Altivar, 58 trx ac drives, Dynamic braking resistor kits – Schneider Electric ALTIVAR 58 TRX User Manual

Altivar

®

58 TRX AC Drives

Dynamic Braking Resistor Kits

©

2000–2003 Schneider Electric All Rights Reserved

36

09/2003

DB resistor requirements:

Peak braking power required to develop braking torque (T

b

) when decelerating from a given speed

P

i

= T

b

x N

base

/(7.04) = (1.97 x 1740)/(7.04) = 487 W

The braking power that must be absorbed for a time (td) during stopping or speed changing

operation: P

d

= 0.5 x P

i

= 0.5 x 487 = 243 W for a period of t

d

seconds

The average braking power that must be dissipated during a machine cycle:

P

a

= P

d

x t

d

/t

c

= 243 x 5/30 = 40.5 W

Capability of VW3A66711 DB resistor assembly for ATV58U72N4 controller:

Peak braking power that can be developed with VW3A66711 DB resistor assembly with controller

configured for 460 Vac input line operation: P

i

= (V

db

)

2

/R

db

= (850 V)

2

/120

Ω

= 6020 W

The braking power that can be absorbed for t

d

(based on DB resistor hot state current-time

characteristic curve shown on page 37):
P

d

= R

db

x ((Multiple of I

r

at t

d

) x Ir)

2

= 120

Ω

x (3.5 x 1.0)

2

= 1470 W

Since R

db

limits the peak current that can be drawn from the drive controller DC bus, the value of

[(Multiple of I

r

) x I

r

] must be limited to no greater than (

√

p

i

/R

db

).

The average braking power that can be dissipated continuously:

P

a

= R

db

x (I

r

)

2

= 120

Ω

x (1)

2

= 120 W

For this example, the VW3A66711 DB resistor assembly will work as intended for the application.