A-6

INSTALLATION

A-6

 

 

 

RECOMMENDED ELECTRODE AND WORK CAbLE SIzES FOR ARC WELDING

General Guidelines

Connect the electrode and work cables between the appropriate output studs of the FX450 per the follow- ing guidelines:

Most welding applications run with the electrode being positive (+). For those applications, connect the electrode cable between the wire drive feed plate and the positive (+) output stud on the power source. Connect a work lead from the negative (-) power source output stud to the work piece.

When negative electrode polarity is required, such as in some Innershield applications, reverse the out- put connections at the power source (electrode cable to the negative (-) stud, and work cable to the positive (+) stud).

The following recommendations apply to all output polarities and weld modes:

Select the appropriate size cables per the “Output Cable Guidelines” (See Table A.1). Excessive voltage drops caused by undersized welding cables and poor connections often result in unsatisfactory welding performance. Always use the largest welding cables (electrode and work) that are practical, and be sure all connections are clean and tight.

Note: Excessive heat in the weld circuit indicates undersized cables and/or bad connections.

Route all cables directly to the work and wire feeder, avoid excessive lengths and do not coil excess cable. Route the electrode and work cables in close proximity to one another to minimize the loop area and therefore the inductance of the weld circuit.

Always weld in a direction away from the work (ground) connection.

CONTROL CAbLE CONNECTIONS

General Guidelines

Genuine Lincoln control cables should be used at all times (except where noted otherwise). Lincoln cables are specifically designed for the communication and power needs of the FX450. Most are designed to be connected end to end for ease of extension. Generally, it is recommended that the total length not exceed 100 feet (30.5 m). The use of non-standard cables, especially in lengths greater than 25 feet, can lead to communication problems (system shutdowns), poor motor acceleration (poor arc starting), and low wire driving force (wire feeding problems). Always use the shortest length of control cable possible, and DO NOT coil excess cable.

Regarding cable placement, best results will be obtained when control cables are routed separate from the weld cables. This minimizes the possibility of interference between the high currents flowing through the weld cables, and the low level signals in the control cables.

TAbLE A.1

OuTPuT CAbLE GuIDELINES

 

 

CABLE SIZES FOR COMBINED LENGTHS OF ELECTRODE AND WORK CABLES

AMPERES

PERCENT

 

(RUBBER COVERED COPPER - RATED 167°F or 75°C)**

 

 

DUTY

0 to 50Ft.

50 to 100Ft.

100 to 150 Ft.

150 to 200 Ft.

 

200 to 250 Ft.

 

 

CYCLE

(0 to15m)

(15 to 30m)

(30 to 46m)

(46 to 61m)

 

(61 to 76m)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

200

60

2

2

2

1

 

1/0

200

100

2

2

2

1

 

1/0

250

30

3

3

2

1

 

1/0

250

40

2

2

1

1

 

1/0

250

60

1

1

1

1

 

1/0

250

100

1

1

1

1

 

1/0

300

60

1

1

1

1/0

 

2/0

300

100

2/0

2/0

2/0

2/0

 

3/0

350

40

1/0

1/0

2/0

2/0

 

3/0

400

60

2/0

2/0

2/0

3/0

 

4/0

400

100

3/0

3/0

3/0

3/0

 

4/0

500

60

2/0

2/0

3/0

3/0

 

4/0

 

 

 

 

 

 

 

 

**Tabled values are for operation at ambient temperatures of 104°F(40°C) and below. Applications above 104°F(40°C) may require cables larger than recommended, or cables rated higher than 167°F(75°C).

FX450 (RED-D-ARC)

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Lincoln Electric FX450 specifications Recommended Electrode and Work CAbLE SIzES for ARC Welding, Control CAbLE Connections