SPAN Smart Panel Installation: Control Every Circuit from Your Smartphone

The Smart Home Electrical Hub for Solar, Batteries, EV Chargers, and Heat Pumps

SPAN Panel replaces your traditional breaker box with a circuit-level energy management system that provides real-time monitoring and smartphone control of all 32 circuits—allowing you to remotely shut off individual circuits (forgotten iron, garage lights), prioritize backup power during outages by categorizing circuits as Must Have, Nice to Have, or Not Essential, and avoid expensive electrical service upgrades through intelligent load management (PowerUp technology) that automatically manages appliances when power demand exceeds your 200-amp service capacity.


For electrification-forward homeowners in Pierce, King, and Snohomish counties planning solar installations, battery storage, EV charging, heat pump conversions, or whole-home remodels, SPAN Panel serves as the central electrical hub that integrates and manages these systems through a single smartphone interface. Sun's Eye Solar provides certified SPAN installation services that position your home's electrical foundation for electrification upgrades—eliminating the need for costly utility service upgrades (average wait time: 18 months) and providing granular control over energy consumption, backup power allocation, and appliance prioritization.


Table of Contents

1. What Makes SPAN Panel Different from Traditional Electrical Panels

2. Circuit-Level Energy Monitoring and Control

3. PowerUp Technology: Avoid Electrical Service Upgrades

4. Intelligent Backup Power Management

5. Solar, Battery, and EV Charger Integration

6. Heat Pump and Electrification Compatibility

7. SPAN Installation Process and Certification Requirements

8. Cost Analysis: SPAN vs. Traditional Panel Upgrades

9. Common Questions About SPAN Panel

10. Next Steps: SPAN Installation Consultation


What Makes SPAN Panel Different from Traditional Electrical Panels


Traditional electrical panels function as passive distribution boxes: circuit breakers protect wiring from overloads, but provide zero visibility into power consumption, no remote control capability, and no intelligence about how energy is being used. When you want to turn off a circuit, you walk to the panel and flip a breaker manually. When power goes out, a fixed sub-panel determines which circuits receive backup power—you can't adjust priorities remotely during an extended outage.

SPAN Panel transforms your electrical panel into an active energy management system with embedded sensors, relays, processing power, and wireless connectivity built into the backplate behind standard circuit breakers.


Core SPAN Capabilities Traditional Panels Lack

  • Real-time power monitoring: See exactly how many watts each circuit is drawing at any moment through the SPAN Home app
  • Remote circuit control: Turn any circuit on or off from your smartphone, even when you're away from home
  • Energy consumption insights: Track daily/monthly energy usage by circuit to identify high-consumption appliances
  • Dynamic load management: Automatically prevent service panel overloads by temporarily reducing power to non-critical circuits
  • Flexible backup power: Reconfigure which circuits receive battery backup during outages without rewiring
  • Safety alerts: Receive notifications for abnormal power draw patterns that might indicate electrical problems
  • Voice control: Integration with Amazon Alexa for voice-activated circuit management


Technical Specifications

  • Service rating: 200-amp main breaker with 225-amp bus
  • Circuit capacity: 32 individually monitored and controlled circuits per panel (expandable with multiple panels for homes requiring 400A service)
  • Breaker compatibility: Accepts standard 1-inch residential circuit breakers from major manufacturers
  • Installation location: NEMA 3R rated for indoor or outdoor mounting
  • Connectivity: Wi-Fi, Ethernet, Bluetooth, and 4G/LTE cellular (Wi-Fi recommended for primary connection)
  • Safety certification: UL 3141 Power Control System (PCS) certified—first smart panel to meet this rigorous safety standard required by 2026 NEC
  • Warranty: 10-year manufacturer warranty



Circuit-Level Energy Monitoring and Control


SPAN Panel's circuit-level granularity provides homeowners with visibility and control impossible with traditional electrical panels. Each circuit's power draw is monitored in real-time through embedded sensors, displayed in the SPAN Home app as both instantaneous wattage and accumulated kilowatt-hour consumption.


Real-World Control Scenarios


Scenario 1: Forgotten Appliances

You're at work and realize you left the garage lights on. Open the SPAN Home app, navigate to the garage lighting circuit, and turn it off remotely. Alternatively, use voice command: "Alexa, turn off garage lights circuit."


Scenario 2: Vampire Power Identification

Your monthly energy bill is higher than expected. Review SPAN's circuit-level consumption data and discover the basement entertainment center circuit is drawing 150 watts continuously—even when "off." Identify the culprit devices (cable box, gaming console in standby mode) and either unplug them or configure SPAN to automatically shut off that circuit at night.


Scenario 3: Scheduled Circuit Management

Set schedules for specific circuits. Example: Pool pump circuit runs 6 hours daily (10 AM–4 PM) during off-peak hours to minimize demand charges. SPAN automatically energizes and de-energizes the circuit without manual intervention.


Energy Consumption Analytics


The SPAN Home app provides consumption breakdowns showing:

  • Circuit rankings: Identify highest-consuming circuits (typically HVAC, electric water heater, electric dryer)
  • Time-of-use patterns: See when energy consumption peaks (morning/evening for most homes)
  • Monthly comparisons: Track consumption trends over time to measure impact of behavioral changes or efficiency improvements
  • Cost allocation: SPAN estimates the cost impact of each circuit based on your utility rate (when connected to PSE or other utility rate data)



PowerUp Technology: Avoid Electrical Service Upgrades


One of SPAN's most financially valuable features: PowerUp intelligent load management allows homes to add high-power appliances (EV chargers, heat pumps, induction ranges) without upgrading electrical service from 200A to 400A—a process that typically costs $15,000–$25,000 and requires 12–18 months of utility coordination.


How PowerUp Works

Traditional electrical service calculations use peak demand sizing: add up the maximum possible load of all circuits and ensure the service panel can handle that theoretical maximum simultaneously. This conservative approach often requires service upgrades when adding major appliances, even though actual simultaneous usage is rare.

PowerUp uses real-time load management: SPAN continuously monitors total power draw across all circuits. When demand approaches the 200A service capacity (approximately 48 kW at 240V), PowerUp temporarily reduces power to pre-configured "managed" circuits—typically high-draw but non-critical loads like:

  • EV chargers (can slow charging rate from 48A to 24A)
  • Electric water heaters (delay heating cycle by 30–60 minutes)
  • Pool pumps and hot tub heaters
  • Electric dryers (defer start or reduce heating element power)


PowerUp Example: Adding Level 2 EV Charger


Scenario: Home with 200A electrical service, existing 5-ton heat pump (20A draw), electric water heater (20A), and typical household loads (30–40A baseline). Homeowner purchases electric vehicle and wants to install 48A Level 2 charger.


Traditional approach:

  • Peak load calculation: Heat pump (20A) + water heater (20A) + EV charger (48A) + baseline (40A) = 128A
  • Still within 200A service capacity, but utility may require load calculation review
  • Risk: Future additions (induction range, second EV) would trigger mandatory service upgrade


SPAN PowerUp approach:

  • Configure EV charger as "managed circuit" in SPAN app
  • If total home load exceeds 160A (80% of service capacity), SPAN automatically reduces EV charger to 24A
  • Result: No service upgrade required. Car still charges overnight (typical 8-hour charging window provides ~50 kWh even at reduced rate)
  • Cost savings: $15,000–$25,000 (avoided service upgrade)



Intelligent Backup Power Management


Traditional backup power systems require electricians to hardwire a critical loads sub-panel containing only the circuits you want powered during outages. Once installed, changing which circuits receive backup power requires expensive electrical work—rewiring circuits from the main panel to the backup panel.


SPAN eliminates the backup sub-panel entirely. All circuits remain in the main SPAN Panel, and you configure backup priorities through software—reconfigurable at any time without additional electrical work.


SPAN Backup Priority Categories

In the SPAN Home app, categorize each circuit as:

  • Must Have: Circuits that remain powered during outages (refrigerator, medical equipment, well pump, internet router, garage door opener)
  • Nice to Have: Circuits powered when battery capacity allows (lighting, TV, microwave, outlets)
  • Not Essential: Circuits automatically disabled during outages to conserve battery (electric water heater, pool pump, landscape lighting, guest bedroom outlets)


Dynamic Load Shedding During Extended Outages

SPAN continuously calculates remaining backup runtime based on current battery state of charge and real-time power consumption. The app displays: "Battery will last 18 hours at current usage."


As battery capacity decreases, SPAN automatically sheds loads in reverse priority:

  • 100%–50% battery: All Must Have + Nice to Have circuits powered
  • 50%–20% battery: Automatically disable Nice to Have circuits; maintain Must Have circuits only
  • Below 20% battery: User receives low battery warning via app notification; can manually disable additional Must Have circuits remotely to extend remaining runtime


Backup Runtime Extension: Real-World Example

Scenario: 13.5 kWh battery (Tesla Powerwall 3 or 2× Enphase IQ Battery 5P), winter storm outage, home consuming 1.5 kW average (refrigerator + lights + internet + TV)


Without SPAN load shedding:

  • All circuits powered until battery depletes: 13.5 kWh ÷ 1.5 kW = 9 hours runtime
  • Once battery reaches minimum reserve (typically 10–20%), entire home loses power simultaneously


With SPAN intelligent load shedding:

  • Hours 0–6: All Must Have + Nice to Have circuits powered (1.5 kW average)
  • Hours 6–12: SPAN disables Nice to Have circuits (TV, extra lighting), reducing load to 800W
  • Hours 12–18: User receives notification, remotely disables additional circuits (reduces to 400W—refrigerator + internet only)
  • Total runtime: 18+ hours instead of 9 hours—double the backup duration through intelligent circuit management



Solar, Battery, and EV Charger Integration


SPAN Panel integrates with all major residential energy systems through direct communication protocols and CT (current transformer) monitoring:


Solar Integration

SPAN monitors solar production in real-time through CTs installed on solar inverter output circuits. The app displays:

  • Current solar production: Live wattage being generated
  • Energy flow visualization: See solar energy flowing to home loads, battery charging, or grid export
  • Self-consumption tracking: Percentage of solar production used directly by home vs. exported to grid
  • Production history: Daily/monthly solar generation totals


Compatible with all solar inverter brands: Enphase microinverters, SolarEdge, Tesla Powerwall integrated inverter, Generac PWRcell, string inverters from SMA, Fronius, etc.


Battery Storage Integration

SPAN communicates directly with home battery systems to provide:

  • State of charge (SOC) percentage: See battery capacity in real-time
  • Runtime calculator: SPAN translates battery percentage into practical backup duration: "Battery will power Must Have circuits for 14 hours at current usage"
  • Charging/discharging status: Monitor battery charging from solar or grid, discharging to home loads
  • Operating mode control: Some battery systems allow SPAN to adjust operating modes (self-consumption, time-based control, backup-only)


Certified battery integrations:

✓    Tesla Powerwall (2, +, and 3)

✓    Enphase IQ Battery (3T, 10T, 5P)

✓    FranklinWH aPower

✓    LG Chem RESU

✓    SolarEdge Energy Bank

✓    Generac PWRcell


EV Charger Integration

SPAN Drive is the company's proprietary Level 2 EV charger designed for seamless SPAN Panel integration. When paired together:

  • Smart charging: Schedule EV charging during off-peak electricity hours or when solar production is high
  • Dynamic power allocation: SPAN Drive automatically adjusts charging rate based on available capacity (can charge at full 48A when home load is low, reduce to 24A when other appliances are running)
  • Solar-optimized charging: Increase charging rate when excess solar production is available
  • Remote control: Start/stop charging sessions from SPAN Home app
  • Third-party EV charger compatibility: SPAN Panel also works with ChargePoint, JuiceBox, Wallbox, and other Level 2 chargers—though without the same depth of integration as SPAN Drive



Common Questions About SPAN Panel


Q: How much does SPAN Panel cost installed?

A: SPAN Panel hardware costs $3,500 (manufacturer retail price). Professional installation typically adds $2,000–$4,000 depending on:

  • Panel location (outdoor installation requires weatherproof enclosure and conduit)
  • Existing panel condition (if old panel has aluminum wiring, knob-and-tube, or Federal Pacific breakers, additional remediation may be required)
  • Permit and inspection fees (vary by jurisdiction)
  • Integration complexity (solar/battery/EV system commissioning)

Total installed cost: $5,500–$7,500 typical range

Federal tax credit: SPAN Panel qualifies for a $600 tax credit under the Energy Efficient Home Improvement Credit (26 USC 25C) when installed as part of a qualifying home improvement project


Q: Can SPAN Panel replace my existing panel, or does it require a new installation?

A: SPAN Panel is a direct replacement for traditional electrical panels. The installation process:

  • Disconnect utility power at meter (coordination with PSE required)
  • Remove existing panel
  • Mount SPAN Panel in same location (or new location if desired)
  • Transfer all existing circuits to SPAN Panel with new breakers
  • Commission SPAN system through app (requires SPAN-certified installer)
  • Typical installation time: 3–8 hours


Q: Does SPAN Panel work with existing solar and battery systems?

A: Yes. SPAN integrates with existing solar inverters and battery systems through current transformer monitoring and direct communication protocols. No modifications to existing solar or battery equipment are required—SPAN connects to your electrical panel and communicates with these systems to provide unified monitoring and control.


Q: What happens if my internet connection fails? Can I still control circuits?

A: SPAN Panel continues functioning during internet outages. Backup power priorities and load management settings remain active. However, you lose remote monitoring and control via the app until internet connectivity is restored. Local control is available via Bluetooth connection when within range of the panel.



Next Steps: SPAN Installation Consultation


If you're planning solar installation, battery storage, EV charging infrastructure, heat pump conversion, or a whole-home remodel, SPAN Panel provides the intelligent electrical foundation that integrates and manages these systems through smartphone control—eliminating expensive electrical service upgrades and providing granular visibility into energy consumption.


Sun's Eye Solar provides certified SPAN installation services including:

✓    Electrical load analysis and circuit planning

✓    PowerUp configuration for major appliance additions

✓    Backup power priority design

✓    Solar, battery, and EV charger integration

✓    Complete permitting and PSE coordination

✓    Professional installation by SPAN-certified electricians

✓    SPAN Home app commissioning and training

✓    Federal tax credit documentation support

✓    10-year warranty administration


Contact Sun's Eye Solar to schedule a SPAN Panel consultation. We'll assess your current electrical service, review your electrification plans, design a smart electrical system optimized for your home's energy goals, and provide transparent pricing showing exactly how SPAN positions your home for future energy independence.

Enphase Certified Installer: IQ Battery Storage and Microinverter Systems for Western Washington Homes

By Dan Hulse March 17, 2026
Modular Energy Storage, 25-Year Microinverter Reliability, and Professional System Upgrades Enphase IQ Battery 5P delivers 5 kWh of usable capacity with 3.84 kW continuous power and 7.68 kW peak output—backed by an industry-leading 15-year, 6,000-cycle warranty—and connects seamlessly to existing Enphase microinverter systems without requiring a separate battery inverter. This modular architecture allows homeowners to start with a single 5 kWh unit (approximately $8,000–$9,000 installed) and expand storage capacity incrementally as energy needs grow by adding additional IQ Battery units, with each battery communicating through the existing Enphase ecosystem via the IQ System Controller. For homeowners in Pierce, King, and Snohomish counties with existing Enphase microinverter solar systems—or those evaluating modular battery storage that scales with future needs—Sun's Eye Solar provides certified Enphase installation services for IQ8 microinverters, IQ Battery systems, and complete solar-plus-storage retrofits. This article explains why Enphase's distributed architecture delivers superior reliability compared to centralized inverters, how modular battery systems provide cost-effective capacity expansion, and what professional Enphase certification means for system performance, warranty protection, and remote diagnostics. Table of Contents 1. Why Microinverter Architecture Matters: Reliability Through Distributed Design 2. Enphase IQ8 Microinverter Lineup: Model Specifications and Selection 3. IQ Battery Systems: Modular Storage That Grows With Your Needs 4. Enphase Product Comparison: Batteries and Microinverters 5. Retrofit and Upgrade Pathways for Existing Solar Homeowners 6. Why Enphase Certification Matters for Your Installation 7. Remote Monitoring and Diagnostic Capabilities 8. PSE Flex Battery Enrollment for Enphase Systems 9. Common Questions About Enphase Systems 10. Next Steps: Enphase System Consultation Why Microinverter Architecture Matters: Reliability Through Distributed Design Traditional solar systems use a single string inverter —a centralized unit typically mounted on an exterior wall or in a garage that converts DC power from all solar panels into AC power for home use. While this architecture works, it creates a single point of failure: if the string inverter fails, the entire solar array stops producing power until repairs are completed. Enphase pioneered microinverter technology —a distributed architecture where each solar panel has its own dedicated inverter attached directly to the panel mounting rail. This panel-level power conversion delivers three critical advantages: 1. System Resilience: Eliminating Single Points of Failure When one microinverter experiences a failure (Enphase reports a 0.05% annual failure rate), only that single panel is affected. The remaining panels continue producing power normally. In contrast, string inverter failures disable the entire array. Real-world impact: • 25-panel Enphase system with 1 failed microinverter: 96% of system capacity remains operational • 25-panel string inverter system with failed inverter: 0% of system capacity operational until repair • Average repair timeline: Microinverter replacement takes 1–2 hours; string inverter replacement can take 1–2 weeks including parts procurement 2. Panel-Level Power Optimization String inverters operate at the performance level of the weakest panel in the series circuit. If one panel experiences shading, soiling, or debris coverage, the entire string's output drops to match that lowest-performing panel. Microinverters optimize each panel independently. Shading on one panel affects only that panel's output—the rest of the array maintains peak production. Production improvement scenarios: • Partial shading (morning/afternoon tree shadows): Microinverters deliver 10–25% more annual production compared to string inverters • Complex roof configurations (multiple orientations): Microinverters allow mixing east-, south-, and west-facing panels on the same system without performance penalties • Module mismatch tolerance: Can add panels of different wattages to existing arrays (useful for system expansions when original panel models are discontinued) 3. Enhanced Safety: Rapid Shutdown Compliance National Electrical Code (NEC 2017 and later) requires rapid shutdown functionality that de-energizes DC wiring within 30 seconds during emergencies—protecting firefighters and service technicians from high-voltage DC circuits. Enphase IQ8 microinverters provide inherent rapid shutdown: when AC grid power is disconnected (utility shutdown, emergency shutoff, or grid failure), microinverters stop converting DC to AC within milliseconds. DC voltage on the roof drops to safe levels (individual panel voltage of 30–50V) without additional rapid shutdown devices. Enphase IQ8 Microinverter Lineup: Model Specifications and Selection Enphase offers five IQ8 microinverter models, each optimized for specific solar panel wattages and cell configurations. Selecting the correct model ensures maximum energy harvest and prevents premature microinverter saturation.

PSE Flex Batteries: Get Paid for Backup Power While Supporting Western Washington's Energy Grid

By Dan Hulse March 13, 2026
How Puget Sound Energy Homeowners Earn $1,000+ Through Battery Storage Incentives A Tesla Powerwall installed in a Tacoma home provides backup power during winter storms, stores excess solar production during summer afternoons, and earns the homeowner $1,000 at enrollment plus up to $500 annually through Puget Sound Energy's Flex Batteries program. That's $3,500 in utility incentives over five years—on top of the 30% federal solar tax credit—for a system that maintains at least 20% battery capacity reserved exclusively for the homeowner's backup power needs. For PSE customers in Pierce, King, and Snohomish counties evaluating home battery storage, the Flex Batteries program transforms what was already a strong reliability investment into a financially compelling utility partnership. The program pays homeowners to allow PSE limited, automated access to their battery systems during Flex events—periods of peak energy demand when the grid experiences stress from extreme weather or high usage.  This article explains exactly how PSE's Flex Batteries program works, which battery systems qualify for incentives, what enhanced incentives reduce upfront installation costs by up to $10,000 for eligible homeowners, and why Sun's Eye Solar's certification as a PSE Recommended Energy Professional positions us to manage the entire process—from system design and equipment selection through interconnection approval and Flex enrollment.