Smoke detector with a double optical chamber

What is claimed is: 1. A smoke detector comprising: a chamber cover; a chamber base; a single emitter; a single receiver; an optical block; and a printed circuit board supporting the single emitter and the single receiver, wherein a smoke chamber is bound by the chamber cover, the chamber base, and the optical block, wherein a monitoring chamber is bound by the chamber base, the optical block, and the printed circuit board, wherein the monitoring chamber is closed to access outside of the smoke detector, wherein the single emitter illuminates the smoke chamber and the monitoring chamber with light radiation, wherein the optical block divides the light radiation into first radiation and second radiation, wherein the first radiation includes a sensing beam that originates from a main radiation cone of the single emitter and is directed into the smoke chamber, wherein the second radiation includes a monitoring beam that originates from one or more secondary lobes of the single emitter and is directed into the monitoring chamber, wherein the single receiver receives the first radiation from the smoke chamber and receives the second radiation from the monitoring chamber, and wherein the second radiation received at the single receiver from only the monitoring chamber produces a non-zero clean air value of the detector. 2. The smoke detector of claim 1 , wherein the first radiation is more intense than the second radiation. 3. The smoke detector of claim 1 , wherein a main view cone of the single receiver collects the sensing beam scattered in the smoke chamber. 4. The smoke detector of claim 1 , wherein the optical block includes an emitter hole for passing the monitoring beam into the monitoring chamber, and wherein the emitter hole is separate from a conduit that passes the sensing beam into the smoke chamber. 5. The smoke detector of claim 4 , wherein the emitter hole is fully covered by the single emitter, thereby keeping the monitoring chamber closed to the access from inside and outside of the smoke detector. 6. The smoke detector of claim 1 , wherein the optical block includes a receiver hole for directing the monitoring beam from the monitoring chamber to the single receiver, and wherein the receiver hole is separate from a conduit that receives the first radiation scattered in the smoke chamber. 7. The smoke detector of claim 6 , wherein the receiver hole is fully covered by the single receiver, thereby keeping the monitoring chamber closed to the access from inside and outside of the smoke detector. 8. The smoke detector of claim 1 , wherein the first radiation from only the smoke chamber produces a zero clean air value. 9. The smoke detector of claim 1 , wherein smoke aspirates into the smoke chamber via the chamber cover without aspirating into the monitoring chamber. 10. An optical block comprising: an emitter housing; an emitter tube coupled to the emitter housing for passing a first portion of radiation emitted by a main radiation cone of an emitter in the emitter housing into a smoke chamber; an emitter hole coupled to the emitter housing and fully covered by the emitter housing for passing a second portion of the radiation emitted by one or more secondary lobes of the emitter in the emitter housing into a monitoring chamber; a receiver housing; a receiver tube coupled to the receiver housing for collecting and directing the first portion of the radiation scattered in the smoke chamber to a single receiver in the receiver housing; and a receiver hole coupled to the receiver housing and fully covered by the receiver housing for collecting and directing the second portion of the radiation reflected from the monitoring chamber to the single receiver in the receiver housing, wherein the single receiver receives the second portion of the radiation reflected from the monitoring chamber and receives the first portion of the radiation scattered in the smoke chamber, wherein the emitter hole fully covered by the emitter housing keeps the monitoring chamber closed to outside and inside access other than the emitter and the single receiver, wherein the receiver hole fully covered by the receiver housing keeps the monitoring chamber closed to the outside and inside access other than the emitter and the single receiver, and wherein the radiation emitted from the emitter is divided into the first portion and the second portion. 11. The optical block of claim 10 , wherein the optical block is a light splitter and a light collector. 12. The optical block of claim 10 , wherein the emitter hole is disposed in a bottom surface of the emitter housing. 13. The optical block of claim 10 , wherein the receiver hole is disposed in a bottom surface of the receiver housing. 14. The optical block of claim 10 , wherein the first portion of the radiation is more intense than the second portion of the radiation. 15. The optical block of claim 10 , wherein the receiver tube collects and directs the first portion of the radiation scattered in the smoke chamber to a main view cone of the single receiver in the receiver housing. 16. A method comprising: providing a smoke chamber; providing a monitoring chamber; dividing the smoke chamber and the monitoring chamber with an optical block; coupling a first portion of radiation from a main radiation cone of a single emitter into the smoke chamber; coupling a second portion of the radiation from one or more secondary lobes of the single emitter into the monitoring chamber; directing the first portion of the radiation scattered in the smoke chamber to a single receiver for collection thereof; and directing the second portion of the radiation reflected in the monitoring chamber to the single receiver, wherein the optical block divides the radiation from the single emitter into the first portion of the radiation and the second portion of the radiation, wherein the monitoring chamber is closed to outside and inside access other the single emitter and the single receiver, and wherein the second portion of the radiation collected by the single receiver from only the monitoring chamber produces a non-zero clean air value. 17. The method of claim 16 , wherein the first portion of the radiation from the single emitter is coupled into the smoke chamber via a first emitter conduit, wherein the second portion of the radiation from the single emitter is coupled into the monitoring chamber via a second emitter conduit, different than the first emitter conduit, wherein the first portion of the radiation scattered in the smoke chamber is directed toward the single receiver via a first receiver conduit, and wherein the second portion of the radiation reflected in the monitoring chamber is directed toward the single receiver via a second receiver conduit, different than the first receiver conduit. 18. The method of claim 16 , wherein the first portion of the radiation is more intense than the second portion of the radiation. 19. The method of claim 16 further comprising directing the first portion of the radiation scattered in the smoke chamber to a main view cone of the single receiver.