Color temperature fusion lighting apparatus

What is claimed is: 1 . A lighting apparatus, comprising: a first light source with a first color temperature (CT 1 ); a second light source with a second color temperature (CT 2 ) different from the CT 1 ; and a control module configured to operate the lighting apparatus in two modes such that: in a first mode, the control module operates the lighting apparatus in a first linear combination of the first light source and the second light source, resulting in a first operating color temperature (OCT 1 ) of the lighting apparatus, such that OCT 1 ≈X 1 *CT 1 +Y 1 *CT 2 , wherein X 1 +Y 1 =100%; in a second mode, the control module operates the lighting apparatus in a second linear combination of the first light source and the second light source different from the first linear combination, resulting in a second operating color temperature (OCT 2 ) of the lighting apparatus different from the first operating color temperature OCT 1 , such that OCT 2 ≈X 2 *CT 1 +Y 2 *CT 2 , wherein X 2 +Y 2 =100%, X 1 ≠X 2 , and Y 1 ≠Y 2 ; wherein: a difference between the OCT 1 and the OCT 2 is greater than 100 Kelvin, the control module is configured to alternate an operation of the lighting apparatus between the first mode and the second mode at a frequency F between 30 Hz and 45 Hz, resulting in a blended color temperature of the lighting apparatus equal to (OCT 1 +OCT 2 )/2, and light outputs of the lighting apparatus operating in the first mode and in the second mode are within a 3% difference. 2 . The lighting apparatus of claim 1 , wherein OCT 1 equals the CT 1 and OCT 2 equals CT 2 . 3 . A lighting apparatus, comprising: a first light source with a first color temperature (CT 1 ); a second light source with a second color temperature (CT 2 ) different from the CT 1 ; and a control module configured to operate the lighting apparatus in two modes such that: in a first mode, the control module operates the lighting apparatus in a first linear combination of the first light source and the second light source, resulting in a first operating color temperature (OCT 1 ) of the lighting apparatus, such that OCT 1 ≈X 1 *CT 1 +Y 1 *CT 2 , wherein X 1 +Y 1 =100%; in a second mode, the control module operates the lighting apparatus in a second linear combination of the first light source and the second light source different from the first linear combination, resulting in a second operating color temperature (OCT 2 ) of the lighting apparatus different from the first operating color temperature OCT 1 , such that OCT 2 ≈X 2 *CT 1 +Y 2 *CT 2 , wherein X 2 +Y 2 =100%, X 1 ≠X 2 , and Y 1 ≠Y 2 ; wherein: a difference between the OCT 1 and the OCT 2 is greater than 100 Kelvin, the control module is configured to alternate an operation of the lighting apparatus between the first mode and the second mode at a frequency F between 30 Hz and 45 Hz, resulting in a blended color temperature of the lighting apparatus equal to (OCT 1 +OCT 2 )/2, and the control module further comprises a light output tuning submodule (LOTS) configured to tune a light output of the lighting apparatus in either the first mode or the second mode, or both, such that light outputs of the lighting apparatus operating in the first mode and in the second mode are within a 1% difference. 4 . The lighting apparatus of claim 3 , wherein OCT 1 equals the CT 1 and OCT 2 equals CT 2 . 5 . A lighting apparatus, comprising: a first light source with a first color temperature (CT 1 ); a second light source with a second color temperature (CT 2 ) different from the CT 1 ; a feedback mechanism; and a control module configured to operate the lighting apparatus in two modes such that: in a first mode, the control module operates the lighting apparatus in a first linear combination of the first light source and the second light source, resulting in a first operating color temperature (OCT 1 ) of the lighting apparatus, such that OCT 1 ≈X 1 *CT 1 +Y 1 *CT 2 , wherein X 1 +Y 1 =100%; in a second mode, the control module operates the lighting apparatus in a second linear combination of the first light source and the second light source different from the first linear combination, resulting in a second operating color temperature (OCT 2 ) of the lighting apparatus different from the first operating color temperature OCT 1 , such that OCT 2 ≈X 2 *CT 1 +Y 2 *CT 2 , wherein X 2 +Y 2 =100%, X 1 ≠X 2 , and Y 1 ≠Y 2 ; wherein: a difference between the OCT 1 and the OCT 2 is greater than 100 Kelvin, the control module is configured to alternate an operation of the lighting apparatus between the first mode and the second mode at a frequency F between 30 Hz and 45 Hz, resulting in a blended color temperature of the lighting apparatus equal to (OCT 1 +OCT 2 )/2, the feedback mechanism is configured to sense a first representation of a first light output of the lighting apparatus operating in the first mode, sense a second representation of a second light output of the lighting apparatus operating in the second mode, derive a difference between the first representation and the second representation, and feedback a signal proportional to the difference to the control module, and in response to the signal from the feedback mechanism, the control module is configured to tune the first or second light output of the lighting apparatus in either the first mode or the second mode, or both, such that light outputs of the lighting apparatus operating in the first mode and in the second mode are within a 1% difference. 6 . The lighting apparatus of claim 5 , wherein the feedback mechanism comprises: a first sensing module configured to sense the first representation of the first light output of the lighting apparatus operating in the first mode; a second sensing module configured to sense the second representation of the second light output of the lighting apparatus operating in the second mode; and a comparator module configured to receive the first representation and the second representation to generate the signal proportional to the difference of the first representation and the second representation and to feedback the signal to the control module. 7 . The lighting apparatus of claim 5 , wherein the feedback mechanism comprises: a sensing module; a signal delay mechanism; and a comparator module, wherein: the sensing module senses representations of the light outputs of the lighting apparatus operating in the first mode and in the second mode alternately, and generates a first signal corresponding to the first representation of the first light output of the lighting apparatus operating in the first mode and a second signal corresponding to the second representation of the second light output of the lighting apparatus operating in the second mode, the first signal is fed through the signal delay mechanism which delays the first signal by a half of the F frequency cycle, thus creating a delayed first signal, and the comparator module receives the delayed first signal and the second signal, generates a third signal proportional to the difference of the first representation and the second representation, and provides the third signal to the control module. 8 . The lighting apparatus of claim 5 , wherein OCT 1 equals the CT 1 and OCT 2 equals CT 2 . 9 . A lighting apparatus, comprising: a first light source; a second light source; and a control module, wherein: the control module is configured to simultaneously operate the first light source at a F 1 frequency with a first light output LO 1 and the second light source at a F 2 frequency (F 2 ≠F 1 ) with a second light output LO 2 , and LO 1 and LO 2 are within a 3% difference.