Sears 200.71234 Calculating charge times, Chart Method, Hydrometer or Electronic Method

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Calculating charge times

The Chart Method

Use the following table to more accurately determine the time it will take to bring a battery to full charge. First, identify where your battery fits into the chart.

Small batteries — motorcycles, garden tractors, etc.

— are usually rated in Ampere Hours (AH). For example: 6, 12, 32 AH etc.

Batteries in cars and smaller trucks are usually rated in Reserve Capacity (RC), Cold-Cranking Amps (CCA), or both.

Marine, or deep-cycle batteries are usually rated in Reserve Capacity (RC).

NR means that the charger setting is NOT RECOM-

MENDED.

Find your battery’s rating on the chart below and note the charge time given for each charger setting. The times given are for batteries with a 50-percent charge prior to recharging. Add more time for severely dis- charged batteries.

 

BATTERY SIZE/RATING

 

 

CHARGE RATE/CHARGING TIME - HOURS

 

 

 

2 AMP

20 AMP

60 AMP

 

 

 

 

 

 

SMALL

 

Motorcycle, garden

6

- 12 AH

2

- 4

NR

NR

BATTERIES

 

tractor, etc.

12

- 32 AH

4 - 10

NR

NR

 

 

200

- 315 CCA

40

- 60 RC

11

- 14

60 - 90 min.

20 - 30 min.

CAR/TRUCKS

 

315

- 550 CCA

60

- 85 RC

14

- 18

90 - 120 min.

30 - 40 min.

 

 

550

- 1000 CCA

85

-190 RC

18

- 35

2 - 3.5 hrs.

45 - 60 min.

MARINE/DEEP CYCLE

 

80 RC

18

105 min.

NR

 

140 RC

27

2 hrs., 45 min.

NR

 

 

 

 

 

 

 

 

160 RC

30

3.0 hrs.

NR

 

 

 

 

 

 

 

 

 

 

 

 

180 RC

33

3.5 hrs.

NR

The Hydrometer or Electronic Method

To find the time needed to fully charge your battery, determine the battery’s charge level with a hydrometer or electronic Percent-of-Charge Tester. The following table will help you convert hydrometer readings to percent of charge values.

SPECIFIC

PERCENT

PERCENT OF

GRAVITY

OF CHARGE

CHARGE NEEDED

 

 

 

1.265

100%

0%

 

 

 

1.225

75%

25%

 

 

 

1.155

25%

75%

 

 

 

1.120

0%

100%

 

 

 

When you know the percent of charge and the Amp Hour (AH) rating of your battery, you can calculate the approximate time needed to bring your battery to a full charge.

To convert Reserve Capacity to Amp Hours, divide Reserve Capacity by 2, and add 16:

Amp Hours = Reserve Capacity + 16

2

NOTE: The Reserve Capacity can be obtained from the battery specification sheet or the owner’s manual.

To calculate time needed for a charge:

Find the percent of charge needed. (A battery at 50 percent charge that will be charged to 100 percent needs another 50 percent (.50).

Multiply the Amp Hour rating by the charge needed (.50) and divide by the charger setting (2, 20 or 60 amps).

Multiply the result by 1.25 and you’ll have the time needed, in hours, to bring the battery to full charge.

Add one additional hour for a deep-cycle battery.

Example:

Amp Hour Rating x % of charge needed x 1.25 = hours

Charger Settingof charge

100 (AH Rating) x .50 (charge needed) x 1.25 =

3.125

20 (Charger Setting)

hours

100 x .50 = 2.5 x 1.25 = 3.125

 

20

 

You would need to charge your 100-Ampere Hour Battery for a little more than 3 hours at the 20-Amp charge rate using the above example.

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Contents Battery Charger Table Of Contents WarrantyImportant Safety Instructions RememberWiring Diagram PartsBefore Using Your Battery Charger Assembling your chargerParts Tools Needed Plugging it HandleElectrical Shock Hazard Prong Grounded Wall OutletUsing the Gfci Outlet Using an extension cordPreparing your battery to be charged Minimum Recommended Extension CordUsing Your Battery Charger Setting the controlsRate AmpsTouch Time PAD to ADD Increments Charging Your Battery Charging your battery in the vehicleNormally the ONE That is Grounded Charging your battery outside the vehicle Chart Method Calculating charge timesHydrometer or Electronic Method Using the engine start feature Maintenance and careTroubleshooting Problem Possible Cause SOLUTION/REASONSSEARS-64