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
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
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
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