Green Energy April 27, 2026 9 min read By ETEM Engineering Team

Solar PV System Design & Net Metering: The Ontario Engineer's Guide

Ontario's net metering program lets building owners offset their hydro bill with rooftop solar " but the electrical design has to satisfy CEC Section 64, ESA inspection, and utility interconnection requirements simultaneously. Here's the engineering behind a code-compliant PV installation.

Commercial Rooftop Solar PV Installation

System Architecture: Grid-Tied PV

The vast majority of Ontario commercial PV installations are grid-tied without battery storage. The system components:

Component	Function	Key Specification
PV Modules	Convert sunlight to DC electricity	Typically 400"550W monocrystalline, Voc 40"50V per module
String Inverter	Convert DC to AC (grid-synchronous)	Must be CSA/UL listed, anti-islanding per IEEE 1547
AC Disconnect	Visible, lockable disconnect for utility access	Required by utility " must be within sight of meter
DC Disconnect	Isolate PV array from inverter	CEC Rule 64-112 " required for maintenance
Revenue Meter	Bidirectional meter tracking import/export	Provided by LDC (Local Distribution Company)
Rapid Shutdown	De-energize rooftop conductors for firefighter safety	CEC Rule 64-218 " within 30 seconds, to 30V within array

CEC Section 64 " Solar Photovoltaic Systems

Section 64 is the dedicated CEC section for PV installations. Key rules:

CEC Rule	Requirement
64-060	PV source circuit conductors shall be sized at 125% of Isc (short circuit current) of the module string
64-062	Overcurrent protection for PV source circuits " maximum fuse rating per module manufacturer datasheet
64-076	PV system output connected to the supply side of the service disconnect requires utility approval
64-112	DC disconnect means required " must be accessible and lockable
64-210	The 120% rule " PV backfeed breaker + main breaker 120% of busbar rating
64-218	Rapid shutdown " array conductors must be reduced to 30V within 30 seconds of initiation

The 120% Rule (CEC Rule 64-210)

The sum of the PV backfeed breaker rating and the main breaker rating shall not exceed 120% of the busbar rating.

Example: 200A busbar panel (TM) 200A " 1.2 = 240A maximum (TM) 240A (TM) 200A main = 40A maximum PV backfeed breaker
At 240V single-phase: 40A " 240V = 9.6 kW maximum inverter output

If the PV system exceeds this limit, options include:

Upgrade the busbar " install a higher-rated panel
Supply-side connection " connect PV between meter and main breaker (requires utility approval per Rule 64-076)
Line-side tap " connect directly to service entrance conductors (complex, P.Eng design required)

Net Metering in Ontario

Parameter	Detail
Program	Ontario Net Metering (O. Reg. 541/05)
Maximum size	500 kW (must be sized to offset own consumption)
Meter type	Bidirectional " credits excess generation at same rate as consumption
Credit rollover	Excess credits roll forward for 12 months, then reset to zero
Eligible LDCs	Hydro One, Toronto Hydro, Alectra, and all Ontario LDCs
Application	Submit to your LDC with single-line diagram, P.Eng stamp, ESA notification

Utility Interconnection Process

Step 1: Pre-application " confirm service capacity and transformer sizing with LDC
Step 2: Engineering design " single-line diagram with P.Eng seal
Step 3: ESA permit " file notification with Electrical Safety Authority
Step 4: Installation and ESA inspection
Step 5: LDC meter exchange " install bidirectional meter
Step 6: Authorization to connect (ATC) " LDC approves grid connection

Inverter Sizing

Parameter	Rule
DC/AC ratio	Typically 1.1"1.3 (e.g., 13 kW DC array (TM) 10 kW inverter)
Input voltage window	String Voc (at lowest temp) must be within inverter max Vdc rating
MPPT range	String Vmp must fall within inverter MPPT voltage window at all operating temperatures
Anti-islanding	Inverter must cease export within 2 seconds of grid loss (IEEE 1547 / CSA C22.2 No. 107.1)

Frequently Asked Questions

What is net metering in Ontario?

Net metering allows solar PV system owners to export excess electricity to the grid and receive credits on their utility bill. The program is available through local distribution companies for systems up to 500 kW.

What is the 120% rule for solar PV?

CEC Rule 64-210 limits the total supply-side current to 120% of the busbar rating. For a 200A panel, the maximum solar breaker is 40A (200A x 120% = 240A, minus 200A main = 40A). See our service entrance guide for panel rating details.

Do I need a P.Eng stamp for a solar PV installation in Ontario?

Yes, ESA requires engineered drawings stamped by a licensed P.Eng for most commercial solar PV installations. See our P.Eng stamp requirements guide for details.

Disclaimer: This article provides general engineering guidance for educational purposes. Always verify requirements against the current edition of the Canadian Electrical Code (CEC), Ontario Electrical Safety Code (OESC), and your Local Distribution Company's interconnection standards. Consult a licensed Professional Engineer (P.Eng) for project-specific applications.

Download the PV System Design Checklist

Get our engineering checklist covering CEC Section 64 compliance, 120% rule calculations, and utility interconnection requirements for Ontario.

Need Solar PV Engineering Design?

ETEM Engineering provides complete PV system design " from string sizing and inverter selection to single-line diagrams, P.Eng sealed drawings, and utility interconnection coordination.

Get a Free Consultation