Glossary
Appendix A
PWM | |
| that accomplishes frequency and voltage control at the output |
| section (inverter) of the drive. The drive output voltage waveform is |
| at a constant amplitude, and by “chopping” the waveform (pulse- |
| |
| frequency is sometimes called the Carrier Frequency. |
Reactance | The impedance of inductors and capacitors has two components. |
| The resistive part is constant, while the reactive part changes with |
| applied frequency. These devices have a complex impedance |
| (complex number), where the resistance is the real part and the |
| reactance is the imaginary part. |
Rectifier | An electronic device made of one or more diodes that converts AC |
| power into DC power. Rectifiers are usually used in combination |
| with capacitors to filter (smooth) the rectified waveform to closely |
| approximate a pure DC voltage source. |
Regenerative Braking | A particular method of generating reverse torque to a motor, an |
| inverter will switch internally to allow the motor to become a gener- |
| ator and will either store the energy internally, deliver the braking |
| energy back to the main power input, or dissipate it with a resistor. |
Regulation | The quality of control applied to maintain a parameter of interest at |
| a desired value. Usually expressed as a percent (±) from the |
| nominal, motor regulation usually refers to its shaft speed. |
Reverse Torque | The torque applied in the direction opposite to motor shaft rotation. |
| As such, reverse torque is a decelerating force on the motor and its |
| external load. |
Rotor | The windings of a motor that rotate, being physically coupled to the |
| motor shaft. See also Stator. |
Saturation Voltage | For a transistor semiconductor device, it is in saturation when an |
| increase in input current no longer results in an increase in the |
| output current. The saturation voltage is the voltage drop across the |
| device. The ideal saturation voltage is zero. |
Sensorless Vector | A technique used in |
Control | vector in the motor without the use of a shaft position sensor |
| (angular). Benefits include an increase in torque at the lowest speed |
| and the cost savings from the lack of a shaft position sensor. |
Setpoint (SP) | The setpoint is the desired value of a process variable of interest. |
| See also Process Variable (PV) and PID Loop. |