David Chapman

Copper Development Association

david.chapman@copperdev.co.uk

Copper Development Association

Busbar Design Basics

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Copper Development Associationwww.cda.org.uk

High electrical conductivity

only silver is better than copper

Good thermal conductor

heat reaches surface quickly

Strong (at working temperature)

to withstand short circuit stresses

low creep

Easy to joint

resistant to corrosion

Materials for Busbar Systems

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Busbar System Current Ratings

Busbar ratings are determined only by the

maximum desired working temperature

At working temperature:

heat generated = heat lost

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Busbar System Current Ratings

Busbar ratings depend on:

Working and ambient temperatures

Heat lost from the busbar

by convection

by radiation

Heat generated in the busbar

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25.0

25.166.7v

Pcv

=

Power dissipated by convection is given by:

where is the temperature rise above ambientv is the vertical height of the surface

Busbar System Current Ratings

Pcv1Pcv2 v

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Power dissipation per metre length v Vertical height

0

40

80

120

160

0 50 100 150 200Vertical height (mm)

Pow

er d

issi

patio

n pe

r met

re le

ngth

(W)

Convection (for 80 C temperature rise)

Busbar System Current Ratings

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Power dissipated by radiation is given by:

( ) 84142 107.5 = TTPr where

Pr is the power dissipated per square metreT2 is the working temperature, KT1 is the ambient temperature, K is the emissivity

Busbar System Current Ratings

Pr

Pr

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The emissivity, , describes how effectively the surface radiates heat

For a perfectly polished surface, the value is close to zero - a very poor radiator

For a matt black surface, the value is close to 1 - a very good radiator

Busbar System Current Ratings

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Bright copper has an emissivity of about 0.1

During use, the emissivity of the copper surface increases - and the current rating increases - as the copper darkens to reach an emissivity value of about 0.7

Tin plated copper has an emissivity of about 0.3 to 0.5

But painting bars reduces the current rating!

Busbar System Current Ratings

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Copper Development Associationwww.cda.org.uk

Busbar System Current Ratings

Pr

Pr

Pr

Pr

Pr Pr

No radiation heat loss from internal surfaces

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Radiation power dissipation v Working temperature

0

20

40

60

80

100

273 323 373Absolute Working Temperature (K)

Pow

er d

issi

patio

n (W

per

sqm

)Radiation (for 30 C ambient)

Busbar System Current Ratings

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Copper Development Associationwww.cda.org.uk

for 100 mm vertical height, 30 C ambientTotal power dissipation v Working temperature

0

100

200

300

400

500

600

700

800

900

1000

40 60 80 100 120 140Working temperature (C)

Pow

er d

issi

patio

n (W

per

sqm

)

Convection

Radiation

Total

Busbar System Current Ratings

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Copper Development Associationwww.cda.org.uk

RIP 2=alIP 2=

The power generated by current in the busbar is:

where

is the resistivity of the material

a is the cross sectional area

l is the length

Busbar System Current Ratings

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Copper Development Associationwww.cda.org.uk

At some temperature, the heat generated in the

busbar is equal to the total heat lost by convection

and radiation.

[ ] [ ]rci PPP +=

Busbar System Current Ratings

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Copper Development Associationwww.cda.org.uk

Calculation method:

1 Select working and ambient temperatures

2 Assume initial current density of 8 amps/mm2

3 Find appropriate size in standard range

4 Calculate heat generated due to current

5 Calculate heat loss at working temperature

6 If 4>5, increase size and return to 4

When 4=

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The most economic size gives the lowest

lifetime cost. It is the minimum total cost of

material

installation and

energy costs

over the circuit lifetime.

Higher purchase cost - lower running costs

Best economic sizing

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Best economic sizingCost of bar

0

5

10

15

0 100 200 300 400 500 600Cross sectional area (sqmm)

Cos

t of b

ar p

er m

etre

($)

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Copper Development Associationwww.cda.org.uk

Best economic sizingCost of losses - 5 years

0

10

20

30

0 100 200 300 400 500 600Cross sectional area (sqmm)

Cos

t of l

osse

s ov

er 5

yea

rs ($

)

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Copper Development Associationwww.cda.org.uk

Economic Sizing of BusbarsTotal cost - 5 years

0

10

20

30

0 100 200 300 400 500 600Cross sectional area (sqmm)

Life

time

cost

per

met

re ($

)

Cost of barCost of lossTotal

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Busbar calculation software

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Copper Development Associationwww.cda.org.uk

Busbar calculation software

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Copper Development Associationwww.cda.org.uk

Busbar calculation software

www.leonardo-energy.org

Copper Development Associationwww.cda.org.uk

Further considerations

Having calculated the size of the bar, there are three further considerations:

voltage drop skin effect

increases apparent resistance by reducing effective area - important for:

thick busbars

high frequencies

harmonics generated by non-linear loads

short circuit current

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Summary of Busbar Material CharacteristicsHigh Conductivity

low loss, low voltage drop

>101.5 % IACS

Easy Formability due to small grain size and advanced production

technology

easy to bend without surface deformation

Good Flatness simple reliable jointing

Good Straightness easy installation, lower joint stress

David Chapman

Copper Development Association

david.chapman@copperdev.co.uk

Copper Development Association