2 troubleshooting guide, Problem and symptoms, Possible cause – Sima Products STP-3000 User Manual

8.2 Troubleshooting Guide

Problem and symptoms

Possible Cause

Solution

Low output voltage
(96 to 104 V AC)

Using an average reading
voltmeter.

Use true RMS reading meter. See section 2.2
of manual

Low output voltage and current
indicator in red zone.

Overload. Reduce

load.

No output voltage and
voltage indicator in lower red zone

Low input voltage.

Recharge battery, check connections and cable.

No output voltage,
no voltage indication.

1. Inverter switched off.
2. No power to inverter.
3. Internal fuse open.
4. Reverse DC polarity.

1. Turn inverter on.
2. Check wiring to inverter. Check battery fuse
3. Have qualified service technician check and replace.
4. Have qualified service technician check and

replace fuse, Observe Correct Polarity.

No output voltage,
voltage indicator in upper red zone.

High input voltage.

Make sure that STP-3000 is connected to 12V
battery, check regulation of charging system.

Low battery alarm on all the time,
voltage indicator below 11V.

Poor DC wiring, poor battery
condition.

Use proper cable and make solid connections.
Change battery or use new battery.

No output voltage, OVERTEMP indicator
on, load in excess of 3000W with 250/300A
input current.

Thermal shutdown.

Allow the STP-3000 to cool off. Reduce load if
continuous operation required.

No output voltage, OVERTEMP indicator on,
load less than 3000W with
300A input current.

Thermal shutdown.

Improve ventilation, make sure ventilation openings in
The STP-3000 are not obstructed, reduce ambient
temperature.

OVERLOAD indicator on.

1. Very high power load.

1. Remove or reduce load.

Appendix A - Battery Sizing

For continuous usage, deep-cycle batteries are rated by reserve capacity in minutes or by ampere-hour capacity. Reserve capacity measures the
duration a battery delivers its rated current – normally at 25 amperes. A battery of 60 minutes reserve capacity can deliver 25 amperes for 60 minutes
before completely discharged. The measure of cranking amperes used to rate starting batteries in automotive is not suitable for deep-cycle batteries.
It is better to size your batteries more conservatively for unexpected variations. More reserve capacity means your batteries will not be discharged as
deeply so that battery life will not be unduly shortened. It is recommended that the consumed ampere-hour loading should be kept less than 50% of
the battery's rated capacity.

Ampere–hour (AH) capacity measures battery amperage being delivered for a rated duration – normally at 20 hours. A typical marine or RV battery
rated for 120 ampere–hour delivers 6 amperes for 20 hours.Battery capacity varies inversely with discharge current. At 5 amperes loading, a battery
of 100AH discharges for 20 hours but at 20 amperes loading, the same battery may only last for 4 hours with its capacity reduced to 80 ampere-hours.
It is therefore not suitable to compare rated ampere-hour capacity directly with battery reserve capacity.Observe the following steps to determine your
battery capacity requirements:

STEP 1 -

Determine the wattage of each appliance to be driven by the Sima STP-3000. Multiply any current ratings by 115 to obtain the power
consumption in watts.

STEP 2 -

Estimate duration of tool operation between battery charge-discharge cycles or each appliance being driven by the Sima STP-3000.

STEP 3 -

Calculate the total watt-hours of operations, total running time in hours, and average power consumption as exemplified below:

Average Power Consumption = 3275 watt-hrs ÷ 1.8 hours = 1819.44 watts

For Sima STP-3000 inverter, Ampere-Hour Consumed = 3275 ÷ 10 = 327.5 ampere-hours

STEP 4 -

Locate the battery size meeting the required operating time at the calculated power consumption level from Table 3. For the example
shown, operation duration of 1.8 hours at 1819.44 watts requires the smallest battery size as two 400 amp-hr batteries in parallel,
offering about 10 to 12 hours of operating time.

Table 3. 12-Volt Battery Sizing Chart (for reference only)

Example for Step 3 of Battery Sizing

Equipment

Power Consumption

Operating Time

Watt Hours (Power x Operating Time)

Coffee Maker

1000 watts

0.3 hour

300

Cordless Steam Iron

1200 watts

0.5 hour

600

Vacuum Cleaner (380W)

1600 watts

0.25 hour

400

Washing Machine

2000 watts

0.25 hour

500

Window Type (12100Btu/h)

2950 watts

0.5 hour

1475

Totals

1.8

hours

3275

watt-hours

BATTERY SIZE

AMP-HRS:

50 75 100 200 400

Inverter

output

power

(watts)

Typical Load

Reserve

capacity

90 minutes

140 minutes

180 minutes

400 minutes

900 minutes

50

Stereo system

9 HOURS

14 HOURS

20 HOURS

40 HOURS

80 HOURS

100

19” colour TV

4 HOURS

6 HOURS

10 HOURS

20 HOURS

40 HOURS

200

Computer system

2 HOURS

3 HOURS

4.5 HOURS

10 HOURS

20 HOURS

300

Blender

1.3 HOURS

2.2 HOURS

3 HOURS

6 HOURS

12 HOURS

400 Power

drill

1

HOUR

1.5 HOURS

2 HOURS

4.5 HOURS

10 HOURS

600

Small coffee maker

1 HOUR

2.5 HOURS

6 HOURS

800 Small

microwave

1.5 HOURS

4 HOURS

1000 Automatic

Toaster

1 HOUR

3 HOURS

1200

Cordless Steam Iron

0.5 HOUR

2 HOURS

1500

Full size microwave

0.5 HOUR

2 HOURS

2000

Grill Microwave

Oven 42L(1.5Cu.ft)

0.3 HOUR

1 HOUR

2500

Hair dryer &

washing machine

0.2 HOUR

0.7 HOUR

2950

Window Type

(12100Btu/h)

Operating

time

N.R. N.R.

N.R

0.15 HOUR

0.5 HOUR

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