Real Homes.
Real Solutions.
Every homeowner has unique energy needs. The following examples illustrate how different battery systems can be matched to different household priorities and lifestyles.
CASE STUDY 1 - Bellevue Family Preparing for Winter Storms
Home Profile
Location: Bellevue, WA
Home Size: 3,200 sq ft
Electric Vehicle: Yes
Solar: No
Primary Concern: Winter power outages
Challenge
This homeowner had experienced multiple power interruptions during recent winter storms and wanted a reliable backup solution to keep essential household systems running. The family also owned an electric vehicle and wanted a system that could support future energy needs without major upgrades.
Recommended Solution
Tesla Powerwall
Why This Solution
Tesla Powerwall offered a seamless backup experience, excellent app monitoring capabilities, and strong compatibility with future solar and EV charging plans.
Benefits
Backup power during outages
Support for critical household loads
Future-ready for solar integration
Easy energy monitoring through mobile app
Outcome
The homeowner gained greater peace of mind knowing the home could remain operational during unexpected outages while preparing for future energy independence.
CASE STUDY 2 - Sammamish Home Seeking Whole-Home Backup
Home Profile
Location: Sammamish, WA
Home Size: 4,500 sq ft
Electric Vehicle: Yes
Solar: Planned
Primary Concern: Whole-home backup
Challenge
This larger home had significant electrical demand, including multiple HVAC systems, home office equipment, and EV charging requirements. The homeowner wanted a backup solution capable of supporting most household operations during extended outages.
Recommended Solution
FranklinWH
Why This Solution
FranklinWH's advanced load management capabilities and scalable architecture made it well suited for larger homes with higher energy consumption.
Benefits
Whole-home backup capability
Intelligent load management
Scalable future expansion
Strong support for high-demand households
Outcome
The homeowner achieved a comprehensive energy resilience strategy capable of supporting essential systems while maintaining flexibility for future energy upgrades.