Detector for early detection of battery fire and/or an overheated condition in a battery

What is claimed is: 1. A fire and/or overheated condition detector for a lithium ion battery, comprising: a chamber defining a detection space fluidly communicative with an interior of the lithium ion battery; a temperature sensor operably disposed proximate to the detection space; gas detection assemblies respectively configured to detect gases through absorption in the detection space, each of the gas detection assemblies comprising a light source at a first side of the chamber and a photodetector at a second side of the chamber; and a smoke detection assembly configured to detect particle scattering in the detection space to discriminate smoke particles from nuisance particles, the smoke detection assembly comprising first and second light sources and a photodetector at a first end of the chamber and a mirror optically interposed between the first and second light source and the photodetector at a second end of the chamber. 2. The fire and/or overheated condition detector according to claim 1 , wherein: an entrance to the detection space is fluidly interposed between the interior of the lithium ion battery and the detection space, and the temperature sensor comprises one or more temperature sensors operably disposed in the entrance to the detection space. 3. The fire and/or overheated condition detector according to claim 1 , wherein one of the gas detection assemblies comprises a hydrogen fluoride (HF) gas detection assembly, the light source for the HF gas detection assembly is configured to emit light having a wavelength range of about 2.0-3.0 μm through the detection space, and the photodetector for the HF gas detection assembly is configured to detect the light having the wavelength range of about 2.0-3.0 μm. 4. The fire and/or overheated condition detector according to claim 3 , wherein the light source for the HF gas detection assembly is comprises a 2.6 μm light source. 5. The fire and/or overheated condition detector according to claim 1 , wherein one of the gas detection assemblies comprises a carbon dioxide (CO2) gas detection assembly, the light source for the CO2 gas detection assembly is configured to emit light having a wavelength range of about 4.0-4.6 μm through the detection space, and the photodetector for the CO2 gas detection assembly is configured to detect the light having the wavelength range of about 4.0-4.6 μm. 6. The fire and/or overheated condition detector according to claim 5 , wherein the light source for the CO2 gas detection assembly comprises a 4.3 μm light source. 7. The fire and/or overheated condition detector according to claim 1 , wherein: the first and second light sources for the smoke detection assembly is configured to emit light having wavelength ranges of about 0.3-0.5 μm and about 0.7-1.0 μm through the detection space, and the photodetector for the smoke detection assembly is configured to detect the light having the wavelength ranges of about 0.3-0.5 μm and about 0.7-1.0 μm. 8. The fire and/or overheated condition detector according to claim 7 , wherein the first light source for the smoke detection assembly is comprises an ultraviolet (UV) light source and the second light source for the smoke detection assembly is comprises an infrared (IR) light source. 9. The fire and/or overheated condition detector according to claim 1 , further comprising a controller coupled to each of the temperature sensor, the gas detection assemblies and the smoke detection assembly, wherein the controller is configured to execute early fire and/or overheat detection while retaining nuisance discrimination based on readings of the temperature sensor, the gas detection assemblies and the smoke detection assembly. 10. A fire and/or overheated condition detector for a lithium ion battery, comprising: a chamber defining a detection space fluidly communicative with an interior of the lithium ion battery; a temperature sensor operably disposed proximate to the detection space; gas detection assemblies respectively configured to detect gases through absorption in the detection space, one of the gas detection assemblies comprising a light source at a first side of the chamber and a photodetector at a second side of the chamber and another of the gas detection assemblies comprising a volatile organic compound gas detection assembly comprising a UV source and emitter or a metal oxide semiconductor sensor; and a smoke detection assembly configured to detect particle scattering in the detection space to discriminate smoke particles from nuisance particles, the smoke detection assembly comprising first and second light sources and a photodetector at a first end of the chamber and a mirror optically interposed between the first and second light source and the photodetector at a second end of the chamber. 11. The fire and/or overheated condition detector according to claim 10 , further comprising a controller coupled to each of the temperature sensor, the gas detection assemblies and the smoke detection assembly, wherein the controller is configured to execute early fire and/or overheat detection while retaining nuisance discrimination based on readings of the temperature sensor, the gas detection assemblies and the smoke detection assembly.