Counter electrode device, system and method for varying the permittivity of a liquid crystal device

What is claimed is: 1. A device comprising: a communication unit to radiate or to guide a radio frequency (RF) electromagnetic wave, the communication unit including: a plurality of electrodes, wherein the plurality of electrodes includes a first electrode pair; and a liquid crystal cell disposed between at least two electrodes of the plurality of electrodes; and voltage control circuitry coupled to the communication unit, the voltage control circuitry to apply a first electrical field to drive the liquid crystal cell from a first state toward a second state, wherein the liquid crystal cell has a first permittivity during the first state and a second permittivity during the second state, the voltage control circuitry further to apply a second electrical field to drive the liquid crystal cell from the second state toward the first state, wherein the first electrical field has a first direction and a first non-zero magnitude at a first location of the liquid crystal cell, and wherein the second electrical field has a second direction and a second non-zero magnitude at the first location, the second direction other than the first direction, wherein the communication unit to radiate or to guide the RF electromagnetic wave during the second state, wherein, during the second state, the electrodes of the first electrode pair each radiate or guide a respective component of the RF electromagnetic wave. 2. The device of claim 1 , wherein the voltage control circuitry to apply the first electric field includes the voltage control circuitry to configure a first mode including: a first voltage level provided at a first electrode of the plurality of electrodes; and a second voltage level provided at a second electrode of the plurality of electrodes; wherein the voltage control circuitry to apply the second electrical field includes the voltage control circuitry to configure a second mode including: a third voltage level provided at the first electrode; and the second voltage level provided at the second electrode. 3. The device of claim 1 , wherein the voltage control circuitry to apply the second electrical field includes the voltage control circuitry to concurrently provide different voltages each to a respective electrode of the first electrode pair. 4. The device of claim 1 , wherein the first direction is perpendicular to the second direction. 5. A device comprising: a communication unit to radiate or to guide a radio frequency (RF) electromagnetic wave, the communication unit including: a plurality of electrodes, wherein the plurality of electrodes includes a first electrode pair; and a liquid crystal cell disposed between at least two electrodes of the plurality of electrodes; and voltage control circuitry coupled to the communication unit, the voltage control circuitry to apply a first electrical field to drive the liquid crystal cell from a first state toward a second state, wherein the liquid crystal cell has a first permittivity during the first state and a second permittivity during the second state, the voltage control circuitry further to apply a second electrical field to drive the liquid crystal cell from the second state toward the first state, wherein the first electrical field has a first direction and a first non-zero magnitude at a first location of the liquid crystal cell, and wherein the second electrical field has a second direction and a second non-zero magnitude at the first location, the second direction other than the first direction, wherein the voltage control circuitry to apply the second electrical field includes the voltage control circuitry to concurrently provide different voltages each to a respective electrode of the first electrode pair, wherein the communication unit to radiate or to guide the RF electromagnetic wave during the second state, wherein the first electrode pair includes an electrode other than any electrode that is to radiate or to guide a component of the RF electromagnetic wave. 6. The device of claim 5 , wherein each electrode of the first electrode pair is an electrode other than any electrode that is to radiate or to guide a component of the RF electromagnetic wave. 7. A device comprising: a communication unit to radiate or to guide a radio frequency (RF) electromagnetic wave, the communication unit including: a plurality of electrodes; and a liquid crystal cell disposed between at least two electrodes of the plurality of electrodes; and voltage control circuitry coupled to the communication unit, the voltage control circuitry to apply a first electrical field to drive the liquid crystal cell from a first state toward a second state, wherein the liquid crystal cell has a first permittivity during the first state and a second permittivity during the second state, the voltage control circuitry further to apply a second electrical field to drive the liquid crystal cell from the second state toward the first state, wherein the first electrical field has a first direction and a first non-zero magnitude at a first location of the liquid crystal cell, and wherein the second electrical field has a second direction and a second non-zero magnitude at the first location, the second direction other than the first direction, wherein the first direction is opposite the second direction. 8. A method of operating a communication device having a plurality of electrodes that includes a first electrode pair, the method comprising: applying a first electrical field to drive a liquid crystal cell of the communication device from a first state toward a second state, wherein the liquid crystal cell has a first permittivity during the first state and a second permittivity during the second state, wherein applying the first electrical field includes concurrently providing a first voltage to each electrode of the first electrode pair; applying a second electrical field to drive the liquid crystal cell of the communication device from the second state toward the first state, wherein the first electrical field has a first direction and a first non-zero magnitude at a first location of the liquid crystal cell, and wherein the second electrical field has a second direction and a first non-zero magnitude at the first location, the second direction other than the first direction; and during one of the first state and the second state, radiating or guiding a radio frequency electromagnetic wave with the liquid crystal cell, wherein the RF electromagnetic wave is radiated or guided with the liquid crystal cell during the second state, and wherein, during the second state, the electrodes of the first electrode pair each radiate or guide a respective component of the RF electromagnetic wave. 9. The method of claim 8 , wherein applying the second electrical field includes concurrently providing different voltages each to a respective electrode of the first electrode pair. 10. A method of operating a communication device having a plurality of electrodes that includes a first electrode pair, the method comprising: applying a first electrical field to drive a liquid crystal cell of the communication device from a first state toward a second state, wherein the liquid crystal cell has a first permittivity during the first state and a second permittivity during the second state, wherein applying the second electrical field includes concurrently providing different voltages each to a respective electrode of the first electrode pair; applying a second electrical field to drive the liquid crystal cell of the communication device from the second state toward the first state, wherein the first electrical field has a first direction and a first non-zero magnitude at a first location of the liquid c