Solar cell assembly

The invention claimed is: 1. A solar cell assembly comprising: a first solar cell unit, comprising: a first solar cell series including a plurality of half-cut solar cells connected in series; a second solar cell series, coupled in parallel with the first solar cell series, including a plurality of half-cut solar cells connected in series; a first bypass diode coupled in parallel with the first solar cell series and the second solar cell series; and a first junction box containing the first bypass diode; and a second solar cell unit, coupled in series with the first solar cell unit, comprising: a third solar cell series including a plurality of half-cut solar cells connected in series: a fourth solar cell series, coupled in parallel with the third solar cell series, including a plurality of half-cut solar cells connected in series; a second bypass diode coupled in parallel with the third solar cell series and the fourth solar cell series; and a second junction box containing the second bypass diode. 2. The solar cell assembly of claim 1 wherein the first solar cell series has substantially the same open circuit voltage, Voc, as the second solar cell series in the solar cell unit. 3. The solar cell assembly of claim 1 , wherein the first and second solar cell series are mirror images of each other with respect to the bypass diode of the first solar cell unit, and the third and fourth solar cell series are mirror images of each other with respect to the bypass diode of the second solar cell unit. 4. The solar cell assembly of claim 1 , wherein the first and second solar cell series are coupled with the bypass diode of the first solar cell unit via a first cross-connector, and the third and fourth solar cell series are coupled with the bypass diode of the second solar cell unit via a second cross-connector. 5. The solar cell assembly of claim 4 , further comprising a central cross-connector assembly combining the first cross-connector and the second cross-connector as a single assembly. 6. The solar cell assembly of claim 5 wherein the central cross-connector assembly is placed substantially in a centre line of the solar cell assembly. 7. The solar cell assembly in of claim 1 , further comprising a third solar cell unit including: a fifth solar cell series including a plurality of half-cut solar cells connected in series; a sixth solar cell series, coupled in parallel with the fifth solar cell series, including a plurality of half-cut solar cells connected in series; and an integrated bypass diode integrated in a laminate of the solar cell assembly, the integrated bypass diode being outside the first and second junction boxes and coupling the fifth solar cell series and the sixth solar cell series in parallel. 8. The solar cell assembly of claim 7 , wherein the first and second junction boxes are located substantially near an edge of the solar cell assembly, and the integrated bypass diode is located substantially at a centerline of the solar cell assembly. 9. The solar cell assembly of claim 7 , wherein the integrated bypass diode is coupled to the fifth and sixth solar cell series via a a cross-connector. 10. The solar cell assembly of claim 9 , wherein the cross-connector comprises a corrugation structure for stress relief to prevent the integrated bypass diode and a mechanical connection between the integrated bypass diode and the cross-connector from cracking due to electrical or mechanical overstresses. 11. The solar cell assembly of claim 1 , wherein the first and second junction boxes are placed substantially in a centerline of the solar cell assembly. 12. The solar cell assembly of claim 7 , further comprising external terminals for coupling to output cross-connectors of the integrated bypass diode, the external terminals and the integrated bypass diode being placed near an edge of the solar cell assembly. 13. The solar cell assembly of claim 1 , wherein the first solar cell series and the second solar cell series are coupled in parallel with the first bypass diode a via first cross-connector, the third solar cell series and the fourth solar cell series are coupled in parallel with the second by pass diode via a second cross-connector, and the first and second cross-connectors are combined as one central cross-connector assembly placed substantially in a centerline of the solar cell assembly.