Specifications - CIGWELD Transarc Tradesman HD Operating Manual

6. SPECIFICATIONS

6.1 Transarc Tradesman HD Specifications
Description (Refer NOTE 2)
Product Part Number
Cooling
Welder Type & Welding process
Welding Power Source mass
Dimensions
Manufactured to Australian Standard
Number of Phases
Nominal Supply Voltage
Nominal Supply Frequency
Effective Input Current
Flexible Supply Cable Size
Current Range
Maximum Input Current
Maximum Input Current for Short Circuit
Single Phase Generator Requirement
Three Phase Generator Requirement
Recommended Rated Outlet
Recommended Wire Fuse Size
Welding Current Range
Welding Current
Open Circuit Voltage
∇
The Effective Input Current should be used for the determination of cable size & supply requirements.
Motor start fuses or thermal circuit breakers are recommended for this application. Australian Standard
AS3000 permits the rating of the fuse or thermal circuit breaker protecting the circuit conductors, to be
double the outlet current rating for any circuit used exclusively for an electric arc welder. Check local
requirements for your situation in this regard.
♣
Generator Requirements at the Maximum Output Duty Cycle.
Due to variations that can occur in manufactured products, claimed performance, voltages, ratings, all
capacities, measurements, dimensions and weights quoted are approximate only. Achievable capacities and
ratings in use and operation will depend upon correct installation, use, applications, maintenance and service.
HD Manual Arc Welders
Transarc Tradesman HD
Fan Force Cooled
Heavy Duty,
Leakage reactance,
Manual Metal Arc Welding
H 570mm x W 490mm x D 815mm
Two phase
2
4mm , 25A Heavy Duty
LO
41.5A @ 35% Duty Cycle
61A
♣ 16.8kVA
♣ 30kVA
25A
40A
50 - 270A
210A @ 60% duty cycle
270A @ 35% duty cycle
70V
NOTE 2
13
625730
63kg
AS1966
415V
50Hz
∇ 25.0A
HI
41.5A @ 35% Duty Cycle
61A
♣ 17.2kVA
♣ 30kVA
25A
40A
55 - 330A
250A @ 60% duty cycle
330A @ 35% duty cycle
54V
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