Motor control device

What is claimed is: 1. A load control device for controlling power delivered from an alternating-current (AC) power source to a motor load, the load control device comprising: first and second capacitors; first and second controllable switching circuits coupled in series with the first and second capacitors, respectively; a control circuit configured to cause the motor load to rotate at first, second, and third rotational speeds by controlling the first and second controllable switching circuits to electrically couple the first capacitor, the second capacitor, and the parallel combination of the first and second capacitors, respectively, in series between the AC power source and the motor load; a first resistor configured to be coupled in parallel with the first capacitor when the first capacitor is not electrically coupled between the AC power source and the motor load; and a second resistor configured to be coupled in parallel with the second capacitor when the second capacitor is not electrically coupled between the AC power source and the motor load; wherein the control circuit is configured to change the motor load from the first rotational speed to the second rotational speed by controlling the first controllable switching circuit to disconnect the first capacitor from the series electrical connection between the AC power source and the motor load at approximately a first zero-crossing of the AC power source, waiting for a wait time period to allow the first capacitor to discharge through the first resistor, and subsequently controlling the second controllable switching circuit to connect the second capacitor in series electrical connection between the AC power source and the motor load at approximately a second zero-crossing of the AC power source; and wherein the control circuit is configured to change the motor load from the second rotational speed to the third rotational speed by controlling the first controllable switching circuit to disconnect the second capacitor from the series electrical connection between the AC power source and the motor load at approximately a third zero-crossing of the AC power source, waiting for the wait time period to allow the first capacitor to discharge through the second resistor, and subsequently controlling the first and second controllable switching circuits to connect the parallel combination of the first and second capacitors in series electrical connection between the AC power source and the motor load at approximately a fourth zero-crossing of the AC power source. 2. The load control device of claim 1 , wherein the control circuit is configured to receive a first command for controlling the motor load to the second rotational speed and a second command for controlling the motor load to the third rotational speed. 3. The load control device of claim 2 , wherein the control circuit is configured to wait for a timeout period after receiving the first command before changing the motor load to the third rotational speed in response to the second command. 4. The load control device of claim 2 , further comprising: one or more actuators configured to receive user inputs; wherein the control circuit is configured to receive the first and second commands in response to actuations of the one or more actuators. 5. The load control device of claim 2 , further comprising: a communication circuit configured to receive signals; wherein the control circuit is configured to receive the first and second commands via the signals received via the communication circuit. 6. The load control device of claim 1 , wherein the control circuit is configured to change the motor load from the third rotational speed to the first rotational speed by controlling the first and second controllable switching circuits to disconnect the parallel combination of the first and second capacitors from the series electrical connection between the AC power source and the motor load at approximately a fifth zero-crossing of the AC power source, waiting for the wait time period to allow the first and second capacitors to discharge through the first and second resistors, respectively, and subsequently controlling the first controllable switching circuit to connect the first capacitor in series electrical connection between the AC power source and the motor load at approximately a sixth zero-crossing of the AC power source. 7. The load control device of claim 1 , wherein the control circuit is configured to change the motor load from the third rotational speed to off by controlling the first and second controllable switching circuits to disconnect the parallel combination of the first and second capacitors from the series electrical connection between the AC power source and the motor load at approximately a fifth zero-crossing of the AC power source. 8. The load control device of claim 1 , further comprising: a third controllable switching circuit coupled in parallel electrical connection with the series combination of the first capacitor and the first switching circuit; wherein the control circuit configured to control the third controllable switching circuit to electrically couple the AC power source to the motor load to cause the motor load to rotate at a maximum rotational speed. 9. The load control device of claim 1 , wherein the first controllable switching circuit comprises a first single-pole double-throw relay having a movable contact electrically coupled to the first capacitor, the first capacitor coupled in series electrical connection between the AC power source and the motor load when the movable contact is connected to a first stationary contact of the relay, the first capacitor coupled in parallel electrical connection with the first resistor when the movable contact is connected to a second stationary contact of the relay. 10. The load control device of claim 1 , further comprising: a zero-cross detect circuit configured to generate a zero-cross detect signal that indicates zero-crossings of the AC power source; wherein the control circuit is configured to control the first and second controllable switching circuits to connect and disconnect the respective capacitors from series electrical connection between the AC power source and the motor load at approximately zero-crossings of the AC power source in response to the zero-cross detect signal received from the zero-cross detect circuit. 11. The load control device of claim 1 , wherein the first and second resistors are not coupled in parallel with the first and second capacitors, respectively, when the respective capacitor is electrically coupled in series between the AC power source and the motor load. 12. A method of controlling power delivered from an alternating-current (AC) power source to a motor load, the method comprising: causing the motor to rotate at a first rotational speed by controlling a first controllable switching circuit to electrically couple a first capacitor in series between the AC power source and the motor load; changing the motor load from the first rotational speed to a second rotational speed by controlling the first controllable switching circuit to disconnect the first capacitor from the series electrical connection between the AC power source and the motor load at approximately a first zero-crossing of the AC power source, connecting a first resistor in parallel with the first capacitor when the first capacitor is not connected in series between the AC power source and the motor load, waiting for a wait time period to allow the first capacitor to discharge through the first resistor, and subsequently controlling a second controllable switching circuit to connect a second ca