HP 6627A User Manual

Output Connections and Operating Information

48

available in the load leads for prolonged operation into a 5 A load during ac low line at high ambient temperature
conditions.

There is a similar stipulation for 80 W low voltage outputs at l0 A under the same conditions as above. See Figure 4-2A
for worst case voltages available at the output terminals.

Table 4-1. Stranded Copper Wire Ampacity and Maximum Wire Lengths to Limit Load Lead Voltage

Drop

Ampacity Per Wire (Amps)

Resistivity

Max Length to Limit

Voltage to 1 V Per Lead

Wire Size

2 Wire Bundled

4 Wire Bundled

5 A

10 A

20 A

(AWG)

(

Ω/ft)

(feet)

20

7.8

6.9

0.0102

20

10

5

18

14.5

12.8

0.0064

30

15

7.5

16

18.2

16.1

0.0040

50

25

12.5

14

29.3

25.9

0.0025

--

40

20

12

37.6

33.2

0.0016

--

--

30

(Cross Section

(

Ω/m)

(meters)

Area in mm

2

)

0.5

7.8

6.9

0.0401

5

2.4

1.2

0.75

9.4

8.3

0.0267

7.4

3.8

1.8

1

12.7

11.2

0.0200

10

5

2.6

1.5

15.0

13.3

0.0137

14.6

7.2

3.6

2.5

23.5

20.8

0.0082

--

12.2

6

Notes:
1. Ampacities for AWG wires are derived from MIL-W-5088B. Maximum ambient temp: 55°C. Maximum wire temp:

105°C.

2. Ampacities for metric wires are derived from IE Publication 335-1.
3. Ampacity of aluminum wire is approximately 84% of that listed for copper wire.
4. Because of wire inductance considerations, it is 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.

5. See pages 47 & 48 for information on wire gauge considerations with capacitive loads.

NOTE

To prevent tripping of the overvoltage circuit, pick a wire size sufficient to handle the FULL output
current of the unit no matter what the intended load current or current limit setting.

Table 4-1 lists the resistivity for various wire sizes and the maximum lengths to limit the voltage drop to 1.0 volts for
various currents.

NOTE

The OVP circuit senses at the main output terminals and not on the sense leads. Thus, the voltage
sensed by the OVP circuit could be as much as 2 V higher than the voltage being regulated at the load.
Program the OVP trip voltage accordingly when using remote sensing. In addition, if the voltage drop
exceeds 1.5 V on either load lead, a protective circuit will fire the OVP circuit regardless of the OVP
setting.

Load lead resistance is an important factor relating to the CV stability of the supply with remote sensing of 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. See Figure 1-4 for more information about stability with output capacitors.