Calculating your Rumah’s wattage needs is the first and most critical step in choosing the right generator. Get it wrong, and you’ll either have a generator that shuts down when your refrigerator compressor kicks on — or one you paid thousands more for than necessary. Here’s the exact method, with corrected data, for two common scenarios.
Langkah 1: List Every Appliance You Need During an Outage
Walk through every room and list every device you want running simultaneously. For each, record two numbers: berjalan watt (steady-state power draw) dan starting watts (the brief surge when motors and compressors first turn on). Induction motors in pumps, pemampat, and fans can require 2–7 times their running wattage for the first 1–3 seconds of operation.
Appliance Wattage Reference Table
Data compiled from U.S. DOE appliance standards, manufacturer specifications, and NEC Article 220 load calculations. Actual values vary by model — always check the nameplate on your specific appliance.
| Perkakas | Larian Watt | Memulakan Watt | Surge Factor | Key Note |
|---|---|---|---|---|
| Peti ais / Freezer (18 cu ft) | 350–800W | 1,050–2,400W | 3× | Compressor type varies; older units draw more |
| AC tingkap (10,000 BTU) | 1,200W | 3,600W | 3× | Rotary compressor surge |
| AC tingkap (12,000 BTU) | 1,500W | 4,500W | 3× | Most common window unit |
| AC pusat (2.5 tan) | 2,800W | 8,400–14,000W | 3–5× | Scroll compressor; hard-start kit reduces surge to ~3× |
| AC pusat (3 tan) | 3,500W | 10,500–17,500W | 3–5× | Largest single residential load |
| AC pusat (4 tan) | 4,800W | 14,400–24,000W | 3–5× | Requires 20kW+ standby generator |
| Furnace Fan (½ HP, PSC motor) | 800W | 2,350W | 3× | ECM motors need less surge (~1.5×) |
| Pam Telaga (½ HP) | 800W | 2,000–3,000W | 3–4× | Submersible pumps at higher end |
| Pam Telaga (1 HP) | 1,200W | 3,600–6,000W | 3–5× | Deep well submersible; highest residential surge |
| Pam Tambak (½ HP) | 800W | 1,300–2,500W | 2–3× | Critical for flood prevention |
| Pemanas Air Elektrik (40 gal) | 4,500W | 4,500W | 1× | Resistive load — no surge, but huge running draw |
| Electric Range / Oven | 5,000–8,000W | 5,000–8,000W | 1× | Resistive — one burner = 2,000–3,000W; oven adds 2,500W |
| Microwave (1,000W cooking) | 1,500W | 1,500W | 1× | Input power exceeds advertised cooking power |
| Clothes Dryer (electric) | 5,000W | 5,000–6,000W | 1–1.2× | Motor adds slight surge; heating element is resistive |
| Dishwasher | 1,200–1,800W | 1,800–3,600W | 1.5–2× | Motor + heating element |
| Pencahayaan (10 LED bulbs) | 80–120W | 80–120W | 1× | Boleh diabaikan; LED uses 8–12W each |
| TV + Penghala Internet | 150–250W | 150–250W | 1× | No surge |
| telefon / Laptop Chargers | 20–100W | 20–100W | 1× | Negligible load |
Penting: Induction motors (pam, pemampat, peminat) are the critical factor in generator sizing. Their starting surge is what determines your generator’s minimum starting capacity — not the running load.
Langkah 2: Choose Your Scenario and Calculate
Generator sizing depends entirely on what you want to power. There are two common residential scenarios, and they lead to very different generator sizes.
Scenario A: Essentials Only (Penjana Mudah Alih)
Terbaik untuk: Short outages (bawah 24 jam), budgets under $3,000, renters, occasional use
You power only essential devices: peti ais, furnace fan or window AC, sump pump, pencahayaan, and phone chargers. You skip high-draw items like electric water heater, dryer, ketuhar, and central AC.
| item | Larian Watt | Memulakan Watt |
|---|---|---|
| Peti ais | 600W | 1,800W |
| Furnace Fan (½ HP) | 800W | 2,350W |
| Pam Tambak (½ HP) | 800W | 2,000W |
| Pencahayaan (12 LED) | 120W | 120W |
| TV + Router | 200W | 200W |
| Microwave (when needed) | 1,500W | 1,500W |
| Total Running | 4,020W |
Pengiraan: Total running = 4,020W. Largest additional starting surge = furnace fan at (2,350 – 800) = 1,550W extra. Minimum generator starting capacity = 4,020 + 1,550 = 5,570W. Tambah 20% margin keselamatan: 5,570 × 1.2 = 6,684W.
Syor: A 7,000W–8,000W portable generator handles this scenario. You can run the fridge, furnace, sump pump, and lights simultaneously. When you need the microwave, temporarily turn off the sump pump (if it’s not actively pumping) to free up capacity. Price range: $600–$1,200.
Scenario B: Whole-House Backup (Penjana Siap Sedia)
Terbaik untuk: Frequent or extended outages, homes with central AC, automatic operation desired, budgets $7,000+
A standby generator powers everything — including central AC, electric water heater, dan peralatan dapur. It connects to your electrical panel via an automatic transfer switch and runs on natural gas or propane (no refueling).
| item | Larian Watt | Memulakan Watt |
|---|---|---|
| AC pusat (3 tan) | 3,500W | 10,500W |
| Peti ais | 600W | 1,800W |
| Furnace Fan | 800W | 2,350W |
| Pemanas Air Elektrik | 4,500W | 4,500W |
| Pam Telaga (1 HP) | 1,200W | 4,500W |
| Electric Range (2 burners + ketuhar) | 6,000W | 6,000W |
| Clothes Dryer | 5,000W | 5,500W |
| Pencahayaan (20 LED) | 200W | 200W |
| Microwave | 1,500W | 1,500W |
| Dishwasher | 1,500W | 2,500W |
| TV + Router | 200W | 200W |
| Total Running (worst case, all on) | 25,000W |
Namun begitu, you rarely run everything at once. A practical load calculation per NEC 220.83 (existing dwelling) applies demand factors:
- 100% of the first 8,000W of total load
- 40% of the remainder above 8,000W
- Motor loads (AC, pam) di 100% permulaan lonjakan
Practical calculation: Total connected = 25,000W. Demand-adjusted running load ≈ 8,000 + (17,000 × 0.40) = 14,800W. Add the AC starting surge (10,500W – 3,500W = 7,000W extra): 14,800 + 7,000 = 21,800W. Tambah 10% margin: ~24,000W.
Syor: A 22–24kW standby generator covers most 2,000–3,000 sq ft homes with central AC. For homes with electric heat or 4+ ton AC, step up to 26–48kW. Installed cost: $8,000–$18,000.
Quick Sizing by Home Type
| Home Type | Essentials Only (Mudah alih) | Whole House (Bersedia) |
|---|---|---|
| Small home / Apartment (no AC) | 3,000–5,000W | 7–10kW |
| Medium home + window AC | 5,000–7,500W | 12–16kW |
| Medium home + central AC (2.5–3 ton) | 7,000–10,000W (no AC) | 17–22kW |
| Large home + central AC (3–4 ton) | 10,000W (no AC) | 22–30kW |
| Large home + electric heat + dual AC | Not practical | 30–48kW |
Langkah 3: Know the Key Terms
Three terms matter for generator sizing — and one commonly confuses buyers:
- Running watts (continuous rated watts): The power the generator can deliver continuously. This is the number that matters for sustained operation.
- Starting watts (surge watts): The brief burst of extra power available for 1–3 seconds to start motors. Your generator’s starting watt rating must exceed your calculated peak starting demand.
- Bersedia lwn. Prime rated: Standby-rated Penjana are designed for emergency use (≤200 jam/tahun, no overload). Prime-rated generators can run 24/7 at variable load with 10% overload capability. For home backup, standby rating is standard and appropriate.
One common confusion: kW (kilowatt) and kVA (kilovolt-ampere) are different units. For residential generators with 0.8 faktor kuasa, a 10 kVA generator delivers 8 kW of usable power. Most home generators are rated in kW, which already accounts for power factor — so you can use kW directly in your calculations.
Generator Safety — Critical Precautions
Setiap tahun, people die from improper generator use. These safety rules are not optional:
Carbon Monoxide (CO) Pencegahan
- Never run a generator indoors — not in a garage, ruang bawah tanah, or crawlspace, even with doors and windows open
- Place generators at least 20 feet from any window, door, or vent — CO is invisible, odorless, and lethal at 400+ ppm
- Install battery-operated CO alarms on every level of your home, especially near sleeping areas
- Look for generators with built-in CO shutoff — required on all portable generators sold in the U.S. since 2024 (ANSI/PGMA G300 standard)
Backfeed Prevention
- Never plug a generator into a wall outlet — this “backfeeds” power through your panel and onto utility lines, electrocuting line workers and neighbors
- Use a transfer switch — manual transfer switch for portable generators ($300–$600 installed), automatic transfer switch for standby generators (included with installation)
- A transfer switch also prevents your generator from being damaged when utility power returns
Outdoor Operation
- Keep generators dry — operate under an open canopy or generator tent, never in enclosed spaces
- Never touch a wet generator — electrocution risk
- Use outdoor-rated extension cords (12 AWG minimum for runs over 50 kaki)
- Ground the generator per manufacturer instructions and local code
Fuel Storage Safety
- Store gasoline in ANSI-approved containers, away from living spaces and ignition sources
- Add fuel stabilizer for storage beyond 30 days — untreated gasoline degrades and can damage carburetors
- Never refuel a hot generator — let it cool for 10+ minutes to prevent fire
- Propane tanks should be stored upright, outdoors, and inspected annually
Soalan Lazim
Can I run my central AC on a portable generator?
Most portable generators (up to 10,000W) cannot start a central AC unit. A 3-ton central AC needs 10,500–17,500W starting surge. Your options: (1) use a standby generator rated at 17kW+, (2) install a hard-start kit on the AC compressor to reduce starting surge, atau (3) use a window unit instead during outages.
What if my generator’s breaker trips when the refrigerator starts?
This means the generator is overloaded at that moment. Don’t just reset and try again. Sebaliknya: (1) reduce other loads before starting the fridge, (2) start the fridge first before other loads, atau (3) get a larger generator. Repeated breaker tripping under motor starting surge is a clear sign of undersizing.
Do I need an electrician to install a transfer switch?
Yes — in most jurisdictions, connecting any device to your electrical panel requires a licensed electrician and a permit. A manual transfer switch installation costs $300–$800 and takes 2–4 hours. It’s the only legal and safe way to connect a portable generator to your home’s wiring.
What’s the 20% safety margin for?
Motor-driven appliances don’t always start on the first attempt. Under high head pressure or cold temperatures, compressors may draw 30% more starting current than rated. The 20% margin also covers devices you forgot to list, and prevents the generator from running at 100% capacity — which causes overheating, peningkatan penggunaan bahan api, dan memakai dipercepatkan.
