Hi everyone,
I was hoping to see if anyone had an idea or two on how I could power my Lincoln Electric 175HD welder in a garage that is not wired for 220 yet. I will be using a welder to patch a lower quarter panel by tach welding a small replacement sheet. So lots of small tach welds and cooling.
My father in law suggested a generator which I actually have but not sure if the power requirements exceed my generators rating. My generator running rate is 3850 watts and 4850 surge. My welder is a Lincoln Electric 175hd. I have attached its specs from the manual. Not 100% sure how to read its requirements.
My power box is a good 70 feet from the garage and I have no 220 socket currently.
General welding questions that dont fit in TIG, MIG, Stick, or Certification etc.
You dont have a 220 outlet, assuming you have 110 there? If so, you can make a 220 temp. I have the Lincoln 180, and 50A breaker is way more than you need, especially if only doing tacks. Meant to ask - is there a breaker box?
Lincoln Weld-Pak 180
Lincoln spool gun
Everlast PowerUltra 205p
AHP AlphaTig 200X
Assorted stuff
Lincoln spool gun
Everlast PowerUltra 205p
AHP AlphaTig 200X
Assorted stuff
Your welders name plate says it uses max of 22 amps @ 208 volts. If you use ohms law that calculates up to a max watts of 4576. That would be if you were running it set to the max. Your generator should be more than enough. You will probably notice your starts will be a little rougher on the generator unless it has a fixed throttle that you can ramp up before you start to weld.
I have more questions than answers
Josh
Josh
You need a minimum of 15,000 watts generator. The arc strike is of most concern, but for more read here: http://m.lincolnelectric.com/en-us/supp ... etail.aspx
When i was looking to run a generator i had an 8,000 I was sure would do, but it wasn’t enough and I read that page and found out why. The math in this thread is incorrect.
When i was looking to run a generator i had an 8,000 I was sure would do, but it wasn’t enough and I read that page and found out why. The math in this thread is incorrect.
1957 Lincoln Idealarc 300, Miller 211 v1 mig, Lincoln 3350, CK Worldwide CK17FV, 9FV
- MinnesotaDave
-
Weldmonger
-
Posts:
-
Joined:Sun Oct 27, 2013 10:57 pm
-
Location:Big Lake/Monticello MN, U.S.A.
I've tried running transformer based 120 volt mig welders off underpowered generator before - it didn't work very well.
I tried a century 130 amp mig on a 5000/6250 watt old generac. Because I only used one side of the generator on 120v I was limited to 20 amp draw. Which should have been plenty.
The inrush current was so high for each arc initiation that the motor would momentarily bog, then gradually the arc would stabilize.
If I had used a 240 volt mig like yours, I believe it would have worked better with balanced load drawing from both sides. But I still think the arc initiation issue may have remained.
You may have enough for your low amp welds, only testing it will let you know for sure.
When I tested 240v inverter stick welders on the same generator, that worked really well.
I tried a century 130 amp mig on a 5000/6250 watt old generac. Because I only used one side of the generator on 120v I was limited to 20 amp draw. Which should have been plenty.
The inrush current was so high for each arc initiation that the motor would momentarily bog, then gradually the arc would stabilize.
If I had used a 240 volt mig like yours, I believe it would have worked better with balanced load drawing from both sides. But I still think the arc initiation issue may have remained.
You may have enough for your low amp welds, only testing it will let you know for sure.
When I tested 240v inverter stick welders on the same generator, that worked really well.
Dave J.
Beware of false knowledge; it is more dangerous than ignorance. ~George Bernard Shaw~
Syncro 350
Invertec v250-s
Thermal Arc 161 and 300
MM210
Dialarc
Tried being normal once, didn't take....I think it was a Tuesday.
Beware of false knowledge; it is more dangerous than ignorance. ~George Bernard Shaw~
Syncro 350
Invertec v250-s
Thermal Arc 161 and 300
MM210
Dialarc
Tried being normal once, didn't take....I think it was a Tuesday.
I don't think this is accurate. It lists the max running amperage of 22 Amps, but is fused by a 50 amp breaker. It's 50 for a reason. So you need to redo the math because when a transformer initiates an arc, the load spikes. Once the arc is stabilized, then you're pulling the max running amperage. By my math, he'd need double the capacity that you can up with.Poland308 wrote:Your welders name plate says it uses max of 22 amps @ 208 volts. If you use ohms law that calculates up to a max watts of 4576. That would be if you were running it set to the max.
I don't think the math supports 15,000 either. Closer to a 10K or 12K. Yeah, a 15 would certainly do it. But since he is going to be tacking, probably pretty small wire, He might just make it with an 8,000.One1 wrote:You need a minimum of 15,000 watts generator. The arc strike is of most concern, but for more read here: http://m.lincolnelectric.com/en-us/supp ... etail.aspx
When i was looking to run a generator i had an 8,000 I was sure would do, but it wasn’t enough and I read that page and found out why. The math in this thread is incorrect.
Time to blast down to Harbor Freight and get you a small, cheap 120v MIG. Or, if you do have a sub panel in the garage, temporarily wire a 220v plug in and rock on with your 175D
If you don’t like your welder you can run it on as little as you can get an arc with. We used to melt power supply transformers in audio amps by under supplying input current. Everytime the output load spiked the transformer heat immediately doubled. You’d be fortunate to get a 10% duty cycle. Hence why you need 15K to run on. Just because it welds doesn’t mean it will for long. That’s why in the OP chart as the voltage goes down, the amperage goes up. Ohms law wins every time. If you can’t support the current demand the pie chart is going to start moving against you.
1957 Lincoln Idealarc 300, Miller 211 v1 mig, Lincoln 3350, CK Worldwide CK17FV, 9FV
I’ve run a miller 280 cst off of a 5000 max wats generator. Was stick welding and tig welding at about 130-150. for most of a week. I’ve run the little 150 stl off the same generator.
Input amps is stated as 20-22. The size of the plug is unimportant. The breaker is sized to protect the wire.
Input amps is stated as 20-22. The size of the plug is unimportant. The breaker is sized to protect the wire.
I have more questions than answers
Josh
Josh
- MinnesotaDave
-
Weldmonger
-
Posts:
-
Joined:Sun Oct 27, 2013 10:57 pm
-
Location:Big Lake/Monticello MN, U.S.A.
Inverters sure run nice off generators in comparison to transformer welders.Poland308 wrote:I’ve run a miller 280 cst off of a 5000 max wats generator. Was stick welding and tig welding at about 130-150. for most of a week. I’ve run the little 150 stl off the same generator.
Input amps is stated as 20-22. The size of the plug is unimportant. The breaker is sized to protect the wire.
The little maxstar 150s I had ran great off a 5000 watt genny.
Dave J.
Beware of false knowledge; it is more dangerous than ignorance. ~George Bernard Shaw~
Syncro 350
Invertec v250-s
Thermal Arc 161 and 300
MM210
Dialarc
Tried being normal once, didn't take....I think it was a Tuesday.
Beware of false knowledge; it is more dangerous than ignorance. ~George Bernard Shaw~
Syncro 350
Invertec v250-s
Thermal Arc 161 and 300
MM210
Dialarc
Tried being normal once, didn't take....I think it was a Tuesday.
My place has 200 amp service (So I have 2 poles of juice). I have no power running the garage right now. I am in the middle of construction but had to put my truck in there because its winter here to work on some major brake issues. So I have an extension cord powering my lights and another one powering my compressor temporarily.ljdm1956 wrote:You dont have a 220 outlet, assuming you have 110 there? If so, you can make a 220 temp. I have the Lincoln 180, and 50A breaker is way more than you need, especially if only doing tacks. Meant to ask - is there a breaker box?
I just realized that I do have a 50 amp double pole breaker in the box and it use to power something in the kitchen assume a heavy duty electric stove or the water heater. So technically if I could figure out what gauge of wire I need I could run a some romex to the garage. I could even run a long extension cord if I reconnect the 220 socket.
This is what I am thinking, that my generator isn't going to have enough juice. The Lincoln Tech specs are vague. Even though I will just be tack welding still unclear.One1 wrote:You need a minimum of 15,000 watts generator. The arc strike is of most concern, but for more read here: http://m.lincolnelectric.com/en-us/supp ... etail.aspx
When i was looking to run a generator i had an 8,000 I was sure would do, but it wasn’t enough and I read that page and found out why. The math in this thread is incorrect.
Poland did you get that 22 amps @ 208 volts from the little chart I posted? I am in the US and I don't get why its showing 2 sets of numbers. For example 230v and 208v in the input part of the chart.Poland308 wrote:Your welders name plate says it uses max of 22 amps @ 208 volts. If you use ohms law that calculates up to a max watts of 4576. That would be if you were running it set to the max. Your generator should be more than enough. You will probably notice your starts will be a little rougher on the generator unless it has a fixed throttle that you can ramp up before you start to weld.
That's interesting but only way to tell would be to give it a try I guess. So if I am tack welding, the arc initiation still could be an issue? from what everyone has mention the start is always the part that draws hard on the electrical.MinnesotaDave wrote:I've tried running transformer based 120 volt mig welders off underpowered generator before - it didn't work very well.
I tried a century 130 amp mig on a 5000/6250 watt old generac. Because I only used one side of the generator on 120v I was limited to 20 amp draw. Which should have been plenty.
The inrush current was so high for each arc initiation that the motor would momentarily bog, then gradually the arc would stabilize.
If I had used a 240 volt mig like yours, I believe it would have worked better with balanced load drawing from both sides. But I still think the arc initiation issue may have remained.
You may have enough for your low amp welds, only testing it will let you know for sure.
When I tested 240v inverter stick welders on the same generator, that worked really well.
I think the chart mentions a 40 amp breaker, not sure if that helps or hurts the case.cj737 wrote:I don't think this is accurate. It lists the max running amperage of 22 Amps, but is fused by a 50 amp breaker. It's 50 for a reason. So you need to redo the math because when a transformer initiates an arc, the load spikes. Once the arc is stabilized, then you're pulling the max running amperage. By my math, he'd need double the capacity that you can up with.Poland308 wrote:Your welders name plate says it uses max of 22 amps @ 208 volts. If you use ohms law that calculates up to a max watts of 4576. That would be if you were running it set to the max.
Time to blast down to Harbor Freight and get you a small, cheap 120v MIG. Or, if you do have a sub panel in the garage, temporarily wire a 220v plug in and rock on with your 175D
One1 since I will just be doing tack welds duty cycle shouldn't be much of an issue no?One1 wrote:If you don’t like your welder you can run it on as little as you can get an arc with. We used to melt power supply transformers in audio amps by under supplying input current. Everytime the output load spiked the transformer heat immediately doubled. You’d be fortunate to get a 10% duty cycle. Hence why you need 15K to run on. Just because it welds doesn’t mean it will for long. That’s why in the OP chart as the voltage goes down, the amperage goes up. Ohms law wins every time. If you can’t support the current demand the pie chart is going to start moving against you.
208v is common for industrial power distribution. Your house has 230v.cloves wrote: I am in the US and I don't get why its showing 2 sets of numbers. For example 230v and 208v in the input part of the chart.
Lincoln Square Wave 200
Lincoln 225 AC/DC
Harris Oxy/Acetylene torch
Lincoln 225 AC/DC
Harris Oxy/Acetylene torch
The two sets of numbers correspond to both 208 and 220. But in reality you might see as high as 240 and still be within the normal allowances. The higher amps number matches with the lower voltage. Ohms law.
I have more questions than answers
Josh
Josh
The problem is that you are tack welding. The only part you NEED is the hot start, the part that isn’t there. You’re going to get a weak start and a cold weld with bad if any penetration, then melt over the top of it.
1957 Lincoln Idealarc 300, Miller 211 v1 mig, Lincoln 3350, CK Worldwide CK17FV, 9FV
Thanks fella's I guess the generator is a no go. So I will have to run romex from a 2 pole breaker to the garage. Assuming that an 8/3 romex should be enough? Its about 65 ft to where I can drop an outlet into the garage.
For Romex you would need to use 6/3 to technically be in compliance. If you were running THWN in conduit #8 would be OK. Since you know you're only going to draw 20ish amps and this is temporary, you could wave your arms and make the case to use 8/3 because it's more than adequate from a voltage drop standpoint. The other option you have if it saves you routing headaches with the romex is to put the receptacle right next to your service panel and buy a 65' #8 extension cable.cloves wrote:So I will have to run romex from a 2 pole breaker to the garage. Assuming that an 8/3 romex should be enough? Its about 65 ft to where I can drop an outlet into the garage.
Lincoln Square Wave 200
Lincoln 225 AC/DC
Harris Oxy/Acetylene torch
Lincoln 225 AC/DC
Harris Oxy/Acetylene torch
Return to “Welding Forum General Shop Talk”
Jump to
- Introductions & How to Use the Forum
- ↳ Welcome!
- ↳ Member Introductions
- ↳ How to Use the Forum
- ↳ Moderator Applications
- Welding Discussion
- ↳ Metal Cutting
- ↳ Tig Welding - Tig Welding Aluminum - Tig Welding Techniques - Aluminum Tig Welding
- ↳ Mig and Flux Core - gas metal arc welding & flux cored arc welding
- ↳ Stick Welding/Arc Welding - Shielded Metal Arc Welding
- ↳ Welding Forum General Shop Talk
- ↳ Welding Certification - Stick/Arc Welding, Tig Welding, Mig Welding Certification tests - Welding Tests of all kinds
- ↳ Welding Projects - Welding project Ideas - Welding project plans
- ↳ Product Reviews
- ↳ Fuel Gas Heating
- Welding Tips & Tricks
- ↳ Video Discussion
- ↳ Wish List
- Announcements & Feedback
- ↳ Forum News
- ↳ Suggestions, Feedback and Support
- Welding Marketplace
- ↳ Welding Jobs - Industrial Welding Jobs - Pipe Welding Jobs - Tig Welding Jobs
- ↳ Classifieds - Buy, Sell, Trade Used Welding Equipment
- Welding Resources
- ↳ Tradeshows, Seminars and Events
- ↳ The Welding Library
- ↳ Education Opportunities