On-chip differential wilkinson divider/combiner

What is claimed is: 1. A differential power divider/combiner, comprising: a first pair of transmission lines coupled between a differential input and a first differential output, wherein a first transmission line and a second transmission line of the first pair of transmission lines are disposed to form respective first and second open loops that are adjacent to one another between the differential input and the first differential output, and cross over one another in a first crossover region; a second pair of transmission lines coupled between the differential input and a second differential output, wherein a third transmission line and a fourth transmission line of the second pair of transmission lines are disposed to form respective third and fourth open loops that are adjacent to one another between the differential input and the second differential output, and cross over one another in a second crossover region; a first resistor coupled between the first transmission line and the third transmission line; and a second resistor coupled between the second transmission line and the fourth transmission line. 2. The differential power divider/combiner of claim 1 , wherein the adjacent portions of the first open loop and the second open loop are arranged substantially parallel to each other and carry respective currents that flow in a same direction so as to constructively contribute to a magnetic field. 3. The differential power divider/combiner of claim 1 , wherein the adjacent portions of the third open loop and the fourth open loop are arranged substantially parallel to each other and carry respective currents that flow in a same direction so as to constructively contribute to a magnetic field. 4. The differential power divider/combiner of claim 1 , wherein the first open loop and the second open loop include at least one vertical portion and at least one horizontal portion that is orthogonal to the at least one vertical portion. 5. The differential power divider/combiner of claim 1 , wherein the third open loop and the fourth open loop include at least one vertical portion and at least one horizontal portion that is orthogonal to the at least one vertical portion. 6. The differential power divider/combiner of claim 1 , wherein the first transmission line and the second transmission line provide respective first and second quarter wave transformers between the differential input and the first differential output. 7. The differential power divider/combiner of claim 1 , wherein the third transmission line and the fourth transmission line provide respective first and second quarter wave transformers between the differential input and the second differential output. 8. The differential power divider/combiner of claim 1 , wherein the first pair of transmission lines and the second pair of transmission lines each comprise a plurality of metal layers. 9. The differential power divider/combiner of claim 8 , wherein the plurality of metal layers comprises two metal layer windings laid over one another. 10. The differential power divider/combiner of claim 9 , wherein a first layer of the metal layer windings comprises an under redistribution layer (“U-RDL”) and a second layer of the metal layer windings comprises an ultra-thick metal layer (“UTM”). 11. The differential power divider/combiner of claim 10 , wherein the U-RDL and the UTM are coupled to each other using a plurality of redistribution vias. 12. A differential power divider/combiner, comprising: a first pair of transmission lines coupled between a differential input and a first differential output, wherein a first transmission line and a second transmission line of the first pair of transmission lines comprise a plurality of metal layers, and are disposed to form respective first and second open loops that are adjacent to one another between the differential input and the first differential output, and cross over one another in a first crossover region; a second pair of transmission lines coupled between the differential input and a second differential output, wherein a third transmission line and a fourth transmission line of the second pair of transmission lines comprise a plurality of metal layers, and are disposed to form respective third and fourth open loops that are adjacent to one another between the differential input and the second differential output, and cross over one another in a second crossover region; a first resistor coupled between the first transmission line and the third transmission line; and a second resistor coupled between the second transmission line and the fourth transmission line. 13. The differential power divider/combiner of claim 12 , wherein: the adjacent portions of the first open loop and second open loop are arranged substantially parallel to each other and carry respective currents that flow in a same direction so as to constructively contribute to a first magnetic field; and the adjacent portions of the third open loop and the fourth open loop are arranged substantially parallel to each other and carry respective currents that flow in a same direction so as to constructively contribute to a second magnetic field. 14. The differential power divider/combiner of claim 12 , wherein: the first open loop and the second open loop include at least one vertical portion and at least one horizontal portion that are orthogonal to each other; and the third open loop and the fourth open loop include at least one vertical portion and at least one horizontal portion that are orthogonal to each other. 15. The differential power divider/combiner of claim 12 , wherein: the first transmission line and the second transmission line provide respective first and second quarter wave transformers between the differential input and the first differential output; and the third transmission line and the fourth transmission line provide respective first and second quarter wave transformers between the differential input and the second differential output. 16. The differential power divider/combiner of claim 12 , wherein the plurality of metal layers comprises two metal layer windings laid over one another and coupled to each other using a plurality of redistribution vias. 17. The differential power divider/combiner of claim 16 , wherein a first layer of the metal layer windings comprises an under redistribution layer (“U-RDL”) and a second layer of the metal layer windings comprises an ultra-thick metal layer (“UTM”). 18. A differential power divider/combiner, comprising: a first pair of transmission lines coupled between a differential input and a first differential output, wherein a first transmission line and a second transmission line are disposed to form respective first and second open loops that are adjacent to one another between the differential input and the first differential output, and cross over one another in a first crossover region, and wherein the adjacent portions of the first open loop and second open loop are arranged substantially parallel to each other and carry respective currents that flow in a same direction so as to constructively contribute to a first magnetic field; a second pair of transmission lines coupled between the differential input and a second differential output, wherein a third transmission line and a fourth transmission line of the second pair of transmission lines are disposed to form respective third and fourth open loops that are adjacent to one another between the differential input and the second differential output, and cross over one another in