Multi-channel aspirated smoke detector

The invention claimed is: 1. An aspirated smoke detector comprising: a smoke sensing chamber with a fluid flow input port and a fluid flow output port; a manifold having a first plurality of input ports, and an output port where the output port is coupled to the fluid flow input port of the sensing chamber; a second plurality of ambient condition sensors where each member of the second plurality is associated with a member of the first plurality; and control circuits; wherein the control circuits are coupled to a smoke indicating output from the smoke sensing chamber, wherein the control circuits are coupled to each ambient condition sensor in the second plurality, and wherein the control circuits, in response to a smoke indication signal from the smoke indicating output, evaluate output from each of the ambient condition sensors in the second plurality to determine which of the first plurality of input ports is a source of sensed smoke in the sensing chamber. 2. A detector as in claim 1 further comprising a third plurality of inflow pipes, wherein an inflow pipe of the third plurality is coupled to each member of the first plurality of input ports. 3. A detector as in claim 2 further comprising an ambient condition sensor of the second plurality attached to each inflow pipe of the third plurality, or each inflow port of the first plurality. 4. A detector as in claim 3 wherein the control circuits, in response to the smoke indication signal, cycle through the second plurality of ambient condition sensors to determine which of the third plurality of inflow pipes is carrying the sensed smoke. 5. A detector as in claim 4 wherein the control circuits generate an alarm indicting electrical signal in response to the smoke indication signal from the sensing chamber. 6. A detector as in claim 3 wherein each of the ambient condition sensors in the second plurality is selected from a class which includes at least, semiconductor gas sensors, electrochemical gas sensors, photoelectric smoke sensors, or, ionization-type smoke sensors. 7. A detector as in claim 6 further comprising an aspirator coupled to the smoke sensing chamber. 8. A method comprising: establishing a plurality of confined smoke, or gas, conducting paths; establishing a common smoke sensing region coupled to each of the paths in the plurality; control circuits sensing a smoke condition in the region; and responsive to the control circuits sensing the smoke condition in the region, the control circuits electrically determining which of the paths in the plurality provided smoke to the region. 9. A method as in claim 8 wherein the control circuits determining which of the paths in the plurality provided the smoke to the region includes the control circuits sensing the smoke condition, or a gas condition, on each of the plurality of paths. 10. A method as in claim 9 further comprising coupling a separate smoke, or gas, sensor to each of the plurality of paths. 11. A method as in claim 10 wherein the control circuits sensing the smoke condition in the region includes the control circuits sensing the smoke in the region using a first smoke related characteristic. 12. A method as in claim 11 wherein the control circuits sensing the smoke condition, or the gas condition, on each of the paths in the plurality includes the control circuits sensing the smoke condition, or the gas condition, on each of the paths in the plurality using a second, ambient condition characteristic, different from the first smoke related characteristic. 13. A method as in claim 12 further comprising providing a common draw of the smoke on each of the paths in the plurality. 14. A method as in claim 13 further comprising coupling an aspirating unit to the region. 15. A method as in claim 10 further comprising evaluating electrical signals from the separate smoke, or gas, sensor coupled to each of the plurality of paths to determine a source of the smoke. 16. An aspirated smoke detector comprising: a manifold coupled to a smoke sensing chamber of the smoke detector; a plurality of channels coupled to the manifold for coupling ambient smoke from respective locations to the smoke sensing chamber; and a plurality of ambient condition sensors associated with respective ones of the locations, wherein, when the ambient smoke is detected in the smoke sensing chamber, each of the plurality of ambient condition sensors is interrogated to determine a location of origin of the ambient smoke in the smoke sensing chamber. 17. A detector as in claim 16 wherein each of the plurality of ambient condition sensors includes one of a solid state gas sensor, or an electrochemical gas sensor.