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Information on this Document
Validity
Target Group
Symbols in the Document
Typographical Elements in the Document
Designations in the Document
Additional Information
Legal Provisions
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Table of Contents
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Information on this Document
Validity
Target Group
Symbols in the Document
Typographical Elements in the Document
Designations in the Document
Additional Information
Product Overview
Product Description
Project Overview
System Requirements
Setup and Start
Signing Up for Sunny Design
Starting Sunny Design
User Interface
Personal Home Page After Login
Project Pages
Project Tree
General Operation
My Sunny Design
Settings
Creating and Managing Own PV Modules
Entering Prices for PV Modules
Entering Prices for Inverters
Creating and Managing Your Own Locations
Own Load Profiles
Importing Own Consumption Data
Importing Consumption Data from Sunny Portal
Creating Consumption Data Manually
Deleting Own Load Profile
Creating and Managing Your Own Charging Stations
Creating and Managing Your Own Electric Vehicles
Deleting User-Defined E-Mobility Templates
Managing Own Customer Data
Creating and Managing Own Cost Items and Templates
Creating and Managing User-Defined Tariffs
Changing the Sunny Design and Sunny Portal Password
Requesting Password
Importing Data from Sunny Design Desktop Version from Software Version 2
Upload SMA 360° Documents
Transferring Missing PV module data
Exporting Time Series
Reporting Errors and Problems
Entering Activation Code
Downloading the User Manual
Editing Customer Data
Exiting Sunny Design
Projects
Quick Planning and Detailed Planning
Project Management
Creating New Projects
Managing Existing Projects
Opening an Existing Project
Duplicating Projects
Working with Templates
Renaming Projects
Comparing Projects
Exporting Projects
Deleting Projects
Procedure for Designing Projects
Designing a PV System with Total Power Feed-in to Grid
Designing PV Systems with Self-Consumption Option
Design an Off-Grid System
Designing PV Hybrid Systems
Designing Energy Systems
Special Battery Applications
Optimizing Self-Consumption through Storage of PV Energy
Activating Peak Load Shaving
Defining Battery Charge Time Window
Enable peak shaving with increased self-consumption (multi-use)
Defining E-Mobility for Projects with Self-Consumption Option
Defining E-Mobility for Known Vehicles
Defining E-Mobility for Unknown Consumption Behavior
E-Mobility
Defining Driving Profile
Defining Time Windows
Defining Absences
Adding and Managing Charging Stations
Adding and Managing Electric Vehicles
Defining Statistical Charging Station Usage
Project Design
Entering Project Data
Configuring the System
Visual roof planning
Define the building
Defining restrictions
Defining the layout of PV modules
Defining the electrical design
Defining Load Profiles
Configuring Gensets (PV Hybrid System)
Defining Scenarios
Energy System
Structure of Energy System Page
Configuring Grid Components
Configuring Energy System Components
Configuring Loads
PV System
Configuring the PV System
Configuring Off-Grid Systems with System Assistant
Configuring PV Hybrid Systems with System Assistant
Viewing Design Suggestions
Setting Criterion for Sorting the Design Suggestions
Configuring Battery Systems
Configuring Gensets (Off-Grid System)
Cable Sizing
Determining Self-Consumption
Planning the Energy Management
Direct-Selling Order with SMA SPOT
Analyze Profitability
Analyzing Profitability (PV System with Total Power Feed-in to Grid and with Self-Consumption)
Analyzing Profitability (PV Hybrid Project)
Analysis of Energy and Power in System
Overview of Results
Viewing Summary
Create quotation
Creating the Project Documentation
Creating Harmonics Calculation
Glossary
Contact