Question about Black & Decker Dewalt #D55155 2HP 4GAL Eleccompressor

Watts is calculated by multiplying voltage times Amps. Locate the specification tag on the compressor for Amps For example 120 volts times 10 amps equals 1200 Watts.

Posted on Aug 21, 2010

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Posted on Jan 02, 2017

It depends on how the limiter works. Watts = volts x amps. Reducing either volts or amps will reduce watts. Best way to answer your question is with a voltmeter. Take a reading in a bulb socket when powered on and watt limiter set to maximum watts. Then take a reading with the watt limiter set at 50% [half].

Mar 26, 2016 | Dryers

a sony 1000 watt rating is an exagerration. you will blow your 1200 watt speakers far before reaching sonys claim of 1000 watts

Jul 10, 2014 | Sony Xplod XM-1652Z Car Audio Amplifier

Intermatic/ Malibu series lights are available 44 watt, 88 watt, 100 watt, 121 watt, 200 watt, 300 watt, 600 watt, 900 watt.

http://waterheatertimer.org/Malibu-power-pack-stopped-working.html

None of the other brands sells 500 watt either.

Kichler sells 300 and 600 and 900Watts

Paradise does not have 500 watt

Malibu brand does not carry 500 watt

Portfolio does not carry 500 watt

http://waterheatertimer.org/Malibu-power-pack-stopped-working.html

None of the other brands sells 500 watt either.

Kichler sells 300 and 600 and 900Watts

Paradise does not have 500 watt

Malibu brand does not carry 500 watt

Portfolio does not carry 500 watt

Apr 16, 2013 | Hardware & Accessories

Volts x amps= watts.

20 amp breaker x 125 volts = 2500 watts.

However, electrician use the 80% rule, so multiply 2500 x 80% = 2000 watts.

So if you have 20 amp breaker, and 12 gauge wire, and 20 amp switch, and distance is less than 150 feet, then watt load is 2000 watts or 400 5-watt bulbs.

Keep in mind that most switches are 15 amp, and not 20 amp.

Recalculate for 15 amp switch = 1875 watts x 80% = 1500 watts or 300 5-watt bulbs.

20 amp breaker x 125 volts = 2500 watts.

However, electrician use the 80% rule, so multiply 2500 x 80% = 2000 watts.

So if you have 20 amp breaker, and 12 gauge wire, and 20 amp switch, and distance is less than 150 feet, then watt load is 2000 watts or 400 5-watt bulbs.

Keep in mind that most switches are 15 amp, and not 20 amp.

Recalculate for 15 amp switch = 1875 watts x 80% = 1500 watts or 300 5-watt bulbs.

Jun 22, 2012 | Home

Hi,to know what watts to use for marantz pm74d, first you will need to know the watts of marantz pm74d for you to be able to know the watts of the speaker you will want to use for marantz pm74d.

You make sure the watts of the marantz pm74d you want to use for the speakers are not bigger the watt of the marantz pm74d,

eg, marantz pm74d----150 watts

speakers depending on the numbers of speakers your using 60 watts.

So if you are using one speaker of 60 watts and your using more than one, add all speaker watts and divide the speaker watts by the marantz pm74d watts, the weight on the marantz pm74d will be too much to handle too much speakers.

Make sure the marantz pm74d watts is high enough to carry the speaker you want to use.It helps you determine the quality of sound you want to hear..

Thanks for using fixya........

You make sure the watts of the marantz pm74d you want to use for the speakers are not bigger the watt of the marantz pm74d,

eg, marantz pm74d----150 watts

speakers depending on the numbers of speakers your using 60 watts.

So if you are using one speaker of 60 watts and your using more than one, add all speaker watts and divide the speaker watts by the marantz pm74d watts, the weight on the marantz pm74d will be too much to handle too much speakers.

Make sure the marantz pm74d watts is high enough to carry the speaker you want to use.It helps you determine the quality of sound you want to hear..

Thanks for using fixya........

Jan 06, 2011 | Audio Players & Recorders

kva = kilo-volt-amps

watts = volts x amps = va

Therefore, 5.8kva = 5800 watts

watts = volts x amps = va

Therefore, 5.8kva = 5800 watts

Mar 24, 2010 | Honda 3000 Watt Portable Generator

I
Italy
40 Ch AM/FM 4 Watts
I2
Italy
34 Ch AM/FM 4 Watts
D
Germany
80 Ch FM 4Watts/ 12 Ch Am 1 Watt
D2
Germany
40 Ch FM 4 Watts/ 12 Ch AM 1 Watt
D3
Germany
80 Ch FM 4 Watts/ 40 Ch AM 1 Watt
EU
Europe
40 Ch FM 4 Watts / 40 Ch AM 1Watt
EC
CEPT
40 Ch FM 4 Watts
E
Spain
40 Ch AM/FM 4 Watts
F
France
40 Ch FM 4 Watts / 40 Ch AM 1 Watt
UKE
UK
40 Ch Fm 4 Watts UK frequencies
UKC
UK
40 Ch Fm 4 Watts CEPT frequencies
PL
Poland
40 Ch FM/AM 4 Watts
midland alan 78 multi plus frequencies

Jun 06, 2009 | Midland 1001Z 40-Channels Base CB Radio

If you got the store bought APC 350 UPS, you most likely overloaded them, and killed them beyound repair.

People should never buy a 350VA. They are way to small for power supplies most of us now have. you need to start out to 1000VA plus you need to do the math to figure out how big of a UPS you actually need in the show room.

What am I talking about? What is the significant, or the math of what I am saying here. 115V x 1 amps = 115VA x .778 power factor = 89.47 watts Start up 50 watts = 39.47 watts

115V x 2 amps = 230VA x .778 power factor = 178.94 watts Start up 50 watts = 128.94 watts

115V x 3 amps = 345VA x .778 power factor = 268.41 watts Start up 50 watts = 218.41 watts

115V x 4 amps = 460VA x .778 power factor = 357.88 watts Start up 50 watts = 307.88 watts

115V x 5 amps = 575VA x .778 power factor = 447.35 watts Start up 50 watts = 397.35 watts

115V x 6 amps = 690VA x .778 power factor = 536.82 watts Start up 50 watts = 486.82 watts

115V x 7 amps = 805VA x .778 power factor = 626.29 watts Start up 50 watts = 576.29 watts

115V x 8 amps = 920VA x .778 power factor = 717.76 watts Start up 50 watts = 667.76 watts

115V x 9 amps = 1035VA x .778 power factor = 805.23 watts Start up 50 watts = 755.23 watts

115V x 10 amps = 1150VA x .778 power factor = 894.70 watts Start up 50 watts = 844.70 watts

115V x 11 amps = 1265VA x .778 power factor = 984.17 watts Start up 50 watts = 934.17 watts

115V x 12 amps = 1380VA x .778 power factor = 1073.63 watts Start up 50 watts = 1023.63 watts

115V x 13 amps = 1495VA x .778 power factor = 1163.11 watts Start up 50 watts = 1113.11 watts

115V x 14 amps = 1610VA x .778 power factor = 1252.58 watts Start up 50 watts = 1202.58 watts

115V x 15 amps = 1725VA x .778 power factor = 1342.05 watts Start up 50 watts = 1292.05 watts

115V x 16 amps = 1840VA x .778 power factor = 1431.52 watts Start up 50 watts = 1387.52 watts

115V x 17 amps = 1955VA x .778 power factor = 1520.99 watts Start up 50 watts = 1470.99 watts

115V x 18 amps = 2070VA x .778 power factor = 1610.46 watts Start up 50 watts = 1560.46 watts

115V x 19 amps = 2185VA x .778 power factor = 1699.93 watts Start up 50 watts = 1649.93 watts

115V x 20 amps = 2300VA x .778 power factor = 1789.40 watts Start up 50 watts = 1739.40 watts

People should never buy a 350VA. They are way to small for power supplies most of us now have. you need to start out to 1000VA plus you need to do the math to figure out how big of a UPS you actually need in the show room.

What am I talking about? What is the significant, or the math of what I am saying here. 115V x 1 amps = 115VA x .778 power factor = 89.47 watts Start up 50 watts = 39.47 watts

115V x 2 amps = 230VA x .778 power factor = 178.94 watts Start up 50 watts = 128.94 watts

115V x 3 amps = 345VA x .778 power factor = 268.41 watts Start up 50 watts = 218.41 watts

115V x 4 amps = 460VA x .778 power factor = 357.88 watts Start up 50 watts = 307.88 watts

115V x 5 amps = 575VA x .778 power factor = 447.35 watts Start up 50 watts = 397.35 watts

115V x 6 amps = 690VA x .778 power factor = 536.82 watts Start up 50 watts = 486.82 watts

115V x 7 amps = 805VA x .778 power factor = 626.29 watts Start up 50 watts = 576.29 watts

115V x 8 amps = 920VA x .778 power factor = 717.76 watts Start up 50 watts = 667.76 watts

115V x 9 amps = 1035VA x .778 power factor = 805.23 watts Start up 50 watts = 755.23 watts

115V x 10 amps = 1150VA x .778 power factor = 894.70 watts Start up 50 watts = 844.70 watts

115V x 11 amps = 1265VA x .778 power factor = 984.17 watts Start up 50 watts = 934.17 watts

115V x 12 amps = 1380VA x .778 power factor = 1073.63 watts Start up 50 watts = 1023.63 watts

115V x 13 amps = 1495VA x .778 power factor = 1163.11 watts Start up 50 watts = 1113.11 watts

115V x 14 amps = 1610VA x .778 power factor = 1252.58 watts Start up 50 watts = 1202.58 watts

115V x 15 amps = 1725VA x .778 power factor = 1342.05 watts Start up 50 watts = 1292.05 watts

115V x 16 amps = 1840VA x .778 power factor = 1431.52 watts Start up 50 watts = 1387.52 watts

115V x 17 amps = 1955VA x .778 power factor = 1520.99 watts Start up 50 watts = 1470.99 watts

115V x 18 amps = 2070VA x .778 power factor = 1610.46 watts Start up 50 watts = 1560.46 watts

115V x 19 amps = 2185VA x .778 power factor = 1699.93 watts Start up 50 watts = 1649.93 watts

115V x 20 amps = 2300VA x .778 power factor = 1789.40 watts Start up 50 watts = 1739.40 watts

Sep 16, 2008 | APC Back-UPS ES 350 - UPS ( external ) -...

A: Running watts are the continuous watts needed to keep items running. Starting watts, are extra watts needed for two or three seconds to start motor-driven products like a refrigerator or AC unit.

Aug 27, 2008 | Coleman Powermate Proforce 6,000 Watt 12...

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