DC Motor Speed

DC MOTOR THEORY DC Motors (6-3) I_a E_t E_CEMF R_a where I_a = armature current E_t = terminal voltage E_CEMF = counter EMF R_a = armature resistance DC Motor Speed The field of a DC motor is varied using external devices, usually field resistors. For a constant applied voltage to the field (E), as the resistance of the field (R_f) is lowered, the amount of current flow through the field (I_f) increases as shown by Ohm’s law in Equation (6-4). (6-4) �If � E �Rf An increase in field current will cause field flux (F_f) to increase. Conversely, if the resistance of the field is increased, field flux will decrease. If the field flux of a DC motor is decreased, the motor speed will increase. The reduction of field strength reduces the CEMF of the motor, since fewer lines of flux are being cut by the armature conductors, as shown in Equation (6-5). (6-5) �ECEMF � K � FF^� N A reduction of counter EMF allows an increase in armature current as shown in Equation (6-6). (6-6) �Ia � E_t � E_CEMF � R_a This increase in armature current causes a larger torque to be developed; the increase in armature current more than offsets the decrease in field flux as shown in Equation (6-7). (6-7) �T � K � FF^� I_a This increased torque causes the motor to increase in speed. �T � N� ES-06 Page 6 Rev. 0