Informational

Generator Wattage Guide: What Can You Power?

The most common generator question I hear is “what can I actually power with this thing?” The answer lives in two numbers: running watts and starting watts. Every appliance has a running wattage (the power it needs to operate continuously) and many have a starting wattage (the brief power surge needed to start motors and compressors). Understanding these numbers is the difference between a generator that handles your needs and one that trips its breaker every time the fridge kicks on.

This guide provides real-world wattage data for common household appliances and shows you exactly what different generator sizes can handle.

Understanding Running Watts vs Starting Watts

Running Watts (Continuous Watts)

Running watts is the continuous power an appliance draws during normal operation. A 100W light bulb draws 100 running watts. A refrigerator draws 100-200 running watts while the compressor is cycling. This is the steady-state power consumption you’ll see on the appliance’s nameplate or in its manual.

Starting Watts (Surge Watts)

Starting watts is the brief power spike that motor-driven appliances need to start up. Electric motors draw 2-3x their running wattage for a fraction of a second (typically 0.5-3 seconds) when they first turn on. A refrigerator that runs at 150W may need 1,200W to start its compressor. An air conditioner running at 1,500W may need 4,500W to start. Your generator must be able to handle the highest single starting surge while also powering everything else that’s already running.

How to Read Your Generator’s Rating

Generators are rated with two numbers: running watts and starting (peak/surge) watts. A “5,000/6,250W” generator delivers 5,000 watts continuously and can handle a 6,250W surge for starting motors. The running watts number is your budget for total continuous load. The starting watts number is your budget for the highest single startup surge plus all running loads.

Complete Appliance Wattage Chart

Kitchen Appliances

Appliance Running Watts Starting Watts
Refrigerator (standard) 100-200 800-1,200
Refrigerator (large side-by-side) 150-250 1,000-1,500
Chest Freezer 50-100 500-1,000
Microwave (1,000W) 1,000-1,500 1,000-1,500
Coffee Maker 600-1,200 600-1,200
Toaster (2-slice) 800-1,200 800-1,200
Electric Kettle 1,200-1,500 1,200-1,500
Blender 300-700 600-1,400
Slow Cooker 150-300 150-300
Instant Pot 700-1,000 700-1,000
Dishwasher 1,200-1,800 1,400-2,200
Electric Stove (single burner) 1,500-2,500 1,500-2,500
Electric Oven 2,000-5,000 2,000-5,000

Note: Heating appliances (toasters, kettles, coffee makers, ovens) don’t have starting surges because they use resistive heating elements, not motors. Their running watts equal their starting watts.

Heating and Cooling

Appliance Running Watts Starting Watts
Window AC (5,000 BTU) 400-600 1,200-1,800
Window AC (8,000 BTU) 700-1,000 2,100-3,000
Window AC (12,000 BTU) 1,000-1,400 3,000-4,200
Portable AC (8,000-12,000 BTU) 900-1,400 2,700-4,200
Central AC (2-ton) 2,500-3,000 5,000-7,000
Central AC (3-ton) 3,000-3,800 6,000-9,000
Central AC (5-ton) 5,000-6,000 10,000-15,000
Furnace Fan (gas furnace) 500-800 1,000-1,600
Space Heater (electric) 750-1,500 750-1,500
Portable Fan 50-120 50-120
Ceiling Fan 60-120 60-120

Water and Plumbing

Appliance Running Watts Starting Watts
Sump Pump (1/3 HP) 600-800 1,200-1,800
Sump Pump (1/2 HP) 800-1,050 1,800-2,400
Well Pump (1/2 HP) 750-1,000 1,500-2,400
Well Pump (1 HP) 1,500-2,000 3,000-4,500
Electric Water Heater (40-50 gal) 4,000-5,500 4,000-5,500
Tankless Water Heater (electric) 8,000-18,000 8,000-18,000

Lighting and Electronics

Appliance Running Watts Starting Watts
LED Light Bulb (60W equivalent) 8-12 8-12
CFL Light Bulb (60W equivalent) 13-15 13-15
Incandescent Light Bulb (60W) 60 60
LED TV (55″) 60-100 60-100
Desktop Computer + Monitor 200-500 200-500
Laptop 30-100 30-100
WiFi Router 10-20 10-20
Cable/Satellite Box 20-35 20-35
Phone Charger 5-20 5-20
Gaming Console 100-200 100-200

Laundry

Appliance Running Watts Starting Watts
Washing Machine 400-600 1,200-1,800
Electric Dryer 2,000-5,000 2,000-6,000
Gas Dryer (electric ignition) 300-600 600-1,200

Power Tools

Tool Running Watts Starting Watts
Circular Saw 1,200-1,800 2,400-3,600
Miter Saw (10″) 1,200-1,800 2,400-3,600
Table Saw 1,500-2,000 3,000-4,500
Drill (1/2″) 500-900 500-1,200
Air Compressor (1 HP) 1,000-1,500 3,000-4,500
Shop Vacuum 600-1,400 1,200-2,800

What Can Each Generator Size Power?

2,000W Generator

A 2,000W inverter generator handles basic essentials for one or two people:

  • Refrigerator (150W running) ✓
  • 5-8 LED lights (80W) ✓
  • WiFi router (15W) ✓
  • Phone charging (20W) ✓
  • Laptop (60W) ✓
  • Total running: ~325W with 1,200W surge capacity for fridge startup

    • Cannot power: window AC, microwave, space heater, power tools, sump pump

    3,500W Generator

    A 3,500W generator adds small comfort appliances:

  • Everything a 2,000W handles, plus:
  • Small window AC (5,000 BTU, 500W running) ✓
  • OR microwave (1,000W) — not simultaneously with AC ✓
  • TV (80W) ✓
  • Portable fan (75W) ✓

    • Load management required — can’t run AC and microwave at the same time

    5,000W Generator

    A 5,000W generator is the sweet spot for most homes during outages:

  • Refrigerator (150W) ✓
  • Sump pump (800W running, 2,150W starting) ✓
  • Furnace fan (700W) ✓
  • 10 LED lights (100W) ✓
  • WiFi + devices (100W) ✓
  • TV (80W) ✓
  • Total running: ~1,930W with surge capacity for motor startups

    • Can also handle a microwave or coffee maker one at a time, but not while the sump pump is starting

    7,500W Generator

    A 7,500W generator adds well pumps and window AC:

  • Everything a 5,000W handles, plus:
  • Well pump (1,000W running) ✓
  • Window AC (8,000 BTU, 900W running) ✓
  • Microwave (1,000W) — with load management ✓
  • Total running: ~3,830W with surge capacity for motor startups

    • 10,000W+ Generator

    A 10,000W generator handles most home circuits except central AC and electric heating:

  • Everything above, plus:
  • Multiple window AC units ✓
  • Washing machine ✓
  • Electric water heater (with load management) ✓
  • Power tools ✓
  • Small central AC (2-ton) — with careful load management ✓

    • 14,000W+ (Standby Generator Territory)

    At 14,000W and above, you’re in standby generator territory:

  • Central AC (3-ton) ✓
  • All kitchen appliances ✓
  • All pumps ✓
  • Electric water heater ✓
  • Most home circuits simultaneously ✓

    • How to Calculate Your Total Wattage Needs

    Follow this process to determine what generator size you need:

    1. List every appliance you want to power during an outage
    2. Find the running watts for each (check the nameplate, manual, or use the charts above)
    3. Add up all running watts — this is your continuous load
    4. Identify the appliance with the highest starting watts
    5. Add that starting wattage to your continuous load total
    6. Add 20-30% buffer for safety margin
    7. The result is your minimum generator size

    Example calculation:

    Appliance Running W Starting W
    Refrigerator 150 1,200
    Sump Pump 800 2,150
    Furnace Fan 700 1,400
    LED Lights (8) 80 80
    WiFi Router 15 15
    TV 80 80
    Phone Charging 20 20

    Total running watts: 1,845W. Highest starting surge: 2,150W (sump pump). Combined: 1,845 + 2,150 = 3,995W. With 25% buffer: ~5,000W generator recommended.

    Tips for Staying Within Your Generator’s Capacity

  • Stagger motor startups — don’t start the fridge, sump pump, and AC at the same time. Start one, wait for it to settle into running mode, then start the next
  • Use a watt meter (Kill-A-Watt) to measure actual appliance consumption — nameplate ratings are maximums, and actual draw is often lower
  • Switch to LED bulbs if you haven’t already — they use 80-90% less power than incandescent
  • Use a smaller microwave or toaster oven instead of a full-size oven
  • Run the washing machine during low-load periods (when AC isn’t running)
  • Consider a generator with a watt meter display so you can monitor real-time load

    • Frequently Asked Questions

    Q: Where do I find my appliance’s wattage?

    Check the nameplate sticker on the back or bottom of the appliance — it lists watts, amps, and volts. If it only shows amps, multiply by voltage: Amps × 120V = Watts (for standard outlets) or Amps × 240V = Watts (for large appliances like dryers and AC units). You can also use a plug-in watt meter like the Kill-A-Watt ($20-30) to measure actual power consumption, which is often lower than the nameplate maximum.

    Q: Can I run a central AC on a portable generator?

    A small central AC (2-ton) requires approximately 2,500-3,000 running watts and 5,000-7,000 starting watts. You’d need at least a 7,500-10,000W generator, and you’d have limited capacity for other appliances. A 3-ton or larger central AC is impractical on a portable generator — it requires a standby generator (14kW+) or a very large portable unit. Window AC units are a much more practical option for portable generator cooling.

    Q: What happens if I overload my generator?

    Most generators have built-in overload protection — a circuit breaker that trips when the load exceeds the rated capacity. The generator shuts off, protecting itself and your appliances. Reset the breaker, reduce your load, and restart. Repeatedly overloading a generator without tripping the breaker (running at 90-100% continuously) causes overheating, voltage fluctuations, and premature wear on the engine and alternator.

    The Bottom Line

    For most homes, a 5,000-7,500W generator covers essential circuits during an outage: refrigerator, sump pump, furnace fan, lights, and basic electronics. Adding window AC or a well pump pushes the requirement to 7,500-10,000W. Whole-house coverage including central AC requires 14,000W+ or a standby generator. Use the wattage charts above to calculate your specific needs, add a 20-30% buffer, and buy accordingly.

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