Parker Hannifin
Appendix B External Power-Dump Resistor Selection 185
Drive Capacitance
(uF) VTRIP
(VDC) EC (120 VAC)
Joules EC (240 VAC)
Joules
AR-01xx 440 400 28 9
AR-02xx 660 400 43 14
AR-04xx 880 400 57 19
AR-08xx 1100 400 72 24
AR-13xx 1590 400 104 35
AR-20xE 2240 400 N/A 50
AR-30xE 2240 400 N/A 50
When the voltage drops below 385 VDC, the Aries drive stops dissipating power through the
power dump resistor.
Table 59 Drive Capacitor Absorption

Energy Dissipated in Motor Winding Resistance

Some energy is dissipated in the motor windings. Because the energy is
converted to wasted heat in the motor, it is referred to as copper losses.
The energy during deceleration can be derived from the mass, deceleration
rate, motor resistance, and motor force constant. If some of the parameters
are not known, the energy dissipated in the motor windings (EW) can
conservatively be assumed zero (0).
This is based on current and motor winding resistance.
()
DM
DF
LF
DMW tR
tk
vMM
tRIE
+
==
2
22
1
2
1
Where
EW = energy dissipated in the motor windings (Joules) – copper losses
I = current through the windings (Ampsrms)
RM = line to line motor resistance (Ohms)
tD = deceleration time (Seconds)
MF = mass of forcer in kilograms (kg)
ML = mass of load in kilograms (kg)
kF = motor force constant (N/Amprms)