Fire Alarm Circuits & Wiring Classes
Circuit classifications, Class A vs Class B survivability, power-limited and non-power-limited separation, fire alarm cable types, and conductor sizing.
- Explain the advantage of Class A fire alarm circuits over Class B
- Define the purpose of style (class) designations for circuit survivability
- Describe power-limited vs non-power-limited wiring separation requirements
- Identify fire alarm cable markings and minimum conductor sizes in Canada
- Explain why security and fire circuits must be separated
Lesson 1
Class A vs Class B Circuit Survivability
Circuit Classification Fundamentals
Fire alarm circuits are classified by their ability to continue operating when a fault occurs. The two primary classifications you must know for the exam are Class A and Class B. The style (class) designation defines circuit survivability and performance for faults - this is the fundamental purpose of the classification system.
Class A Circuit
Topology: Loop (outgoing and return path)
Survivability: Continues operation with single open via return path
Wire usage: More wire required (return loop)
Reliability: Higher - survives single open or ground fault
Class B Circuit
Topology: Single run with EOL device
Survivability: Single open disables devices beyond fault
Wire usage: Less wire required
Reliability: Lower - depends on circuit integrity
Class A Advantage
The primary advantage of a Class A fire alarm circuit is that it continues operation with a single open via a return path. In a Class A circuit, wiring runs from the panel out to the last device and then returns back to the panel, creating a complete loop. If a wire breaks at any point, signals can still travel the alternate direction around the loop.
This redundancy is critical in life safety systems. A Class A circuit ensures that a single wiring fault does not disable the devices beyond the break point.
Class B Operation
A Class B circuit runs from the panel to the last device in a single path, terminated with an end-of-line (EOL) resistor. If the wire breaks, all devices beyond the break are lost. Class B circuits are simpler and use less wire, but offer lower survivability.
Common NAC Wiring Classes
A common NAC wiring class for survivability is Class A (return) or Class B with proper supervision. The choice between Class A and Class B depends on the system design, building code requirements, and the AHJ's specifications. High-rise buildings and critical facilities often require Class A wiring.
Suite Fault Isolators - CAN/ULC-S524:2024 Requirement
CAN/ULC-S524:2024 (Eighth Edition) introduced a mandatory requirement for suite fault isolators in residential and care occupancy buildings. A suite fault isolator is a device placed on the signaling line circuit (SLC) at the entrance to each suite that automatically isolates a short circuit or open within that suite without affecting signal devices in other suites.
CAN/ULC-S524:2024 Requirement
In residential and care occupancy buildings, a suite fault isolator must be installed at each suite. An open or short circuit in one suite must not impair the operation of signal devices in any other suite. This is a life-safety requirement effective with the 2024 Eighth Edition.
Suite fault isolators work by monitoring the circuit segment within the suite. When a fault (open or short) is detected on that segment, the isolator automatically disconnects only that suite's section from the SLC loop, allowing all other suites to continue operating normally.
| Building Type | Suite Fault Isolator Required |
|---|---|
| Residential (apartments, condos) | Yes - per CAN/ULC-S524:2024 |
| Care occupancy (long-term care, assisted living) | Yes - per CAN/ULC-S524:2024 |
| Single dwelling | No |
| Office buildings | Not required by S524:2024 |
The Class A circuit advantage is that it continues operation with a single open fault via its return path. CAN/ULC-S524:2024 (Eighth Edition) requires suite fault isolators in residential and care occupancy buildings so an open or short in one suite does not impair signal devices in other suites. The style (class) designation defines circuit survivability and performance for faults.