Flame detector having visible light related processing circuits and infrared related circuits respectively coupled to photodiodes to establish instantaneous dc related signal changes and peak-to-peak ac signals over a predetermined time interval

The invention claimed is: 1. A flame detector comprising: a first, visible light sensing photodiode; visible light related processing circuits, coupled to the first photodiode to establish instantaneous dc related signal changes and peak-to-peak ac signals over a predetermined time interval; a second, near infrared sensing photodiode; infrared related processing circuits, coupled to the second photodiode to establish instantaneous dc related signal changes and peak-to-peak ac signals over a predetermined time interval; and control circuits to determine the presence of a fire condition using amplitude components of the processed visible light and near infrared signals. 2. A detector as in claim 1 where a respective filter is associated with each photodetector. 3. A detector as in claim 1 where the visible light processing circuits and the near infrared processing circuits establish dc related signal values based on instantaneous signal values reduced by an average signal value. 4. A detector as in claim 1 where a range of established ac related values is based on a predetermined measurement time. 5. A detector as in claim 3 where a respective filter is associated with each photodiode. 6. A detector as in claim 5 where a range of established ac related values is based on a predetermined measurement time. 7. A detector as in claim 1 where additional circuits establish a measurement window for the presence of near infrared signals. 8. A detector as in claim 7 where additional circuits detect that the near infrared dc signal exceeds a predetermined threshold, and in response thereto, opens a window of a predetermined minimum length. 9. A detector as in claim 8 where a determination is made whether a processed near infrared ac signal exceeds a threshold based on a visible light related signal. 10. A detector as in claim 9 where a time interval that has passed since a most recent change in direction of the near infrared related signal is determined. 11. A method of operating a visible light sensor and a near infrared sensor to make a fire determination comprising: providing a visual light sensor and a near infrared sensor; processing selected amplitude values of signals received from the sensors; establishing that an amplitude of a near infrared processed signal exceeds a predetermined threshold; establishing a renewal window of a predetermined minimum duration; and determining, using at least the processed amplitude values for both sensors, the presence of a fire. 12. A method as in claim 11 where processing includes forming instantaneous signal values reduced by an average value for each sensor. 13. A method as in claim 11 which includes forming ac peak-to-peak signal values over a predetermined measurement time interval. 14. A method as in claim 13 where processing includes forming instantaneous signal values reduced by an average value for each sensor. 15. A method as in claim 14 which includes comparing a timer count to a predetermined value, and responsive thereto, signaling the presence of a fire.