Conductors

A conductor is a slender rod or wire that controls the flow of electrons in a circuit. Made of circular, single-strand (solid) or multistrand (stranded) copper or aluminum. A gauge number designates wire diameter — the higher the gauge, the smaller the wire.

Cables

A cable is two or more conductors grouped together in a common protective cover. A metallic shield may also be formed around the conductors within the outer jacket. Large conductors from the main source to panelboards are specified by number of conductors, wire gauge, and overall cable diameter.

Transformers

An electric device using electromagnetism to change voltage from one level to another. Sized by kilovolt-amperes (kVA) it can safely handle. Most common type is air-cooled. Size is based on electrical power required.

Panelboards

A wall-mounted distribution cabinet containing overcurrent and short-circuit protection devices for lighting, heating, or power circuits. Consists of an enclosure (tub) and an interior with circuit breakers or fuses mounted on busbars. Rated by total safe load capacity in amperes.

Busways

A metal-enclosed distribution system of busbars in prefabricated sections. Used where conventional wiring is not practical or cost-effective. Two types: Feeder busways (800–5000A, distribute from central power point) and Plug-in busways (225–600A, installed overhead where power loads must be flexible).

Fuses

An overcurrent protection device with a fusible link that melts and opens a circuit when an overload condition or short circuit occurs. Rated by current that can flow through the device without interrupting the circuit.

Circuit Breakers

An overcurrent protection device with a mechanism that automatically opens a circuit on overload or short circuit. Trip mechanism operated thermally, magnetically, or by a thermal/magnetic combination. Most use a combination thermal/magnetic trip.

Switch Types

A switch starts, stops, or redirects current flow in a circuit. Classified by number of poles, number of closed positions, and method of operation. Common types:

Single-pole (SPST) Double-pole Two-way Three-way (SPDT) Four-way (DPDT) Dimmer Motion sensor Photoelectric Safety switch

Receptacle Types

A receptacle connects equipment with a cord and plug to an electrical system. Common types:

Duplex Multioutlet assembly Clock hanger Locking GFCI (Ground-Fault) AFCI (Arc-Fault)

GFCI: Required in areas with exposure to water/moisture. Interrupts flow when ground fault exceeds a predetermined value. AFCI: Reduces fires from faulty wiring in electrical circuits.

By Mounting

Surface-mounted fastened to walls, ceilings, or structural members.
Ceiling-mounted surface-mounted or pendant.
Recessed housing behind finish material, face flush.
Track lighting frame with multiple lamp receptacles.
Bracket-mounted directional, used for floodlights.
Pole-mounted for street/exterior.
Exit lights surface-mounted, indicate emergency exit route.

Incandescent Lamps

Produces light by current through a tungsten filament inside a gas-filled sealed glass bulb. Shape designations: A (standard), G (globe), PAR (parabolic), PS (pear-shaped), ES (extended service, hard-to-reach). Tungsten-halogen lamps maintain constant light output during lamp life.

Fluorescent Lamps

Low-pressure discharge lamp — ionization of mercury vapor transforms UV energy into light. Available standard tube, high-output, U or circle shapes. Tube lengths from 18″ to 96″, diameters ⅝″ to 2½″. Energy-efficient fluorescent lamps operate on less electrical power than standard lamps.

LED Lamps

A light-emitting diode (LED) emits a specific color of light when DC voltage is applied across a semiconductor junction. LEDs use less electricity than incandescent or fluorescent lamps to produce the same light level. When properly installed, LEDs have a longer service life than other lamp types. Common applications: streets, parking garages, refrigerated cases, task lighting. Brightness in lumens, power in watts, color warmth in kelvins.

HID Lamps

High-intensity discharge (HID) produces light from an arc tube. Three types:
• Mercury-vapor — HID via electric discharge through mercury vapor. Long life, used where lamp replacement is difficult.
• Metal-halide — electric discharge through mercury vapor and metal halides. Clear white light, interior and exterior.
• High-pressure sodium — current flows through sodium vapor under high pressure/temperature. Commonly used for street lamps and exterior lighting.

Solar Power — Components

A solar-power system consists of: Solar panels → Charge controller → Inverter → Battery array. May also connect to a traditional utility power grid for bidirectional use.

Solar Controllers

PWM (Pulse-Width Modulation) — Makes a direct connection between solar panels and the battery array. Some resultant power loss.

MPPW (Maximum Power-Point Tracking) — Broader range of solar panel and battery configurations. Potential to eliminate power loss.

Inverters

Converts DC power from solar panels into AC power. Types: Micro (installed at each panel, converts DC to AC at source), String (receives power from a series/string of panels), Central (larger, accommodates many more panels), Battery-based (requires a battery, allows bidirectional current flow when connected to power grid).

Wind Power Systems

Utilizes a turbine or blade-type device that spins due to naturally occurring winds, turning a generator. Electric power created is treated in much the same way as the power generated by solar panels. Uses a system of controllers, inverters, and battery storage to convert DC to AC and store power as needed.

Emergency Power Systems

May utilize a standby generator or a battery array (UPS) to provide uninterrupted power supply. When the main power source fails, an automatic transfer switch transfers power to the alternate source.

Utilized in computer/IT installations, communications facilities, and health care/medical facilities. Standby generators are powered by natural gas, propane, or diesel. Installed in a secure area near the structure to provide enough electrical power to keep essential needs running temporarily.

Detailed Takeoff

A precise method for industrial and commercial work wherever unique job conditions exist. A detailed item-by-item quantity takeoff is derived from electrical prints, schedules, and specifications. Estimators create separate worksheets for each type of electrical item needed: cables, boxes, receptacles, conduit and fittings, labor, service and distribution equipment, motor controls, switches, and trenching/excavation.

Averaging Takeoff

A simplified method where material and labor costs are calculated as an average cost per outlet. Sufficiently accurate for small takeoff jobs on basic electrical wiring systems. Estimators determine the cost of materials and labor required to install a typical electrical outlet, then add service entrance conduit, meters, and panelboards. Outlet, receptacle, and switch costs are commonly figured on the basis of a 15′ run of cable or conduit.

Conduit Takeoff Details

Conduit size is determined based on the number of conductors or cables allowed per NEC tables (allowable conduit fill). It is common to increase conduit size after reaching approximately 80% of allowable conduit fill.

Count one coupling per 10′ of conduit. Add two additional couplings per 90° elbow. Count conduit fittings for each connection and termination.

Labor Units

A labor unit is the average time it takes a tradesperson to install a specific type of material. Labor units are obtained from standard estimating references or company historical data. Labor units are commonly related to each item or material unit.

Variables affecting labor cost: temporary service wiring needs, job-site conditions, heights, delivery schedules, and climatic conditions (rain, snow).

Solar Takeoff

Includes solar panels, mounting systems, wiring, controllers, inverters, and battery arrays. Battery systems may require a specialized rack or mounting system. Labor costs include transporting, installing panels, and connecting to the electrical power grid or battery array. Estimators may check for available tax credit opportunities that can offset a portion of the system costs.

Wind Takeoff

Costs include turbines, blade systems, generators, and controllers/inverters/battery storage. Labor costs include construction of support structures, installation of turbines, and power installation and hookup. Poles, brackets, and foundation systems for adequate support are also included.

Emergency Power Takeoff

Determine the size and type of standby generator(s) specified. Costs for mounting and installing the generator on a concrete pad or other support are determined, along with security protection (fencing, protective walls). For propane or diesel systems, storage tanks are also included. Labor includes mounting the generator and connecting the fuel source and automatic transfer switch.