Techniques for filtering multi-component signals

What is claimed is: 1 . A signal extraction system for separating a modulated data component and a power component from a wirelessly received multi-component signal, the apparatus comprising: a signal splitting element configured to replicate the multi-component signal on a first signal processing path and a second signal processing path; a filter network element coupled to the two-way signal splitting element, the filter element configured to remove the modulated data component from the multi-component signal on the second signal processing path; a signal separation element communicatively coupled to the two-way splitting element and the filter network element via the first signal processing path and the second signal processing path, the signal separation element configured to couple in-phase input signals to constructively generate a sum signal and destructively generate a difference signal, wherein the sum signal comprises the power component and the difference signal comprises the modulated data component; and a delay element configured to delay first signals on the first signal processing path or second signals the second signal processing path such that the input signals are in-phase at the signal separation element. 2 . The signal extraction apparatus of claim 1 , wherein the signal separation element comprises a rat-race coupler having four ports, each port situated one quarter wavelength away from each other around the top half of a ring, wherein the four ports include two input ports, a summation output port and a delta output port. 3 . The signal extraction apparatus of claim 1 , wherein the signal splitting element comprises a two-way signal splitting element. 4 . The signal extraction apparatus of claim 1 , wherein the modulated data component and the power component are received simultaneously at one or more antennas resulting in the received multi-component signal. 5 . The signal extraction apparatus of claim 4 , wherein the modulated data component is transmitted by one or more antennas of a modulated data source and the wireless power component is transmitted by one or more antenna of a wireless charger. 6 . The signal extraction apparatus of claim 1 , further comprising: first routing circuitry configured to route the power component to wireless power processing circuitry; and second routing circuitry configured to rout the modulated data component to modulated data processing circuitry. 7 . The signal extraction apparatus of claim 1 , wherein the filter network element comprises a band-pass filter. 8 . The signal extraction apparatus of claim 1 , wherein the filter network element further comprises: an N-way splitter configured to evenly split the multi-component signal into multiple sub-signals, wherein each of the multiple sub-signals have a corresponding power and modulated data sub-component; a delay network configured to route the multiple sub-signals through delays that are integer multiples of a wavelength of the multi-component signal; an N-way combiner configured to combine outputs of the delay network such that the power sub-components add constructively and the modulated data sub-components average out through the delay network. 9 . The signal extraction apparatus of claim 1 , wherein the filter network element results in a one hundred and eighty degree phase shift. 10 . An electronic device comprising: one or more antennas configured to receive a multi-component signal, wherein the multi-component signal includes a modulated data component and a wireless power component; a signal extraction system for extracting the modulated data component and the wireless power component from the multi-component signal, the apparatus comprising: a signal splitting element configured to replicate the multi-component signal on a first signal processing path and a second signal processing path; a filter network element coupled to the two-way signal splitting element, the filter element configured to remove the modulated data component from the multi-component signal on the second signal processing path; a signal separation element communicatively coupled to the two-way splitting element and the filter network element via the first signal processing path and the second signal processing path, the signal separation element configured to couple in-phase input signals to constructively generate a sum signal and destructively generate a difference signal, wherein the sum signal comprises an extracted power component and the difference signal comprises an extracted modulated data component; and a delay element configured to delay first signals on the first signal processing path or second signals the second signal processing path so that the input signals are in-phase at the signal separation element. 11 . The electronic device of claim 10 , further comprising: modulated data processing circuitry configured to process the extracted modulated data component. 12 . The electronic device of claim 10 , further comprising: wireless power receiver circuitry configured to process the extracted wireless power component. 13 . The electronic device of claim 10 , wherein the modulated data component and the power component are received simultaneously at the one or more antennas resulting in the received multi-component signal. 14 . The electronic device of claim 10 , wherein the filter network element comprises a band-pass filter. 15 . The electronic device of claim 10 , wherein the filter network element further comprises: an N-way splitter configured to evenly split the multi-component signal into multiple sub-signals, wherein each of the multiple sub-signals have a corresponding power and modulated data sub-component; a delay network configured to route the multiple sub-signals through delays that are integer multiples of a wavelength of the multi-component signal; an N-way combiner configured to combine outputs of the delay network such that the power sub-components add constructively and the modulated data sub-components average out through the delay network. 16 . The electronic device of claim 10 , wherein the signal separation element comprises a rat-race coupler having four ports each situated one quarter wavelength away from each other around the top half of a ring, wherein the four ports include two input ports, a summation output port and a delta output port. 17 . The signal extraction apparatus of claim 1 , wherein the signal splitting element comprises a two-way signal splitting element, and wherein the filter network element results in a one hundred and eighty degree phase shift. 18 . A method of separating a modulated data component and a power component from a multi-component signal, the method comprising: receiving a first signal at a first input port of an extraction element, wherein the first signal is received over a first path and includes the modulated data component and the power component; receiving a second signal at a second input port of the extraction element, wherein the second signal is received at the second port over a second path in-phase with the first signal at the first port, the second signal comprising a portion of the multi-component signal including the power component; coupling the first and second in-phase signals to constructively generate a sum signal and destructively generate a difference signal, wherein the sum signal comprises the power component and the difference signal comprises the modulated data component.