Amp Hours to Watt Hours 12V Calculator & Chart

Amp Hours to Watt Hours 12V Calculator

Battery Capacity

Voltage

Custom Voltage Value

Energy Capacity

1,200 Wh

Quick Conversions (12V)

Conversion Formula & Steps

Wh = Ah × V

Where Wh = Watt Hours, Ah = Amp Hours, V = Voltage

Example Calculation:

Convert 100 Ah at 12V to watt hours:

Step 1: Identify the values → Ah = 100, V = 12

Step 2: Apply the formula → Wh = 100 × 12

Step 3: Calculate the result → Wh = 1,200

Result: A 100 Ah battery at 12V provides 1,200 Wh of energy

Reverse Calculation (Wh to Ah)

Ah = Wh ÷ V

Divide watt hours by voltage to get amp hours

12V Battery Conversion Chart

Amp Hours (Ah)	Watt Hours at 12V	Kilowatt Hours (kWh)
20 Ah	240 Wh	0.24 kWh
35 Ah	420 Wh	0.42 kWh
50 Ah	600 Wh	0.60 kWh
75 Ah	900 Wh	0.90 kWh
100 Ah	1,200 Wh	1.20 kWh
125 Ah	1,500 Wh	1.50 kWh
150 Ah	1,800 Wh	1.80 kWh
175 Ah	2,100 Wh	2.10 kWh
200 Ah	2,400 Wh	2.40 kWh
250 Ah	3,000 Wh	3.00 kWh
300 Ah	3,600 Wh	3.60 kWh
400 Ah	4,800 Wh	4.80 kWh
500 Ah	6,000 Wh	6.00 kWh

Multi-Voltage Conversion Chart

Capacity	6V System	12V System	24V System	48V System
50 Ah	300 Wh	600 Wh	1,200 Wh	2,400 Wh
100 Ah	600 Wh	1,200 Wh	2,400 Wh	4,800 Wh
150 Ah	900 Wh	1,800 Wh	3,600 Wh	7,200 Wh
200 Ah	1,200 Wh	2,400 Wh	4,800 Wh	9,600 Wh
300 Ah	1,800 Wh	3,600 Wh	7,200 Wh	14,400 Wh
400 Ah	2,400 Wh	4,800 Wh	9,600 Wh	19,200 Wh
500 Ah	3,000 Wh	6,000 Wh	12,000 Wh	24,000 Wh

Amp Hours vs Watt Hours

Amp Hours (Ah)

Measures electrical charge capacity
Indicates how long a battery can deliver current
Depends only on current and time
Example: 100 Ah = 1 amp for 100 hours
Does not account for voltage differences

Watt Hours (Wh)

Measures total energy capacity
Accounts for both current and voltage
Better for comparing different battery types
Example: 1,200 Wh = actual usable energy
More accurate for power calculations

Key Difference: Two batteries with the same Ah rating but different voltages will have different energy capacities. A 100 Ah battery at 12V (1,200 Wh) stores less energy than a 100 Ah battery at 24V (2,400 Wh).

Practical Applications

RV & Camper Systems

Most RVs operate on 12V electrical systems. A typical 200 Ah deep-cycle battery at 12V provides 2,400 Wh of energy. This can power LED lights (10W) for 240 hours, a refrigerator (60W) for 40 hours, or a combination of appliances based on your needs.

Solar Power Systems

Solar battery banks commonly use 12V or 24V configurations. Knowing the watt-hour capacity helps determine how many solar panels you need and how long your system can run without sunlight. A 400 Ah battery bank at 12V (4,800 Wh) can sustain a modest off-grid cabin for 1-2 days.

Marine & Boat Batteries

Boats typically use 12V or 24V systems. A 100 Ah marine battery at 12V provides 1,200 Wh, sufficient to run navigation electronics, fish finders, and cabin lights for extended periods. Trolling motors draw significant power, so calculate runtime based on motor wattage.

Portable Power Stations

Modern portable power stations display capacity in watt hours. A 500 Wh unit equals approximately 41.7 Ah at 12V, while a 1,000 Wh station equals about 83.3 Ah. This helps compare traditional batteries with newer lithium power stations.

Electric Vehicle Conversions

Golf carts and electric bikes often use 36V or 48V systems. A 100 Ah battery pack at 48V delivers 4,800 Wh of energy, significantly more than the same Ah rating at 12V. Higher voltage systems are more efficient for electric propulsion.

Frequently Asked Questions

How many watt hours is a 100Ah 12V battery?

A 100 Ah battery at 12V provides 1,200 watt hours (100 Ah × 12V = 1,200 Wh). This is equivalent to 1.2 kilowatt hours (kWh) of stored energy.

Is 200 Ah the same as 2,400 Wh?

Only at 12V. The relationship is 200 Ah × 12V = 2,400 Wh. At different voltages, 200 Ah would equal different watt-hour values (e.g., 4,800 Wh at 24V, or 1,200 Wh at 6V).

Why are watt hours more important than amp hours?

Watt hours represent actual energy capacity, accounting for voltage differences. This makes it easier to compare batteries with different voltages and calculate how long devices will run. Amp hours alone don’t tell you the total energy available.

How long will a 100 Ah 12V battery power a 100W device?

First convert to watt hours: 100 Ah × 12V = 1,200 Wh. Then divide by device wattage: 1,200 Wh ÷ 100W = 12 hours of runtime (assuming 100% efficiency and full discharge, which isn’t recommended for battery health).

Can I connect multiple 12V batteries to increase capacity?

Yes. Connecting batteries in parallel keeps voltage at 12V while adding amp hours. Two 100 Ah batteries in parallel = 200 Ah at 12V = 2,400 Wh. Connecting in series increases voltage but maintains the same Ah rating.

Do lithium and lead-acid batteries calculate the same way?

The formula (Wh = Ah × V) applies to all battery types. However, lithium batteries can safely discharge to 80-90% capacity, while lead-acid should only discharge to 50%, meaning a lithium battery provides more usable watt hours in practice.

What’s the difference between nominal and actual voltage?

A “12V” battery actually ranges from 10.5V (discharged) to 12.7V (fully charged) for lead-acid, or 11V to 14.6V for lithium. Use the nominal 12V for standard calculations, or measure actual voltage for precise energy remaining.

How do I size a battery for my solar system?

Calculate daily energy consumption in watt hours, multiply by desired days of autonomy, then divide by system voltage to get amp hours needed. For example, 3,600 Wh daily usage × 2 days ÷ 12V = 600 Ah battery bank required.