Horsepower (Electric) to Kilowatt
hp
kW
Conversion History
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Quick Reference Table (Horsepower (Electric) to Kilowatt)
| Horsepower (Electric) (hp) | Kilowatt (kW) |
|---|---|
| 0.25 | 0.1865 |
| 0.5 | 0.373 |
| 1 | 0.746 |
| 5 | 3.73 |
| 10 | 7.46 |
| 50 | 37.3 |
| 100 | 74.6 |
About Horsepower (Electric) (hp)
Electric horsepower (hp(E)) is defined as exactly 746 watts — a rounded value used in the US for rating electric motors. It is the standard on US electric motor nameplates, pump ratings, and industrial motor specifications. The electric hp is marginally larger than the metric hp (735.5 W) and essentially identical to the mechanical and international hp (745.7 W). When purchasing a motor in the US, the hp rating refers to this electric horsepower definition.
A 1 hp electric motor draws about 746 W of shaft output power (actual electrical draw is higher due to efficiency losses). US pool pumps are typically rated 0.75–2 hp (electric).
About Kilowatt (kW)
A kilowatt (kW) equals 1,000 watts and is the practical unit for household appliances, electric vehicle charging, and small-scale power generation. Home solar panel systems are rated in kilowatts of peak output; EV home chargers deliver 7–22 kW; a domestic electric oven draws about 2–4 kW. Electricity bills are calculated by multiplying kilowatts by hours of use to yield kilowatt-hours (kWh). Engine power in some countries is expressed in kilowatts rather than horsepower.
A typical home uses 1–5 kW of instantaneous demand depending on what is running. A 7 kW home EV charger can add about 40 km of range per hour.
Horsepower (Electric) – Frequently Asked Questions
Why is electric horsepower exactly 746 watts instead of 745.7?
It's a deliberate rounding for simplicity. The mechanical horsepower is 745.69987... watts — an ugly number for electrical calculations. The electric motor industry rounded to 746 W for clean nameplate ratings and straightforward calculations. The 0.04% difference is far below any motor's manufacturing tolerance. Some standards even use 750 W as an approximation. In practice, the distinction between 745.7 and 746 matters only to standards lawyers and unit conversion pedants.
How do I know the actual electrical draw of a motor rated in hp?
Divide the hp rating by the motor efficiency and power factor. A 5 hp motor at 90% efficiency draws: 5 × 746 / 0.90 = 4,144 W of electrical power to deliver 3,730 W of shaft power. For three-phase motors, also divide by (√3 × voltage × power factor) to get amperage. Real-world efficiency ranges from 75% for small motors to 96% for large premium-efficiency ones. The nameplate always shows shaft output, not electrical input — a common source of confusion.
Why do US pool pumps still use horsepower ratings?
Because American homeowners and pool contractors have decades of experience sizing pumps in hp: "a 20,000-gallon pool needs a 1.5 hp pump" is ingrained knowledge. The Department of Energy actually mandated variable-speed pool pumps in 2021 and encouraged watt-based efficiency ratings, but manufacturers still prominently display hp because it drives purchasing decisions. A customer choosing between a 1 hp and 1.5 hp pump understands the difference intuitively; 746 W vs 1,119 W means nothing to them.
What is the difference between hp(E) and NEMA motor ratings?
NEMA (National Electrical Manufacturers Association) defines standard motor sizes using electric hp: 1/4, 1/3, 1/2, 3/4, 1, 1.5, 2, 3, 5, 7.5, 10, 15, 20, 25, 30, 40, 50, 60, 75, 100 hp and up. These are standardized frame sizes — a 5 hp motor from any manufacturer fits the same mounting bolts. The hp(E) rating is the shaft output; NEMA also specifies efficiency classes (IE1 through IE4) that determine how much electrical power the motor actually consumes.
Are electric car motors rated in electric horsepower?
Not usually. EV manufacturers rate motors in kilowatts because the electrical connection is obvious and kW is internationally understood. A Tesla Model 3 motor is listed as 211 kW, not "283 hp(E)." However, marketing materials often convert to hp for American consumers: "283 horsepower" sounds sportier. Interestingly, EV motors are far more efficient (90–97%) than combustion engines (25–40%), so a 200 hp EV motor consumes far less total energy than a 200 hp gasoline engine.
Kilowatt – Frequently Asked Questions
How many kilowatts does a house use at peak?
A typical Western household draws 1–5 kW on average, but peak demand can spike to 10–15 kW when the oven, dryer, AC, and water heater all run simultaneously. This peak is why electrical panels are sized at 100–200 amps (24–48 kW capacity). Adding an EV charger at 7–11 kW can push some older homes past their panel limits, requiring an upgrade.
Why do car engines in Europe show kW instead of horsepower?
EU directive 80/181/EEC mandated kilowatts as the official unit for engine power, making kW the legally required figure on vehicle documents since 2010. Manufacturers still advertise in PS (metric horsepower) because consumers are used to it, but the official registration papers always list kW. One kW equals about 1.36 PS, so a 100 kW engine is roughly 136 PS.
How many kilowatts does an EV charger need?
Home Level 2 chargers draw 7–22 kW, adding 30–130 km of range per hour. Public DC fast chargers range from 50 kW (older units) to 350 kW (latest ultra-rapid chargers). Tesla Superchargers V3 peak at 250 kW. A 350 kW charger can add 300 km of range in about 15 minutes on compatible vehicles — but your home wiring cannot deliver anywhere near that without industrial-grade supply.
What happens to a home's power draw during the surge after a blackout?
When power returns after an outage, everything turns on simultaneously — fridges, AC compressors, water heaters, furnaces — creating an "inrush" spike 3–5× normal draw. A home that normally peaks at 10 kW might briefly pull 30–40 kW. This is why utilities restore grids in stages (rolling reconnection) rather than all at once: if an entire neighborhood surges simultaneously, transformers can overload and blow, causing a cascading failure that extends the blackout. Some smart thermostats now stagger restart to reduce this risk.
How many solar panels make 1 kilowatt?
With modern 400 W residential panels, you need just 2.5 panels (so 3 in practice) for 1 kW of peak capacity. A decade ago, when panels were 250 W each, you needed 4. That 1 kW of panels produces roughly 1,000–1,600 kWh per year depending on location — enough to power a large refrigerator for a full year. A typical home installation is 4–10 kW (10–25 panels).