Cutmaster 10mm, 12mm, 05 power source specifi cations – Tweco CutMaster 10mm-12mm User Manual

CUTMASTER 10MM, 12MM

SYSTEM INTRODUCTION 2-2 Manual 0-5197AC

2.05 Power Source Specifi cations

CutMaster 10mm Plant Part No. 1-4730-6

CUTMASTER 10mm Power Source Specifi cations

Input Power

240 VAC (+/-15%), 1 Phase, 50/60Hz

Output Current

20-30 Amps @ 240VAC

CUTMASTER 10mm Power Source Duty Cycle (Note 1)

Ambient Temperature

104° F (40° C)

Duty Cycle

40% @ 240VAC

Rated Current

30 Amps @ 240V

SL60 Torch Gas Requirements (See Section 2T.02)

Note

1. Duty Cycle is the percentage of time the system can be operated without overheating. Duty cycle is
reduced if primary input voltage (AC) is low or the DC voltage is higher than shown in this chart.

2. Air supply must be free of oil, moisture, and other contaminants. Excessive oil and moisture may cause
double-arcing, rapid tip wear, or even complete torch failure. Contaminants may cause poor cutting
performance and rapid electrode wear. Optional fi lters provide increased fi ltering capabilities.

CutMaster 12mm Plant Part No. 1-4200-6

CUTMASTER 12mm Power Source Specifi cations

Input Power

240 VAC (+-15%), 1 Phase, 50/60Hz

Output Current

20-40 Amps @ 240VAC

CUTMASTER 12mm Power Source Duty Cycle (Note 1)

Ambient Temperature

104° F (40° C)

Duty Cycle

40% @ 240VAC

Rated Current

40 Amps @ 240V

SL60 Torch Gas Requirements (See Section 2T.02)

Note

1. Duty Cycle is the percentage of time the system can be operated without overheating. Duty cycle is
reduced if primary input voltage (AC) is low or the DC voltage is higher than shown in this chart.

2. Air supply must be free of oil, moisture, and other contaminants. Excessive oil and moisture may cause
double-arcing, rapid tip wear, or even complete torch failure. Contaminants may cause poor cutting
performance and rapid electrode wear. Optional fi lters provide increased fi ltering capabilities.

NOTE

IEC Rating is determined as specifi ed by the International Electro-Technical Commission. These specifi ca-
tions include calculating an output voltage based upon Power Source rated current. To facilitate comparison
between Power Sources, all manufacturers use this output voltage to determine duty cycle.

TDC Rating is determined using an output voltage representative of actual output voltage during cutting
with a TDC torch. This voltage may be more or less than IEC voltage, depending upon choice of torch,
consumables, and actual cutting operation.