flicker Level & Severity Index

  • 3-Phase 2-Phase 1-Phase Line Losses

  • Option to Monitor Transformer Losses

Accurate Utility Tariff Modeling Features

  • Net Metering

  • Standby Charge

  • Real-Time Pricing

  • Time of Use Rates

  • Basic service fees

  • Daily Demand Charges

  • Contract Demand Charge

  • Monthly Demand Charges

  • Monthly Natural Gas Rates

  • Seasonal Time-Of-Use Rate Variation

  • CO2 Tax Based on Marginal Emissions

Included and User-Defined Catalogs

  • EnergyPlus Load Profiles

  • 100+ Wind Turbine Models

  • Solar PV Data Entry Automation

  • Major Commercial Building Types

  • Loss of Load Cost by Facility Type

  • ASHRAE Climate Zone Loadshapes

  • TMY3 Worldwide Site Weather Data

  • Worldwide Wind Power Performance

  • Engineering & Economic Vendor Data

  • Solar Thermal Data Entry Automation

  • Seasonal Fuel Price (e.g. Diesel, NG, H)

Optimization Tabulated and Graphical Reporting

  • Return On Investment

  • Annualized Energy Costs

  • Levelized Costs of Electricity

  • Yearly Investments and OPEX

  • Total Annual Electricity Balance

  • Optimal Sizes for New Generation

  • CAPEX for New Generation Sources

  • Optimal Dispatch Logic for Sources

  • Optimal Dispatch Logic for All Loads

  • Optimal Dispatch by Day Type & Month

QSTS 8760 Tabulated and Graphical Reporting

  • Echo of Input Data

  • Voltage Pre-Starting Event(s)

  • Smart Meter Data at Every Node

  • Line Voltage Regulator Settings

  • Voltage During Starting Event(s)

  • Voltage Steady-State Conditions

  • OpenDSS Plug and Play Data Model

  • Each Branch Per Phase Amp & Angle

  • Transformer Load, Losses & Settings

  • Each Node Per Phase Voltage & Angle

  • Voltage Drop & Loading at Every Node

  • Cable/Wire by Phase Losses & Loading

Fault Analysis Tabulated and Graphical Reporting

  • Echo of Input Data

  • OpenDSS Plug and Play Data Model

  • Positive and Zero Sequence X

  • Positive and Zero Sequence Z

  • Positive and Zero Sequence R

  • Classical Short Circuit Method

  • ANS C37 / IEEE Red Book Method

  • Time Cycle Varying Machine Z & X/R

  • Peak, Momentary 1/2 cycle, 1st cycle, 1 1/2 – 4 cycle, interrupting, 8 cycle and 30 cycle

  • Each Node Per-Phase Fault Current Values

XENDEE INTEGRATED MICROGRID INVESTMENT DECISION SUPPORT PLATFORM

Make Optimal Investment Planning Decisions the Right Way