System and method to identify obscuration fault in a flame detector

What is claimed is: 1. A flame detector comprising: a housing; a window attached to the housing, wherein the window allows radiation to pass through to the interior of the housing; a transmitter configured to emit electromagnetic radiation; a receiver configured to receive electromagnetic radiation emitted by the transmitter; and a plurality of angled surfaces configured to direct the electromagnetic radiation from the transmitter through at least a portion of the window and toward the receiver, wherein the electromagnetic radiation is reflected more than once by the plurality of angled surfaces and passes at least twice through the window. 2. The flame detector of claim 1 , wherein the transmitter and the receiver are located below a plane of the window. 3. The flame detector of claim 1 , wherein the plurality of angled surfaces comprises: a first angled surface configured to direct the electromagnetic radiation from the transmitter into a plane at least parallel to the plane of the window; a second angled surface configured to direct the electromagnetic radiation within the plane at least parallel to the plane of the window; a third angled surface configured to direct the electromagnetic radiation within the plane at least parallel to the plane of the window; and a fourth angled surface configured to direct the electromagnetic radiation out of the plane at least parallel to the plane of the window toward the receiver. 4. The flame detector of claim 1 , wherein the plurality of angled surfaces comprises at least two angled surfaces. 5. The flame detector of claim 1 , wherein the plurality of angled surfaces comprises at least four angled surfaces. 6. The flame detector of claim 1 , further comprising one or more electrical elements configured to process data from the receiver. 7. The flame detector of claim 6 , wherein the one or more electrical elements is configured to determine when the electromagnetic radiation received by the receiver is lower than a predetermined number, and to indicate an obscuration fault when the electromagnetic radiation received by the receiver is lower than the predetermined number. 8. The flame detector of claim 1 , wherein the reflections of the electromagnetic radiation are carried out in a plane parallel to a plane of the window. 9. The flame detector of claim 1 , wherein the plurality of angled surfaces comprises a material and surface finish that are substantially reflective to the electromagnetic radiation emitted by the transmitter. 10. The flame detector of claim 1 , wherein the transmitter and the receiver are located within the housing. 11. The flame detector of claim 1 , wherein the plurality of angled surfaces is located within the housing. 12. The flame detector of claim 1 , wherein the plurality of angled surfaces is located within a plane of the window. 13. The flame detector of claim 1 , wherein the plurality of angled surfaces is located above a plane of the window. 14. The flame detector of claim 1 , wherein the plurality of angled surfaces is located below a plane of the window. 15. The flame detector of claim 1 , wherein the plurality of angled surfaces are made of concave or flat surfaces that can reflect and focus the electromagnetic radiation. 16. The flame detector of claim 1 , wherein the window is made of transparent material that can transmit the electromagnetic radiation in working frequency. 17. The flame detector of claim 1 , further comprising a flame detection element configured to detect electromagnetic radiation passing through the window from the exterior of the housing to the interior of the housing, and configured to determine if a flame is detected within a field-of-view of the window. 18. A detection system configured to detect obscuration of a window of a flame detector, the detection system comprising: a transmitter configured to emit electromagnetic radiation; a receiver configured to receive electromagnetic radiation emitted by the transmitter; and a plurality of angled surfaces configured to direct the electromagnetic radiation from the transmitter through at least a portion of the window of the flame detector and toward the receiver, wherein the electromagnetic radiation is reflected more than once by the plurality of angled surfaces and passes at least twice through the window. 19. A method for detecting obscuration of a window of a flame detector, the method comprising: emitting electromagnetic radiation from a transmitter located proximate to the window; directing the electromagnetic radiation, by a first reflective surface, into a plane parallel to the plane of the window; directing the electromagnetic radiation, by a second reflective surface, at least once within the plane parallel to the plane of the window; directing the electromagnetic radiation, by a third reflective surface, out of the plane at least parallel to the plane of the window toward a receiver; detecting, by the receiver, the electromagnetic radiation; and determining when the detected electromagnetic radiation is below a predetermined threshold, wherein the electromagnetic radiation is reflected more than once and passes at least twice through the window.