Vanner SP00172 Owner's Manual download pdf (Page 28)

INCOR POR ATED

General Information

ITC-Series Inverter Page 28 10/07/05

Step 3: Calculate the total watt-hours needed by adding together the watt-hours of each appliance.

Step 4: Find the amp-hours consumed by dividing the total watt-hours found in step 3 by 10 for 12 volt DC

systems or by 20 for 24 volt DC systems.

Step 5: Multiply the amp-hours consumed by 2 (for 50% depth of discharge) to get the battery amp-hour

capacity desired.

Example 1: Follow Steps 1 through 3 (above)

Appliance

Power Rating

Operating

Time

Watt-Hours Consumed

TV, VCR, Stereo

225 watts

2.5 hours

563 watt-hours

Small Refrigerator

300

3.8

1,140

Microwave

800

0.3

240

TOTALS

1,943 watt-hours

Step 4: Amp-hours consumed = 1943 watt-hours ÷ 20 = 97.15 amp-hours for 24 a volt system.

Step 5: The minimum battery size for this application is 2 x 97.15 = 194.3 amp-hours.

Battery and Charging System Considerations

The Battery and DC Charging System is a very important part of your inverter installation. The Battery System

is responsible for supplying all of the DC power required by the inverter. The system normally consists of the

primary charger (engine alternator or photovoltaic array), a secondary charger, if used, the battery, and other

equipment which may be used such as battery isolator diodes. The complexity of the system depends on the

way the inverter is used. In some cases, such as utility or service vehicles, the system may be as simple as the

engine alternator and the cranking battery that also powers the inverter. In most cases, additional equipment is

needed to provide additional DC power and/or protection. These systems can be grouped into two categories,

the single battery and the dual battery systems.

In the single battery system, there is one battery, which is shared for starting the engine and operating the

inverter. This is a common practice in a service vehicle where the engine runs all the time and allows the

alternator to provide continuous charging for the battery. In this case, the inverter can be connected directly to

the engine cranking battery. The most important detail of this system is the alternator output rating. The

continuous output of the alternator must be at least as much as the total DC current draw on the system. The

total DC current draw must include the inverter, warning lights, radios, engine controls, and any other device

connected to the DC system. Care should be used when operating this type of system while the engine is shut

off. The inverter will shut itself OFF for low battery but most other DC loads will not. The vehicle battery may be

also drained too low to restart the engine.

The dual battery system uses two separate batteries, one for starting the engine and operating the vehicle's

systems, and one for operating the inverter. The two batteries are usually referred to as the "cranking battery"

and the "house or auxiliary battery" respectively. The two separate batteries are usually charged from the

same source, the engine alternator, but are separated by a device called a battery isolator. The battery isolator

allows DC current to flow from the alternator into each battery, but blocks current from flowing from one battery

to the other. This is required to protect the cranking battery in recreation vehicles, boats and other vehicles

where the inverter needs to be operated when the engine (therefore the alternator) is not running.

Battery Charging Guidelines

CAUTION

The following information on battery charger setup adjustments should be used as guidelines only. Vanner

strongly recommends that you contact the manufacturer of your batteries to obtain the specific charging

setup values for the type and model of battery you are using. This is because battery charging parameters

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Vanner SP00172 Owner's Manual Page 28

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