Optocoupler for the control of high voltage

The invention claimed is: 1. A method of manufacturing an optocoupler comprising: positioning a body of a light source into a first mold such that electrical leads of the light source protrude from the first mold; positioning a diode stack of a light detector into the first mold such that metal end caps and electrical leads of the light detector protrude from the first mold; pouring optically transparent material into the first mold to create an optical cavity enclosing the body of the light source and the diode stack of the light detector; and disposing a coating of optically reflective material over the optical cavity to form a reflective layer. 2. The method of claim 1 , wherein the step of disposing the coating of optically reflective material over the optical cavity further comprises the steps of: placing the optical cavity into a second mold such that the electrical leads of the light source and the metal end caps and electrical leads of the light detector protrude from the second mold; pouring the optically reflective material into the second mold to create the reflective layer, wherein the reflective layer fully covers the optical cavity; and extracting the optocoupler from the second mold. 3. The method of claim 1 , further comprising: positioning the body of the light source and the diode stack of the light detector a distance away from each other in the optical cavity before pouring the optically transparent material into the first mold, the distance selected to be greater than a distance corresponding to a dielectric breakdown strength of the optically transparent material at a design operating voltage of the optocoupler. 4. The method of claim 1 , wherein the light detector comprises a plurality of photo-diodes, the method further comprising: providing the diode stack about an axis that intersects the optical cavity before pouring the optically transparent material into the first mold. 5. The method of claim 1 , further comprising: selecting a shape for the optical cavity that achieves a predetermined uniformity and a predetermined efficiency of light received by the light detector. 6. The method of claim 1 , further comprising: minimizing a volume of the first mold by spacing the light source and the light detector based on a design operating voltage of the optocoupler, dielectric breakdown strength of the optically transparent material, and uniformity of light received by the light detector.