Variable inductor and wireless communication device including variable device for conversion of a baseband signal to a radio frequency (RF) range

What is claimed is: 1. A variable inductor, comprising: a signal wire; a control wire to receive a direct current (DC) control current; and a magnetic material substantially surrounding all sides of the signal wire and partially surrounding the control wire, wherein at least a portion of the control wire is exposed, the exposed portion of the control wire facing the signal wire, wherein applying a first DC control current value to the control wire generates a first inductance value, proportional to a permeability of the magnetic material, between an input node and an output node on the signal wire, and wherein applying a second DC control current value to the control wires generates a second inductance value between the input node and the output node. 2. The variable inductor according to claim 1 , wherein: the magnetic material operates according to a first permeability when a DC magnetic field applied to the magnetic material is in a first range of magnetic field strength; the magnetic material operates according to a second permeability when the DC magnetic field is in a second range of magnetic field strength; and the first inductance value is based on the first permeability and the second inductance value is based on the second permeability. 3. The variable inductor according to claim 2 , wherein the control wires generate the DC magnetic field in response to applying the DC control current to the control wires. 4. The variable inductor according to claim 3 , wherein: applying the first DC control current value generates the DC magnetic field in the first range of magnetic field strength, and applying the second DC control current value generates the DC magnetic field in the second range of magnetic field strength. 5. The variable inductor according to claim 2 , wherein: a magnetic flux density conducted by the magnetic material varies linearly with the magnetic field strength according to the first permeability, when the DC magnetic field is in the first range of magnetic field strength, and the magnetic flux density varies linearly with the magnetic field strength, according to the second permeability, when the DC magnetic field is in the second range of magnetic field strength. 6. The variable inductor according to claim 2 , wherein a saturation region of the magnetic material includes the second range of magnetic field strength and the second permeability is based on a permeability of free space. 7. The variable inductor according to claim 2 , wherein: applying a third DC control current value to the control wires generates a third inductance value between the input node and the output node, the magnetic material operates according to a third permeability when the DC magnetic field is in a third range of magnetic field strength; and the third inductance value is based on the third permeability. 8. The variable inductor according to claim 1 , wherein: the magnetic material includes a linear portion of the magnetic material, and the signal wire and the control wire are included as part of another wire. 9. The variable inductor according to claim 1 , wherein the variable inductor further includes a DC current source for applying the DC control current to the control wires. 10. The variable inductor according to claim 1 , wherein the magnetic material is integrated with the signal wire and the control wires in an integrated circuit. 11. A variable inductor comprising: a signal wire; a control wire to receive a direct current (DC) control current; and a linear portion of a magnetic material, wherein the signal wire encompasses the magnetic material in a perpendicular arrangement, such that at least a portion of the control wire is parallel to the linear portion of the magnetic material, and such that the portion of the control wire and the input node and the output node of the signal wire are positioned at the same side of the magnetic material. 12. The variable inductor according to claim 11 , wherein: the magnetic material includes an elliptical portion of the magnetic material that includes two linear sections in a parallel configuration, and the signal wire encompasses one of the linear sections in a perpendicular arrangement, such that at least the portion of the control wire is parallel to at least one of the linear sections of the magnetic material and such that the portion of the control wire and the input node and the output node of the signal wire are positioned at the same side of the magnetic material.