Abstract: A double-layer conductive LED photoelectric glass with voltage compensation and manufacturing process thereof are provided in the present invention. The photoelectric glass includes two layers of electrically conductive glasses. Inner sides of the electrically conductive cladded layers of the two layers of electrically conductive glasses are oppositely provided. The electrically conductive cladded layer of one of the two layers of electrically conductive glasses is provided with a plurality of etched circuits. The etched circuits are divided into two sets, which are respectively located on two sides of the electrically conductive glass. LEDs are provided on each of the etched circuits. The positive electrode connecting terminal and the negative electrode connecting terminal of the LED are respectively provided on two sides of each etched circuit. A heat-resistant transparent adhesive layer is provided in the middle of the two layers of electrically conductive glasses.

Abstract: A double-layer conductive LED photoelectric glass with voltage compensation and manufacturing process thereof are provided in the present invention. The photoelectric glass includes two layers of electrically conductive glasses. Inner sides of the electrically conductive cladded layers of the two layers of electrically conductive glasses are oppositely provided. The electrically conductive cladded layer of one of the two layers of electrically conductive glasses is provided with a plurality of etched circuits. The etched circuits are divided into two sets, which are respectively located on two sides of the electrically conductive glass. LEDs are provided on each of the etched circuits. The positive electrode connecting terminal and the negative electrode connecting terminal of the LED are respectively provided on two sides of each etched circuit. A heat-resistant transparent adhesive layer is provided in the middle of the two layers of electrically conductive glasses.