Estimated Power & Energy Savings - 35 to 55%

Estimated Labour Savings – 60%

Estimated Power & Energy Savings - 35 to 55%

Estimated Labour Savings – 60%

Estimated Power & Energy Savings - 35 to 55%

Estimated Labour Savings – 60%

Estimated Power & Energy Savings - 35 to 55%

Estimated Labour Savings – 60%

Estimated Power & Energy Savings - 35 to 55%

Estimated Labour Savings – 60%

TECHNICAL PARAMETERS

PARAMETER MIG - 250 S MIG - 250 F MIG - 400 IJ MIG - 500 IJ MIG - 630 IJ
Input Power Voltage (v) 1P AC- 230 ± 15 % 3P AC -415± 15 % 3P AC -415± 15 % 3P AC -415± 15 % 3P AC -415± 15 %
Rated input capacity (KVA) 12 12 14 25 37
RATED INPUT CURRENT (A) 25 25 25 46 66
Voltage adjusting range (V) 14 - 40 14 - 40 14 - 40 17 - 50 17 - 50
 Current Adjust Range (A) 60 - 250 60 - 250 60 - 400 60 - 500 60 - 630
Welding wire (ɸ) 0.8 -1.0 0.8 - 1.0 0.8 - 1.2 1.2 - 1.6 1.2 - 1.6
DUT Y CYCLE (%) 60% 60% 60% 60% 60%
Full load  Efficiency (%) 89% 89% 89% 89% 89%
POWER FACTOR  0.87 0.87 0.87 0.87 0.87
Weight (KG) 18 18 36 50 55
Overall dimension (mm) 541× 214× 303 541× 214× 303 607× 330× 623 641× 360× 640 641× 360× 640

Guidelines for Product Purchase

Base Material  WELDING METHOD  WIRE DIAMETER (ɸ) Current Range (A)  Applicable Modle
Carbon steel ,Stainless steel Low - alloy steel  
CO2 / MAG 0.8 / 1.0 60 - 250 MIG - 250 S
CO2 / MAG 0.8 / 1.0 60 - 250 MIG - 250 F
CO2 / MAG 1.0 / 1.2 60 - 400 MIG - 400 IJ
CO2 / MAG 1.0 / 1.2 / 1.6 60 - 500 MIG - 500 IJ
Austenitic  Stainless Steel 
CO 2 /MAG 1.0 / 1.2 / 1.6 60 - 630 MIG - 630 IJ
CO2 (Flux - cored wires) 1.2 60 - 400 MIG 400 IJ
MIG (SOLID - CORED WIRES ) 1.2 60 - 500 MIG 500 IJ 
CO2 (Flux - cored wires) 1.2 / 1.6 60 - 630 MIG 630 IJ