Feedback receive path with RF filter

What is claimed is: 1. An apparatus comprising: an elliptical inductance-capacitance (LC) filter; and a resistive-capacitive (RC) notch filter serially coupled to an output of the elliptical LC filter, the elliptical LC filter and the RC notch filter configured to filter a radio-frequency (RF) signal received by a feedback receive path of a transmitter. 2. The apparatus of claim 1 , further comprising a bypass circuit, wherein the bypass circuit comprises: a first stage bypass transistor coupled to the elliptical LC filter; and a second stage bypass transistor coupled to the RC notch filter. 3. The apparatus of claim 1 , further comprising a bypass circuit, the bypass circuit comprising a multiple-stage bypass transistor coupled to an input of the elliptical LC filter and to an output of the RC notch filter. 4. An apparatus comprising: an elliptical inductance-capacitance (LC) filter, and a resistive-capacitive (RC) notch filter, the elliptical LC filter and the RC notch filter configured to filter an RF signal received by a feedback receive path of a transmitter coupled to an antenna interface circuit and coupled to a data processor or controller, and the elliptical LC filter serially coupled to an output of the RC notch filter. 5. The apparatus of claim 4 , wherein the transmitter is coupled between the antenna interface circuit and the data processor or controller, and further comprising a bypass circuit, the bypass circuit comprising a multiple-stage bypass transistor coupled to each of the elliptical LC filter and the RC notch filter. 6. The apparatus of claim 4 , further comprising a bypass circuit configured to enable the RF signal to bypass the RC notch filter or to bypass the elliptical LC filter, wherein the bypass circuit comprises: a first stage bypass transistor coupled to the RC notch filter; and a second stage bypass transistor coupled to the elliptical LC filter. 7. The apparatus of claim 4 , wherein the RC notch filter comprises: a first resistor coupled to a first node and to a second node; a first capacitor coupled to the first node and to a third node; a second resistor coupled to the second node and to a fourth node; and a second capacitor coupled to the third node and to the fourth node. 8. The apparatus of claim 4 , wherein the elliptical LC filter comprises: a first capacitor coupled to a first node and to a second node; an inductor coupled to the first node and to the second node; a second capacitor coupled to the first node and to a third node; a third capacitor coupled to the second node and to the third node; and a resistor coupled to the second node and to the third node. 9. The apparatus of claim 1 , wherein the elliptical LC filter comprises: a first capacitor coupled to a first node and to a second node; an inductor coupled to the first node and to the second node; a second capacitor coupled to the first node and to a third node; a third capacitor coupled to the second node and to the third node; and a resistor coupled to the second node and to the third node. 10. The apparatus of claim 1 , wherein the RC notch filter comprises: a first resistor coupled to a first node and to a second node; a first capacitor coupled to the first node and to a third node; a second resistor coupled to the second node and to a fourth node; and a second capacitor coupled to the third node and to the fourth node. 11. The apparatus of claim 10 , wherein the RC notch filter further comprises a third resistor and a third capacitor coupled in series between the second node and the third node. 12. The apparatus of claim 1 , wherein the feedback receive path is coupled to a coupler of an RF transmission path of a transmitter, and further comprising a multi-stage bypass circuit configured to enable the RF signal to bypass the elliptical LC filter and the RC notch filter, wherein the multi-stage bypass circuit comprises a multiple-stage bypass transistor coupled to each of the elliptical LC filter and the RC notch filter. 13. The apparatus of claim 1 , wherein the elliptical LC filter and the RC notch filter are included in a RF filter that is configured to attenuate components of the RF signal that correspond to a third harmonic of a carrier frequency of the RF signal. 14. The apparatus of claim 1 , wherein the elliptical LC filter includes a variable resistor and is directly connected to the RC notch filter. 15. An apparatus comprising: means for elliptical inductance-capacitance (LC) filtering; and means for resistive-capacitive (RC) notch filtering serially coupled to an output of the means for elliptical LC filtering, the means for elliptical LC filtering and the means for RC notch filtering configured to filter a radio-frequency (RF) signal received by a feedback receive path of a transmitter. 16. The apparatus of claim 15 , wherein the means for elliptical LC filtering and the means for RF notch filtering are included in a transceiver chip. 17. The apparatus of claim 15 , further comprising means for bypassing at least one of the means for elliptical LC filtering or the means for RC notch filtering. 18. The apparatus of claim 15 , wherein the means for elliptical LC filtering or the means for RC notch filtering includes an adjustable component. 19. A method comprising: receiving a radio-frequency (RF) signal at a feedback receive path of a transmitter; filtering the RF signal at an elliptical inductance-capacitance (LC) filter; and filtering an output of the elliptical LC filter with a resistive-capacitive (RC) notch filter. 20. The method of claim 19 , further comprising adjusting a characteristic of at least one component of the elliptical LC filter or the RC notch filter. 21. The method of claim 19 , further comprising receiving a control signal at a bypass circuit that is configured to enable the RF signal to bypass at least one of the elliptical LC filter or the RC notch filter.