Radio frequency signal splitter

What we claim is: 1. A radio frequency signal splitter comprising: a first output port; a second output port; a signal transmission path configured to conduct signals between the first output port and the second output port; a first electrically conductive wire portion, and a second electrically conductive wire portion, wherein the first electrically conductive wire portion and the second electrically conductive wire portion are configured to reduce isolation on the signal transmission path for frequencies of the signals in a first frequency band more than for the frequencies of the signals outside the first frequency band. 2. The splitter of claim 1 , wherein: the signal transmission path is configured to conduct in-home entertainment signals between the first output port and the second output port, and the first frequency band is an in-home entertainment frequency band. 3. The splitter of claim 2 , in-home entertainment frequency band is about 1125 MHz to about 1675 MHz. 4. The splitter of claim 1 , wherein the first electrically conductive wire portion and the second electrically conductive wire portion are configured to reduce the isolation on the signal transmission path via electrostatic coupling between the first electrically conductive wire portion and the second electrically conductive wire portion. 5. A radio frequency signal splitter comprising: a first output port; a second output port; a signal transmission path configured to conduct signals between the first output port and the second output port; and a first electrically conductive wire portion and a second electrically conductive wire portion configured to reduce isolation on the signal transmission path for the signals conducted between the first output port and the second output port, wherein the first electrically conductive wire portion comprises: a first electrically conductive wire length; a first electrically conductive wire first end electrically coupled to the signal transmission path; and a first electrically conductive wire second end, wherein the first electrically conductive wire second end is un-terminated; and wherein the second electrically conductive wire portion comprises: a second electrically conductive wire length; a second electrically conductive wire first end electrically coupled to the signal transmission path; and a second electrically conductive wire second end, wherein the second electrically conductive wire second end is un-terminated. 6. The splitter of claim 5 , wherein the first electrically conductive wire first end is coupled to the first output port, and the second electrically conductive wire first end is coupled to the second output port. 7. A radio frequency signal splitter comprising: a first output port; a second output port; a signal transmission path configured to conduct signals between the first output port and the second output port; and a first electrically conductive wire portion and a second electrically conductive wire portion configured to reduce isolation on the signal transmission path for the signals conducted between the first output port and the second output port, wherein the signal transmission path comprises: a resistor; a first inductor positioned between the first output port and the resistor; and a second inductor positioned between the second output port and the resistor. 8. A radio frequency signal splitter comprising: a first output port; a second output port; a signal transmission path configured to conduct signals between the first output port and the second output port; and a first electrically conductive wire portion and a second electrically conductive wire portion configured to reduce isolation on the signal transmission path for the signals conducted between the first output port and the second output port, wherein the coupled transmission line element further comprises a third electrically conductive wire portion configured to: electrically couple to a current return path; and electrostatically couple to both the first and the second electrically conductive wire portions. 9. The splitter of claim 8 , wherein the current return path is electrically grounded. 10. The splitter of claim 1 , wherein the first electrically conductive wire portion is configured to electrostatically couple to the second electrically conductive wire portion without creating an electrical short circuit between the first electrically conductive wire portion and the second electrically conductive wire portion. 11. A signal splitter comprising: a first output port; a second output port; a signal transmission path between the first output port and the second output port; a first electrically conductive wire coupled to the signal transmission path; and a second electrically conductive wire coupled to the signal transmission path, wherein: the signal transmission path is configured to provide an amount of isolation between the first output port and the second output port; the first electrically conductive wire and the second electrically conductive wire are configured to electrostatically couple together so as to reduce the amount of isolation for signals having frequencies in a first frequency band in relation to signals having frequencies outside the first frequency band. 12. The signal splitter of claim 11 , wherein the first electrically conductive wire and the second electrically conductive wire are twisted together. 13. The signal splitter of claim 11 , wherein the first electrically conductive wire and the second electrically conductive wire are configured to electrostatically couple without any electrical short circuit connection between the first electrically conductive wire and the second electrically conductive wire. 14. The signal splitter of claim 11 , further comprising a third electrically conductive wire portion configured to: electrically couple to a current return path; and electrostatically couple to both the first electrically conductive wire and the second electrically conductive wire. 15. The signal splitter of claim 14 , wherein an end of the third electrically conductive wire is electrically grounded. 16. A signal splitter comprising: a signal transmission path configured to conduct signals between a first output port and a second output port, and a transmission line element configured to electrically couple to the signal transmission path, the transmission line element comprising a first electrical conductor and a second electrical conductor, wherein: the signal transmission path includes a first inductor configured to electrically couple to the first output port, the signal transmission path includes a second inductor configured to electrically couple to the second output port, a first end of the first electrical conductor is configured to electrically couple to a node between the first inductor and the first output port, and a first end of the second electrical conductor is configured to electrically couple to a node between the second inductor and the second output port. 17. The signal splitter of claim 16 , wherein the first electrical conductor and the second electrical conductor are configured to electrostatically couple. 18. The signal splitter of claim 16 , wherein: the signal transmission path includes a resistor; the first inductor is positioned between the first output port and the resistor, and the second inductor is positioned between the second output port and the resistor. 19. The signal splitter