WEG CFW-11 User Manual - page 41
Installation and Connection
3
3-20 | CFW-11
3.2.3.2.1 Sizing the Braking Resistor
The following application data shall be considered for the adequate sizing of the braking resistor:
Desired deceleration time.
Load inertia.
Braking duty cycle.
In any case, the effective current value and the maximum braking current value presented in
shall be respected.
The maximum braking current defines the minimum braking resistor value in ohms.
The DC Link voltage level for the activation of the dynamic braking function is defined by parameter P0153
(dynamic braking level).
The power of the braking resistor is a function of the deceleration time, the load inertia, and the load torque.
For most applications, a braking resistor with the value in ohms indicated in
power of 20 % of the rated driven motor power. Use wire type resistors in a ceramic support with adequate
insulation voltage and capable of withstanding high instantaneous power with respect to rated power. For critical
applications with very short deceleration times and high inertia loads (ex.: centrifuges) or short duration cycles,
consult WEG for the adequate sizing of the braking resistor.
Table 3.5 - Dynamic braking specifications
Inverter Model
Maximum
Braking
Current
(I
max
)
[A]
Maximum
Braking Power
(peak value)
(P
max
)
(2)
[kW]
Effective
Braking
Current
(I
effective
)
(1)
[A]
Dissipated
Power (mean
value) in
the Braking
Resistor (P
R
)
(2)
[kW]
Recommended
Resistor
[Ω]
Power Wire Size
(terminals DC+
and BR)
(3)
[mm
2
(AWG)]
CFW110142T2O...DB...
266.7
106.7
142.0
30.2
1.5
70 (2/0) or
2 x 25 (2 x 4)
CFW110180T2O...DB...
266.7
106.7
180.0
48.6
1.5
120 (4/0) or
2 x 35 (2 x 2)
CFW110211T2O...DB...
333.3
133.3
211.0
53.4
1.2
150 (300) or
2 x 50 (2 x 1)
CFW110105T4O...DB...
186.0
148.8
105.0
47.4
4.3
50 (1)
CFW110142T4O...DB...
266.7
213.3
142.0
60.5
3.0
70 (2/0) or
2 x 25 (2 x 4)
CFW110180T4O...DB...
266.7
213.3
180.0
97.2
3.0
120 (4/0) or
2 x 35 (2 x 2)
CFW110211T4O...DB...
363.6
290.9
191.7
80.8
2.2
120 (250) or
2 x 50 (2 x 1)
(1) The effective braking current presented is just an indicative value, because it depends on the braking duty cycle. The effective braking current
can be obtained from the equation below, where t
br
is given in minutes and corresponds to the sum of all braking times during the most severe
cycle of 5 (five) minutes.
I
effective
= I
max
x
t
br
5
(2) The P
max
and P
R
values (maximum and mean power of the braking resistor respectively) presented are valid for the recommended resistors and for
the effective braking currents presented in
. The resistor power shall be changed according to the braking duty cycle.
(3) For specifications on the recommended terminal type (bolt and tightening torque) for the connection of the braking resistor (terminals DC+
and BR), refer to the DC+ terminal specification at the