Dual band mixer

What is claimed is: 1. A dual-band mixer circuit comprising: a mixer configured to receive an input signal and a local oscillator (LO) signal and to generate an output frequency signal; and a switchable inductance circuit coupled to an output of the mixer, and comprising: a transformer comprising a primary inductor and a secondary inductor, the primary inductor being electrically coupled to the output of the mixer and the secondary inductor being electrically isolated from the output of the mixer; a capacitor electrically coupled to the secondary inductor; and a switch directly coupled in parallel with the capacitor and the secondary inductor. 2. The dual-band mixer circuit of claim 1 , wherein the mixer is configured to generate the output frequency signal within a first frequency band or a second frequency band, and wherein the first frequency band does not overlap with the second frequency band. 3. The dual-band mixer circuit of claim 1 , wherein the input signal is an intermediate frequency signal, and the output frequency signal is a radio frequency signal. 4. The dual-band mixer circuit of claim 1 , wherein the input signal is a radio frequency signal, and the output frequency signal is an intermediate frequency signal. 5. The dual-band mixer circuit of claim 1 , wherein the mixer is configured to generate the output frequency signal within a first frequency band or a second frequency band, wherein the switch is configured to activate or deactivate based on a control signal, and wherein the mixer is configured to generate the output frequency signal at the second frequency band in response to the switch being activated, and to generate the output frequency signal at the first frequency band in response to the switch being deactivated. 6. The dual-band mixer circuit of claim 5 , wherein the first and second frequency bands are centered at 28 GHz and 39 GHz, respectively. 7. The dual-band mixer circuit of claim 1 , wherein the mixer is configured to generate the output frequency signal within a first frequency band or a second frequency band, wherein the primary inductor and the secondary inductor comprise first turns and second turns, the first and second turns being mutually concentric, and wherein the primary and secondary inductors are stacked in parallel at different physical layers. 8. The dual-band mixer circuit of claim 7 , wherein a center of the first frequency band is based on a first distance between adjacent ones of the first turns, a second distance between innermost turn of the second turns and an outermost turn of the first turns, a third distance between adjacent ones of the second turns, a capacitance value of the capacitor, and wherein a frequency separation between the first and second frequency bands is based on the second and third distances. 9. The dual-band mixer circuit of claim 1 , wherein the transformer is a 1:1 transformer, wherein the capacitor is a metal-oxide-metal (MOM) capacitor, and wherein the switch is a metal-oxide-semiconductor field effect transistor (MOSFET). 10. The dual-band mixer circuit of claim 1 , wherein the mixer is a gilbert cell mixer. 11. A transceiver comprising: a frequency band selector configured to generate a control signal; a mixer configured to receive an input signal and a local oscillator (LO) signal and to generate an output frequency signal; and a switchable inductance circuit electrically coupled to an output of the mixer, and comprising: a transformer comprising a primary inductor and a secondary inductor, the primary inductor being electrically coupled to the output of the mixer and the secondary inductor being electrically isolated from the output of the mixer; a capacitor electrically coupled to the secondary inductor; and a switch directly coupled in parallel with the capacitor and the to secondary inductor, the switch being configured to activate or deactivate based on the control signal. 12. The transceiver of claim 11 , further comprising a local oscillator configured to generate the LO signal at an LO frequency. 13. The transceiver of claim 11 , wherein the mixer is configured to generate the output frequency signal within a first frequency band or a second frequency band, and wherein the first frequency band does not overlap with the second frequency band. 14. The transceiver of claim 11 , wherein the mixer is configured to generate the output frequency signal within a first frequency band or a second frequency band, wherein the switch is configured to activate or deactivate based on a control signal, and wherein the mixer is configured to generate the output frequency signal at the second frequency band in response to the switch being activated, and to generate the output frequency signal at the first frequency band in response to the switch being deactivated. 15. The transceiver of claim 14 , wherein the first and second frequency band are centered at 28 GHz and 39 GHz, respectively. 16. The transceiver of claim 11 , wherein the input signal is an intermediate frequency signal, and the output frequency signal is a radio frequency signal. 17. A method of operating a dual-band mixer circuit comprising: activating, by a frequency band selector, a switch of the dual-band mixer circuit to operate at a first frequency band; and deactivating, by the frequency band selector, the switch of the dual-band mixer circuit to operate at a second frequency band, the dual-band mixer circuit comprising: a mixer configured to receive an input signal and a local oscillator (LO) signal and to generate an output frequency signal within the first frequency band or the second frequency band; and a switchable inductance circuit electrically coupled to an output of the mixer, and comprising: a transformer comprising a primary inductor and a secondary inductor, the primary inductor being electrically coupled to the output of the mixer and the secondary inductor being electrically isolated from the output of the mixer; a capacitor electrically coupled to the secondary inductor; and the switch that is directly coupled in parallel with the capacitor and the secondary inductor, the switch being configured to activate or deactivate based on a control signal from the frequency band selector.