System and apparatus for on-substrate circuit configured to operate as transformer

What is claimed: 1. An apparatus, comprising: a substrate; and a circuit formed on the substrate, the circuit comprising: a first transformer having first input nodes and first output nodes; a second transformer having second input nodes and second output nodes, wherein the first input nodes of the first transformer and the second input nodes of the second transformer are connected, wherein at least one first output node of the first output nodes of the first transformer and at least one second output node of the second output nodes of the second transformer are connected; a first capacitor connected to one of the first output nodes of the first transformer and to one of the second output nodes of the second transformer, wherein the first capacitor is connected to a first ground; a switch; and a second capacitor connected between one of the second output nodes of the second transformer and the switch. 2. The apparatus of claim 1 , wherein the circuit operates as a transformer. 3. The apparatus of claim 2 , wherein the circuit has a 1:2 voltage conversion ratio and a 1:4 impedance conversion ratio. 4. The apparatus of claim 2 , wherein the transformer is a wideband transformer. 5. The apparatus of claim 2 , wherein the circuit operates as a balun and the transformer. 6. The apparatus of claim 1 , wherein the first capacitor is connected between one of the first output nodes of the first transformer and the switch, wherein the second capacitor is connected to a second ground. 7. The apparatus of claim 6 , wherein the circuit further comprises: a first input terminal connected to a first of the first input nodes and to a first of the second input nodes; a second input terminal connected to a second of the first input nodes and to a second of the second input nodes; a first output terminal; and a second output terminal; wherein the apparatus further comprises: at least one first driver formed on the substrate and connected to the first input terminal; and at least one second driver formed on the substrate and connected to the second input terminal; wherein the circuit is configured to: receive at least one first input signal from the at least one first driver; and receive at least one second input signal from the at least one second driver. 8. The apparatus of claim 1 , wherein the circuit further comprises: a first input terminal connected to a first of the first input nodes and to a first of the second input nodes; a second input terminal connected to a second of the first input nodes and to a second of the second input nodes; a first output terminal; and a second output terminal; wherein the apparatus further comprises: at least one first driver formed on the substrate and connected to the first input terminal; and at least one second driver formed on the substrate and connected to the second input terminal; wherein the circuit is configured to: receive at least one first input signal from the at least one first driver; and receive at least one second input signal from the at least one second driver. 9. The apparatus of claim 8 , wherein the at least one first driver is at least one first voltage-mode (VM) driver, wherein the at least one second driver is at least one second VM driver, wherein each of the at least one first input signal is a first signal from one of the at least one first VM driver, wherein each of the at least one second input signal is a second signal from one of the at least one second VM driver. 10. The apparatus of claim 9 , wherein the circuit is configured to output common-mode (CM) and differential signals at the first output terminal and the second output terminal. 11. The apparatus of claim 1 , wherein each of the first transformer and the second transformer has a 1:1 voltage conversion ratio. 12. The apparatus of claim 1 , wherein the first capacitor is configured to receive common-mode (CM) signals from the first transformer and the second transformer. 13. A system, comprising: a circuit, comprising: a first transformer having first input nodes and first output nodes; a second transformer having second input nodes and second output nodes, wherein the first input nodes of the first transformer and the second input nodes of the second transformer are connected, wherein at least one first output node of the first output nodes of the first transformer and at least one second output node of the second output nodes of the second transformer are connected; and a first capacitor connected to one of the first output nodes of the first transformer and to one of the second output nodes of the second transformer, wherein the first capacitor is connected to a first ground; a first input terminal connected to a first of the first input nodes and to a first of the second input nodes; a second input terminal connected to a second of the first input nodes and to a second of the second input nodes; a first output terminal; and a second output terminal; at least one first driver connected to the first input terminal; and at least one second driver connected to the second input terminal; wherein the circuit is configured to: receive at least one first input signal from the at least one first driver; and receive at least one second input signal from the at least one second driver; wherein the at least one first driver is at least one first voltage-mode (VM) driver, wherein the at least one second driver is at least one second VM driver; wherein each of the at least one first input signal is a first signal from one of the at least one first VM driver; and wherein each of the at least one second input signal is a second signal from one of the at least one second VM driver. 14. The system of claim 13 , wherein the circuit is configured to output common-mode (CM) and differential signals at the first output terminal and the second output terminal. 15. A communication device, comprising: a circuit, comprising: a first transformer having first input nodes and first output nodes; a second transformer having second input nodes and second output nodes, wherein the first input nodes of the first transformer and the second input nodes of the second transformer are connected, wherein at least one first output node of the first output nodes of the first transformer and at least one second output node of the second output nodes of the second transformer are connected; a first capacitor connected to one of the first output nodes of the first transformer and to one of the second output nodes of the second transformer, wherein the first capacitor is connected to a first ground; a second capacitor connected to a second ground; and a switch; wherein the first capacitor is connected between one of the first output nodes of the first transformer and the switch, wherein the second capacitor is connected between one of the second output nodes of the second transformer and the switch. 16. The communication device of claim 15 , wherein the circuit further comprises: a first input terminal connected to a first of the first input nodes and to a first of the second input nodes; a second input terminal connected to a second of the first input nodes and to a second of the second input nodes; a first output terminal; and a second output terminal; wherein the communication device further comprises: at least one first driver connected to the first input terminal; and at least one second driver connected to the second input terminal; wherein the circuit is configured to: receive at least one first input signal from the at least one first driver; and receive at least one s