Dual voltage controlled oscillator circuits for a broadband phase locked loop for multi-band millimeter-wave 5G communication

What is claimed is: 1. A dual voltage controlled oscillator (VCO) circuit, the circuit comprising: a first VCO circuit to generate a first signal having a first frequency in a first frequency band, the first VCO circuit including: a first variable capacitor having an input node, a first output node, and a second output node; a second variable capacitor connected in parallel with the first variable capacitor; a first transistor having a first drain terminal, a first gate terminal, and a first source terminal, wherein the first drain terminal is coupled to the first output node, the first gate terminal is coupled to the second output node, and the first source terminal is coupled to a ground node; and a second transistor having a second drain terminal, a second gate terminal, and a second source terminal, wherein the second drain terminal is coupled to the second output node and the second gate terminal is coupled to the first output node, and the second source terminal is coupled to the ground node; a second VCO circuit to generate a second signal having a second frequency in a second frequency band greater than the first frequency band, the second VCO circuit including: a third variable capacitor having the input node, a third output node, and a fourth output node; a fourth variable capacitor connected in parallel with the third variable capacitor; a third transistor having a third drain terminal, a third gate terminal, and a third source terminal, wherein the third drain terminal is coupled to the third output node, the third gate terminal is coupled to the fourth output node, and the third source terminal is coupled to the ground node; and a fourth transistor having a fourth drain terminal, a fourth gate terminal, and a fourth source terminal, wherein the fourth drain terminal is coupled to the fourth output node, the fourth gate terminal is coupled to the third output node, and the fourth source terminal is coupled to the ground node; a first inductor coupled in between the first output node and the second output node to resonate with the first and the second variable capacitors at the first frequency; and a second inductor coupled in between the third output node and the fourth output node to resonate with the third and the fourth variable capacitors at the second frequency, wherein the first frequency band is approximately 18.5 GHz to 26.5 GHz and the second frequency band is approximately 31.5 GHz to 41.5 GHz. 2. The dual VCO circuit of claim 1 , wherein the first inductor and the second inductor are both loop inductors and the first inductor overlays an area of the second inductor such that the first inductor and the second inductor together has a single inductor footprint. 3. The dual VCO circuit of claim 1 , wherein the first VCO is enable and the second VCO is disable or the first VCO is disable and the second VCO is enable. 4. A dual voltage controlled oscillator (VCO) circuit, the circuit comprising: a first VCO circuit to generate a first signal having a first frequency in a first frequency band, the first VCO circuit including: a first variable capacitor having an input node, a first output node, and a second output node; a second variable capacitor connected in parallel with the first variable capacitor; a first transistor having a first drain terminal, a first gate terminal, and a first source terminal, wherein the first drain terminal is coupled to the first output node, the first gate terminal is coupled to the second output node, and the first source terminal is coupled to a ground node; and a second transistor having a second drain terminal, a second gate terminal, and a second source terminal, wherein the second drain terminal is coupled to the second output node and the second gate terminal is coupled to the first output node, and the second source terminal is coupled to the ground node; a second VCO circuit to generate a second signal having a second frequency in a second frequency band greater than the first frequency band, the second VCO circuit including: a third variable capacitor having the input node, a third output node, and a fourth output node; a fourth variable capacitor connected in parallel with the third variable capacitor; a third transistor having a third drain terminal, a third gate terminal, and a third source terminal, wherein the third drain terminal is coupled to the third output node, the third gate terminal is coupled to the fourth output node, and the third source terminal is coupled to the ground node; and a fourth transistor having a fourth drain terminal, a fourth gate terminal, and a fourth source terminal, wherein the fourth drain terminal is coupled to the fourth output node, the fourth gate terminal is coupled to the third output node, and the fourth source terminal is coupled to the ground node; a first inductor coupled in between the first output node and the second output node to resonate with the first and the second variable capacitors at the first frequency; a second inductor coupled in between the third output node and the fourth output node to resonate with the third and the fourth variable capacitors at the second frequency; a first buffer output network circuit coupled in between the first output node and the second output node; and a second buffer output network circuit coupled in between the third output node and fourth second output node. 5. The dual VCO circuit of claim 4 , wherein the first buffer output network and the second buffer output network are second order output networks. 6. The dual VCO circuit of claim 4 , wherein the first buffer output network and the second buffer output network includes a first transformer and a second transformer respectively. 7. The dual VCO circuit of claim 4 , wherein the first transformer has a leakage inductance and a magnetic inductance together with a parasitic capacitance seen by the first transformer and a capacitance of a secondary winding of the first transformer resonate at a third frequency and a fourth frequency. 8. The dual VCO circuit of claim 4 , wherein the second transformer has a leakage inductance and a magnetic inductance together with a parasitic capacitance seen by the second transformer and a capacitance of a secondary winding of the second transformer resonate at a fifth frequency and a sixth frequency. 9. The dual VCO circuit of claim 5 , wherein the first transformer and the second transformer each have a transformer turn ratio of approximately 1 to 1.5. 10. A dual voltage controlled oscillator (VCO) circuit, the circuit comprising: a first VCO circuit to generate a first signal having a first frequency in a first frequency band, the first VCO circuit including: a first variable capacitor having an input node, a first output node, and a second output node; a second variable capacitor connected in parallel with the first variable capacitor; a first transistor having a first drain terminal, a first gate terminal, and a first source terminal, wherein the first drain terminal is coupled to the first output node, the first gate terminal is coupled to the second output node, and the first source terminal is coupled to a ground node; and a second transistor having a second drain terminal, a second gate terminal, and a second source terminal, wherein the second drain terminal is coupled to the second output node and the second gate terminal is coupled to the first output node, and the second source terminal is coupled to the ground node; a second VCO circuit to generate a second signal having a second frequency in a second frequency band greater than the first frequency band, the second VCO circuit including: a third variable capacitor having the input node, a t