Lighting module with keyed heat sink coupled to thermally conductive trim

The invention claimed is: 1 . A lighting module, comprising: a heat sink comprising: a rear end face; a sidewall coupled to the rear face and defining an interior cavity, the sidewall having at least one exterior width dimension such that at least a portion of the sidewall proximate to the rear face fits into a space having a width of less than 2.4 inches; a front end face that surrounds a first open end of the interior cavity; and at least one connecting mechanism to couple a trim to the front end face of the heat sink; a light source positioned inside the interior cavity of the heat sink and including at least one light emitting diode (LED); and an AC to DC converter, positioned inside the interior cavity of the heat sink, to receive electrical energy and supply regulated electrical energy to power the light source. 2 . The lighting module of claim 1 , wherein the sidewall of the heat sink has at least one exterior height dimension such that at least a portion of the sidewall fits into a space having a height less than or equal to about 2.25 inches. 3 . The lighting module of claim 1 , wherein the heat sink further comprises: a partition coupled to the sidewall, the sidewall and the partition together dividing the interior cavity into a first cavity and a second cavity; the light source is disposed within the first cavity; the driver is disposed within the second cavity; and the lighting module further comprises: a ground cable, inserted through a feedthrough opening of the partition and directly coupled to a surface of the heat sink abutting the first cavity, to electrically ground the heat sink to an external ground. 4 . The lighting module of claim 1 , further comprising: an optical element, disposed within the interior cavity, to redirect the light emitted by the light source; and an optic cover, coupled to the heat sink and at least partially disposed within the interior cavity, to enclose the interior cavity, the optic cover being formed of a material that transmits the emitted light. 5 . The lighting module of claim 1 , further comprising: at least one switch, coupled to the heat sink and electrically coupled to the driver, to adjust one of a power output, a lumen output, or a color temperature of the light emitted by the light source. 6 . The lighting module of claim 1 , wherein tbe heat sink further comprises: at least one keyed feature, disposed on the sidewall of the heat sink, to provide sufficient clearance between the heat sink and a surface of an enclosed space such that the sidewall of the heat sink is insertable into the enclosed space without contacting the surface. 7 . The lighting module of claim 6 , wherein: the front end face of the heat sink further comprises a flange; and the first keyed feature includes a curved portion of the sidewall that extends along a height of the sidewall and abuts the flange, the curved portion being shaped to reduce a volume of the heat sink. 8 . The lighting module of claim 1 , wherein: the heat sink further comprises: a partition coupled to the sidewall, the sidewall and the partition together defining a first cavity and a second cavity with a second open end; the lighting module further comprises: a driver enclosure, disposed within the second cavity, defining a driver cavity, the driver enclosure being formed of an electrically insulating material and substantially filling the second cavity of the heat sink; and the driver is disposed within the driver cavity such that the driver enclosure provides an electrically insulating barrier between the driver and the heat sink. 9 . The lighting module of claim 8 , wherein the driver enclosure comprises: a driver cover having a driver base that is substantially flush with the second open end of the heat sink, the driver cover having a driver sidewall coupled to the driver base and extending into the second cavity such that an edge of the driver sidewall is disposed proximate to the partition of the heat sink, the driver sidewall and the driver base defining the driver cavity; and an insulator film disposed on the partition of the heat sink proximate to the edge of the driver sidewall. 10 . The lighting module of claim 1 , further comprising the trim. 11 . The lighting module of claim 10 , wherein: each of the heat sink and the trim is formed from an electrically conductive material; and the trim is electrically coupled to the heat sink via the at least one connecting mechanism. 12 . The lighting module of claim 11 , further comprising: a ground cable, directly coupled to the heat sink, to electrically ground the heat sink and the trim to an external ground. 13 . The lighting module of claim 11 , wherein the electrically conductive material comprises aluminum. 14 . The lighting module of claim 11 , wherein: the at least one connecting mechanism comprises: a portion of the heat sink where the electrically conductive material is exposed; and the trim comprises: a connector, coupled to the at least one connecting mechanism and in direct physical contact with the portion of heat sink, to mechanically and electrically couple the trim to the heat sink. 15 . The lighting module of claim 14 , wherein the connector is a metal clip. 16 . A lighting module, comprising: a heat sink comprising: a rear end face; a sidewall coupled to the rear end face and defining an interior cavity, the sidewall having at least one exterior width dimension such that at least a portion of the sidewall proximate the rear end face fits into a space having a width of less than 2.4 inches; a front end face that surrounds a first open end of the interior cavity; at least one connecting mechanism to couple a trim to the front end face of the heat sink; and at least one keyed feature, disposed on the sidewall of the heat sink, to provide sufficient clearance between the heat sink and a surface of an enclosed space such that the sidewall of the heat sink is insertable into the enclosed space without contacting the surface; a light source positioned inside the interior cavity of the heat sink and including at least one light emitting diode (LED); and a driver, positioned inside the interior cavity of the heat sink, to receive electrical energy and supply regulated electrical energy to power the light source. 17 . The lighting module of claim 16 , further comprising: the trim, wherein: each of the heat sink and the trim is formed from an electrically conductive material; and the trim is electrically coupled to the heat sink via the at least one connecting mechanism. 18 . The lighting module of claim 16 , wherein the sidewall of the heat sink has at least one exterior height dimension such that at least a portion of the sidewall fits into a space having a height less than or equal to about 2.25 inches. 19 . The lighting module of claim 16 , further comprising: at least one switch, coupled to the heat sink and electrically coupled to the driver, to adjust one of a power output, a lumen output, or a color temperature of the light emitted by the light source. 20 . The lighting module of claim 16 , wherein: the front end face of the heat sink further comprises a flange; and the first keyed feature includes a curved portion of the sidewall that extends along a height of the sidewall and abuts the flange, the curved portion being shaped to reduce a volume of the heat sink.