Using a soldering gun/iron with a modified sine wave inverter

fixitdude · June 2012

Will I have any issues using a soldering gun/iron with a modified sine wave inverter?
Will the performance suffer?
Loss of heat out put?
Bad for the gun/iron?

Thank You

inetdog · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

fixitdude wrote: »

Will I have any issues using a soldering gun/iron with a modified sine wave inverter?
Will the performance suffer?
Loss of heat out put?
Bad for the gun/iron?

Thank You

A typical soldering gun vibrates and hums like crazy when on because of the high current through an inexpensive transformer designed for intermittent use only. With MSW, it will be louder and shakier because of the squared off waveform. A resistive heating appliance like a soldering iron should be OK, but since the soldering gun incorporates a transformer, it is a different story.

mike95490 · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

A $20 soldering IRON will be just fine.

A $20 soldering GUN has a step-down transformer in it, and it will be UNHAPPY on mod-sine. It may function, or it may die, keep us posted

> $30 soldering "stations" have a bunch of electronics in them and if you use that, keep us posted.

ps - I don't think mod-square wave inverters are worth much.

waynefromnscanada · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

I've used both, from time to time for probably 20 years on square wave (the gun really buzzes) and later on MSW when they became available. No problem with iron. My 40 year old Weller gun has a wee bit of a buzz on MSW, other than that, for normal intermittent use, I've had no problems. The gun is usually down a bit on heat output, but it's also down a bit on the SureSine 300 inverter, as it's output voltage is roughly 110 volts, compared to 125 - 128 on grid. So it takes an extra second or two to come up to temperature, not a big deal. I usually use the gun on the Xantres 1800 inverter, as it's output voltage is a bit higher than the SureSine, thus it heats quicker. There is one downside to the higher voltage though, the gun tips don't last as long.
But I still use an MSW inverter for the gun when using it on jobs in remote areas, powered from the car battery.

john p · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

I have used the Weller soldering station for years on MSW inverter. Never a problem 600w inverter and the car battery. You get a bit of transformer buzz but not a lot.. It takes about 2 seconds more to get up to heat than on grid.
Mabe in another 10 yrs it wil fail.. ??/ Who knows;)

2manytoyz · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

An el-cheapo solder iron is simply a resistive load. No temperature control circuit, no hum, no issues. I have used this Ungarmatic iron, along with a solder pot (same time), as a test load on a MSW inverter that I repaired (bad fan):

Zero issues with this iron. No hum... but it doesn't have an adjustable temperature. So go simple, and it'll work fine.

fixitdude · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

I have a new Weller D650 gun and a Weller 15 watt iron.
After posting here I contacted Weller and Xantrex.
Weller said it should not be a problem, Xantrex said it depends on the design of the tool.

Thanks for your replies.

waynefromnscanada · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

fixitdude wrote: »

I have a new Weller D650 gun and a Weller 15 watt iron.
After posting here I contacted Weller and Xantrex.
Weller said it should not be a problem, Xantrex said it depends on the design of the tool.

Thanks for your replies.

Haha Xantrex covering their butts.

Slappy · June 2012

Re: Using a soldering gun/iron with a modified sine wave inverter

No problems with a iron on a ms inverter

AACS · December 25

I have a 12V to 110V, 500W modified sine wave inverter.

I also have 110V:

- 250W Weller Soldering Gun,

- 80W Digital Display modern Chinese ceramic core Soldering Iron,

- 30W old resistance type Soldering Iron.

I first connected the 250W. It worked fine for a while.

An hour later, I connected the 80W for a lighter job. The LED showed it is ON, but it was hot heating up.

I disconnected that and reconnected the 250W. That also did not heat up this time! There was the humming noise, but no heat, just a warmth!

I then connected the old 30W. It worked fine!

I checked the Output Voltage. It was varying between ~66V-110V.

What do you think is happening? Did I break the inverter? But, the 30W is working...?

NANOcontrol · December 26

If it is a temperature controlled soldering iron with a temp display, it will be damaged. These are phase triggered devices which use the last end of the sine wave to power the heating element which is 24V. I tried it with a MSW inverter and it instantly flashed and died. I was able to repair it by replacing the small thermal fuse on the board. So, most electronic control irons will not work with square waves.

AACS · December 26

I brought it home, and tried it with a different battery. The 250W Weller worked fine!

So, could this issue be related to the battery? I mean, a weak battery? Though, I'd checked the voltage, it was showing 12.2V.

BB. · December 27

In general, AC inverters need pretty decent DC Power connections... For example, using car jumper cables frequently will not run AC inverters (especially the higher wattage units)--Even if they do not have an AC load.

For DC cabling, double check the connections and each connection should be a "bolted up" type of some sort.. No Alligator Clamps. Inverters should run down to 11.5 volts on the batteries with good cabling. 10.5 volts is a common inverter low battery disconnect voltage.

I would guess that the soldering guns are pretty "inductive" (the older versions--Don't know about the newest--use a heavy transformer to drop the voltage and raise the current to the tip). MSW inverters are not usually very happy with inductive loads --And for AC induction motors, MSW wave forms can increase the AC motor current by 20% or more (as I recall)--And cause induction motors to overheat.

-Bill

AACS · December 27

I agree, the connection to 12V should be firm. But, look what the inverter came with:

I better cut it and use a better connector..

BB. · December 28

That car connector is good for about 10 amps continuous.

10 amps x 12 volts = 120 watts

There is a (roughly} 12 to 25 amp fuse somewhere too (sometimes the plug has an internal plug, and the car itself will have a fuse too).

-Bill

AACS · December 29

The fuse should be fine, because it worked with another battery.

I directly connect it to the battery, using a female socket with clamps. Now, I'll connect it firmly.

Also, the inverter is 500W. So, the fuse must be around 25-30A. There is none in the plug. May be inside.

BB. · December 29

30 Amps is a lot for a Cigarette Lighter Plug... I would suggest no more than 10-25 Amps max continuous power.

15 amps * 12 volts = 180 Watts (rough estimate)

Some cigarette plugs may have a fuse (typically unscrew the nose, and fuse rides into the tip/cap).

Otherwise, the Vehicle itself will (or at least should) have a 10-15 Amp fuse.

Yes, you can run a larger inverter on a smaller circuit--As long as you don't draw too much current (AC power) for the plug/electrical wiring.

The "math" for a 500 Watt inverter--Worst case 12 VDC Current:

500 Watts * 1/0.85 inverter eff * 1/10.5 volts (battery cutoff) = 56 Amps max continuous draw

And note that most AC inverter will surge 2x rated Wattage for at least a few seconds (such as starting a motor)...

A (relatively) conservative NEC (national electric code) table:

https://www.sabcable.com/pdfs/datasheets/tech-nec_ampacity_chart.pdf

Note that 12 volts does not support very long wire runs because of high currents and relatively low suggested voltage drop of 1.0 volts between inverter and battery bank (i.e., 10.5 battery + 1.0 volt drop = minimum of 11.5 volts at battery bank connection for a 10.5 volt drop at inverter DC terminals).

You can use a voltage drop calculator to play around with distance/AWG/Current/Drop numbers:

https://www.calculator.net/voltage-drop-calculator.html?necmaterial=copper&necwiresize=2&necconduit=steel&necpf=0.99&material=copper&wiresize=3.277&resistance=1.2&resistanceunit=okm&voltage=12&phase=dc&noofconductor=1&distance=14&distanceunit=feet&amperes=30&x=Calculate&ctype=nec

For example, a 12 volt bus, 14 feet (one way run) of cable, 10 AWG, 30 amps will give 1.0 volt drop:

Voltage drop: 1.00
Voltage drop percentage: 8.32%
Voltage at the end: 11

For DC wiring, keep it short and heavy from battery bank to AC inverter...

-Bill

AACS · 10:10AM

You are absolutely right. There was a long extension cable in between. I omitted that and connected it directly and it worked fine. Problem solved. Thank you.

BTW, it is not connected to a vehicle, it is a solar system. Directly connected to the battery.

Using a soldering gun/iron with a modified sine wave inverter

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