Apparatus and methods for communicating information and power via phase-cut ac waveforms

What is claimed is: 1 . A lighting fixture comprising: an input to receive an alternating current (AC) modified phase-cut waveform having multiple cycles that carries power to operate the lighting fixture, the AC modified phase-cut waveform having a plurality of ON times and/or plurality of phase angles; a power supply to convert the AC modified phase-cut waveform to DC power that is provided to at least two LED sources having different spectral emission characteristics; and a controller adapted to: receive a signal representative of the AC modified phase-cut waveform; detect modulations in the plurality of ON times and/or the plurality of phase angles from the signal; and control relative amounts of the DC power provided to the at least two LED sources based, at least in part, on the modulations to set a correlated color temperature (CCT) of light emitted from the lighting fixture. 2 . A method of operating a lighting fixture, the method comprising: receiving, at an input to the lighting fixture, an alternating current (AC) modified phase-cut waveform that carries power to operate the lighting fixture, the AC modified phase-cut waveform having a plurality of ON times and/or plurality of phase angles; converting, with a power supply in the lighting fixture, the AC modified phase-cut waveform to DC power; receiving, with a controller in the lighting fixture, a signal representative of the AC modified phase-cut waveform; detecting, with the controller, modulations in the plurality of ON times and/or the plurality of phase angles from the signal; and controlling, based at least in part on the modulations, relative amounts of the DC power provided to at least two LED sources having different spectral emission characteristics to set a correlated color temperature (CCT) of light emitted from the lighting fixture. 3 . The lighting fixture of claim 1 , wherein the modulations in the plurality of ON times and/or the plurality of phase angles convey digitally encoded CCT information that is decoded by the controller. 4 . The lighting fixture of claim 3 , wherein the controller is configured to do one or both of: (a) detect a digital bit of the digitally encoded CCT information as an increase in a first ON-time of the plurality of ON-times and a decrease in a second ON-time of the plurality of ON-times, the first ON-time occurring within a first half-cycle of a first cycle of the multiple cycles and the second ON-time occurring within a second half-cycle of the first cycle; and (b) detect the digital bit of the digitally encoded CCT information as an increase in a first phase angle of the plurality of phase angles and a decrease in a second phase angle of the plurality of phase angles, the first phase angle occurring within the first half-cycle of the first cycle of the multiple cycles and the second phase angle occurring within the second half-cycle of the first cycle. 5 . The lighting fixture of claim 4 , wherein the controller is further configured to detect, based upon the modulations, a sequence of digital bits of a data frame that includes the CCT information, wherein: the sequence of digital bits are encoded in a sequence of cycles within the multiple cycles; and each digital bit within the sequence of digital bits is detected by the controller from the modulations that occur within the sequence of cycles. 6 . The lighting fixture of claim 1 , further comprising: a current controller configured to control relative amounts of current flowing through two LED sources of the at least two LED sources, wherein the controller is further configured to output one signal to the current controller to control the relative amounts of the current flowing through the two LED sources. 7 . The lighting fixture of claim 6 , wherein the current controller comprises: a first transistor having its current-carrying terminals connected in series with a first LED source of the two LED sources; a second transistor having its current-carrying terminals connected in series with a second LED source of the two LED lighting sources; and a third transistor having a control terminal connected to a control terminal of the first transistor and a current-carrying terminal connected to a control terminal of the second transistor. 8 . The lighting fixture of claim 7 , wherein the controller is configured to change a duty cycle of the one signal to control the relative amounts of the current flowing through the two LED sources. 9 . The method of claim 2 , further comprising: decoding, with the controller, digitally encoded CCT information conveyed by modulations in the plurality of ON times and/or the plurality of phase angles. 10 . The method of claim 9 , wherein decoding digitally encoded CCT information by the controller comprises one or both of: (a) detecting a digital bit of the digitally encoded CCT information as an increase in a first ON-time of the plurality of ON-times and a decrease in a second ON-time of the plurality of ON-times, the first ON-time occurring within a first half-cycle of a first cycle of the multiple cycles and the second ON-time occurring within a second half-cycle of the first cycle; and (b) detecting the digital bit of the digitally encoded CCT information as an increase in a first phase angle of the plurality of phase angles and a decrease in a second phase angle of the plurality of phase angles, the first phase angle occurring within the first half-cycle of the first cycle of the multiple cycles and the second phase angle occurring within the second half-cycle of the first cycle. 11 . The method of claim 2 , further comprising detecting, by the controller and based upon the modulations, a sequence of digital bits of a data frame that includes the CCT information, wherein: the sequence of digital bits are encoded in a sequence of cycles within the multiple cycles; and each digital bit within the sequence of digital bits is detected by the controller from the modulations that occur within the sequence of cycles. 12 . The method of claim 2 , further comprising: outputting, by the controller to a current controller, one signal to control relative amounts of current flowing through two LED sources of the at least two LED sources; and controlling, with the current controller, the relative amounts of the current flowing through the two LED sources based on the one signal. 13 . The method of claim 12 , wherein the current controller comprises: a first transistor having its current-carrying terminals connected in series with a first LED source of the two LED sources; a second transistor having its current-carrying terminals connected in series with a second LED source of the two LED lighting sources; and a third transistor having a control terminal connected to a control terminal of the first transistor and a current-carrying terminal connected to a control terminal of the second transistor. 14 . The method of claim 12 , further comprising: changing, by the controller, a duty cycle of the one signal to control the relative amounts of the current flowing through the two LED sources. 15 . A device controller for at least one lighting fixture, the device controller comprising: an input to receive an AC waveform; a phase cutter connected to the input to produce a modified phase-cut waveform from the received AC waveform, wherein the modified phase-cut waveform carries power to operate an apparatus connected to the device controller; and a controller connected to the phase cutter, wherein the controller is configured to operate the phase cutter to produce the modif