2 Installation

Wire Size

 

 

FIRE HAZARD Select a wire size large enough to carry short-circuit current

 

 

WARNING

 

 

without overheating. To satisfy safety requirements, load wires must be

 

 

 

 

 

 

heavy enough not to overheat while carrying the short-circuit output current

 

 

 

of the unit (refer to the following table).

 

 

 

 

 

 

 

 

 

 

Along with conductor temperature, you must also consider voltage

 

 

 

drop when selecting wire sizes. The following table lists the

 

 

 

 

resistance for various wire sizes and the maximum lengths to limit

 

 

 

the voltage drop to 1.0 V per lead for various currents.

 

 

 

 

Note that the minimum wire size required to prevent overheating

 

 

 

may not be large enough to prevent over-voltage tripping or maintain

 

 

 

good regulation. Under most conditions, the load wires should also be

 

 

 

heavy enough to limit the voltage drop to no more than l.0 V per lead.

 

 

 

To help prevent nuisance tripping of the over-voltage circuit, select a

 

 

 

wire size sufficient to handle the FULL output current of the unit no

 

 

 

matter what the intended load current or current limit setting

 

 

 

 

Load lead resistance is also an important factor relating to the CV

 

 

 

stability of the instrument when remote sensing capacitive loads. If

 

 

 

high capacitance loads are expected, you should not use wire gauges

 

 

 

heavier than 12 to 14 AWG for long runs of load lead.

 

 

 

 

 

 

 

Wire size

Current-carrying capacity in Amps

Resistance

Max. Length to Limit Voltage to 1 V/Lead

 

 

for stranded copper wire

 

for 5 A

for 10 A

for 20A

for 50 A

 

AWG

2 wires bundled

4 wires bundled

/foot

Wire length in feet

 

 

 

20

7.8

6.9

0.0102

20

x

x

x

 

18

14.5

12.8

0.0064

30

15

x

x

 

16

18.2

16.1

0.0040

50

25

x

x

 

14

29.3

25.9

0.0025

80

40

20

x

 

12

37.6

33.2

0.0016

125

63

30

x

 

10

51.7

45.7

0.0010

200

100

50

20

 

8

70.5

62.3

0.0006

320

160

80

32

 

6

94

83

0.0004

504

252

126

50

 

Area in mm2

2 wires bundled

4 wires bundled

/meter

Wire length in meters

 

 

 

0.5

7.8

6.9

0.0401

5

x

x

x

 

0.75

9.4

8.3

0.0267

7.4

x

x

x

 

1

12.7

11.2

0.0200

10

5

x

x

 

1.5

15.0

13.3

0.0137

14.6

7.2

x

x

 

2.5

23.5

20.8

0.0082

24.4

12.2

6.1

x

 

4

30.1

26.6

0.0051

39.2

19.6

9.8

3.9

 

6

37.6

33.2

0.0034

58

29

14.7

5.9

 

10

59.2

52.3

0.0020

102

51

25

10.3

 

Notes: 1. Capacity for AWG wires derived from MIL-W-5088B. Max. ambient temp: 55°C. Max. wire temp: 105°C.

2.Capacity for metric wires are derived from IE Publication 335-1.

3.Capacity of aluminum wire is approximately 84% of that listed for copper wire.

4.“x” indicates wire is not rated for the maximum output current of the power module.

5.Because of wire inductance considerations, it is also recommended that you keep your load leads twisted, tie wrapped, or bundled together and less than 50 feet (14.7 meters) in length per lead.

26

Series N6700 User’s Guide

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Agilent Technologies N6700 manual Wire Size, Awg
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