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3. GENERAL DESCRIPTION
DIGITIG PULSE AC / DC converter serving 200GD with s welding r ę handwriting pr and dem constant and alternating structural steel coated
DIGITIG PULSE AC / DC converter serving 200GD with s welding r ę handwriting pr and dem constant and alternating structural steel coated
DIGITIG PULSE AC / DC converter serving 200GD with s welding r ę handwriting pr and dem constant and alternating structural steel coated
DIGITIG PULSE AC / DC converter serving 200GD with s welding r ę handwriting pr and dem constant and alternating structural steel coated
DIGITIG PULSE AC / DC converter serving 200GD with s welding r ę handwriting pr and dem constant and alternating structural steel coated
DIGITIG PULSE AC / DC converter serving 200GD with s welding r ę handwriting pr and dem constant and alternating structural steel coated
DIGITIG PULSE AC / DC converter serving 200GD with s welding r ę handwriting pr and dem constant and alternating structural steel coated
electrodes (MMA method), and a steel ś qualitative and non-ferrous metal electrodes and
electrodes (MMA method), and a steel ś qualitative and non-ferrous metal electrodes and
electrodes (MMA method), and a steel ś qualitative and non-ferrous metal electrodes and
electrodes (MMA method), and a steel ś qualitative and non-ferrous metal electrodes and
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
infusible and gas shielded neutral ę dull (TIG). The design and construction of devices and the latest equipment used axes and achievement ę cutting
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
technology (PWM width modulation ś these pulses) and IGBTs (insulated bipolar transistors and gateway and), which resulted in, with e welder
characterized ę At low small size and w and.
characterized ę At low small size and w and.
characterized ę At low small size and w and.
characterized ę At low small size and w and.
characterized ę At low small size and w and.
characterized ę At low small size and w and.
DIGITIG PULSE AC / DC equipment 200GD with Ionization is located in the arc ignition. It has features rise and fall pr and du, przedwypływ
DIGITIG PULSE AC / DC equipment 200GD with Ionization is located in the arc ignition. It has features rise and fall pr and du, przedwypływ
DIGITIG PULSE AC / DC equipment 200GD with Ionization is located in the arc ignition. It has features rise and fall pr and du, przedwypływ
DIGITIG PULSE AC / DC equipment 200GD with Ionization is located in the arc ignition. It has features rise and fall pr and du, przedwypływ
DIGITIG PULSE AC / DC equipment 200GD with Ionization is located in the arc ignition. It has features rise and fall pr and du, przedwypływ
and Post-gas and can with possibility SC parameter adjustment pulse and h and du AC.
and Post-gas and can with possibility SC parameter adjustment pulse and h and du AC.
and Post-gas and can with possibility SC parameter adjustment pulse and h and du AC.
and Post-gas and can with possibility SC parameter adjustment pulse and h and du AC.
and Post-gas and can with possibility SC parameter adjustment pulse and h and du AC.
and Post-gas and can with possibility SC parameter adjustment pulse and h and du AC.
and Post-gas and can with possibility SC parameter adjustment pulse and h and du AC.
4. SPECIFICATIONS
4.1 welder
Napi ę of power
Napi ę of power
Napi ę of power
Maximum power consumption
rated current and d / welding cycle
rated current and d / welding cycle
rated current and d / welding cycle
rated voltage ę in a state without load until down
rated voltage ę in a state without load until down
rated voltage ę in a state without load until down
rated voltage ę in a state without load until down
rated voltage ę in a state without load until down
Maximum current consumption and du
Maximum current consumption and du
Maximum current consumption and du
network security
Weight (without fittings ę here)
Weight (without fittings ę here)
Weight (without fittings ę here)
dimensions
Degree ñ protection
Degree ñ protection
Degree ñ protection
4.1.1 range parameter adjustment
Pre-gas
Post-gas
The growing pr and du
The growing pr and du
The growing pr and du
drooping pr and du
drooping pr and du
drooping pr and du
pr and d early and threaded
pr and d early and threaded
pr and d early and threaded
pr and d early and threaded
pr and d early and threaded
pr and d welding
pr and d welding
pr and d welding
pr and d basis
pr and d basis
pr and d basis
pr and d crater
pr and d crater
pr and d crater
part ę frequency SC pulse
part ę frequency SC pulse
part ę frequency SC pulse
part ę frequency SC pulse
part ę frequency SC pulse
Widely SC pulse
Widely SC pulse
Widely SC pulse
part ę frequency SC AC
part ę frequency SC AC
part ę frequency SC AC
part ę frequency SC AC
part ę frequency SC AC
AC balance
4.2 TIG
handle type
Maximum load until Activities SC pr and Judicial
Maximum load until Activities SC pr and Judicial
Maximum load until Activities SC pr and Judicial
Maximum load until Activities SC pr and Judicial
Maximum load until Activities SC pr and Judicial
Maximum load until Activities SC pr and Judicial
Maximum load until Activities SC pr and Judicial
gas flow
arc ignition
Long SC
Long SC
Duty cycle
Duty cycle is based on a period of 10 minutes. 40% duty cycle means with E after 4 minutes of work office and equipment is required 6-minute break. Duty
Duty cycle is based on a period of 10 minutes. 40% duty cycle means with E after 4 minutes of work office and equipment is required 6-minute break. Duty
Duty cycle is based on a period of 10 minutes. 40% duty cycle means with E after 4 minutes of work office and equipment is required 6-minute break. Duty
Duty cycle is based on a period of 10 minutes. 40% duty cycle means with E after 4 minutes of work office and equipment is required 6-minute break. Duty
Duty cycle is based on a period of 10 minutes. 40% duty cycle means with E after 4 minutes of work office and equipment is required 6-minute break. Duty
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
cycle of 100% means with e devices and device can with that worked Æ the way you and Continuously without interruption.
Attention! Heating test was carried out at a temperature of surrounding and the air. Duty cycle at 40 ° C was determined by simulation are present.
Attention! Heating test was carried out at a temperature of surrounding and the air. Duty cycle at 40 ° C was determined by simulation are present.
Attention! Heating test was carried out at a temperature of surrounding and the air. Duty cycle at 40 ° C was determined by simulation are present.
Attention! Heating test was carried out at a temperature of surrounding and the air. Duty cycle at 40 ° C was determined by simulation are present.
AC 230V ± 10% 50Hz
MMA 6.6 kVA TIG 4.2 kVA
MMA: 180 A / 40% TIG 200 A / 40%
59 V
MMA: 36.5 A 26.8 A TIG
25 And
18.5 kg
455 x 195 x 415 mm
IP21
0.1 - 1 s
0 - 15 s
0 - 10 s
0 - 25 s
10 - 200 A
MMA: A TIG 20-180: 10-200 A
5 - 95% pr and the welding
5 - 95% pr and the welding
5 - 95% pr and the welding
10 - 200 A
0.5 - 200 Hz
10 - 90%
40 - 200 Hz
30 - 70%
T-26
200 A
10-20 l / min
Contactless (HF)
4 m
4
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