Abstract: A parallel bridge circuit structure and a high-voltage parallel bridge circuit structure are disclosed. The parallel bridge circuit structure includes a first bridge circuit and a second bridge circuit. The first bridge circuit includes a plurality of first diodes, and the second bridge circuit includes a plurality of second diodes. Each of the second diodes is exclusively connected to one of the first diodes in parallel. With the design of the parallel connection between the first bridge circuit and the second bridge circuit, break of the entire circuit caused by a damaged diode is prevented. Moreover, with the aid of the AC signal phase delay circuit structure, the output voltage of the parallel bridge circuit structure can be stable and continuous voltage, while the high-voltage parallel bridge circuit structure includes a plurality of parallel bridge circuit structures so as to endure a high voltage input.
Abstract: A halation-free light-emitting diode holder includes a body and a retaining portion. The body has a die holder, which includes a first surface, a second surface, and an opened end. The retaining portion is provided on the second surface. By using the retaining portion, the optical gel in the die holder is blocked from capillary movement up along the second surface. Furthermore, having nano-material layers further formed on the second surface or having the area of the first surface made greater than the area of the opened-end also prevents the optical gel from climbing along the second surface. Thereby, a light halation circling a light pattern of the resultant light-emitting diode is avoided and the light-emitting diode is improved in luminance uniformity.
Abstract: An LED bulb structure having an insertion end includes a first electrically conducting pin, a second electrically conducting pin having a die pad at an end thereof, and an LED unit electrically connected to the first electrically conducting pin and the second electrically conducting pin through a first leading wire and a second leading wire, respectively, and a cap enclosing the above-mentioned components and leaving part of the first electrically conducting pin and the second electrically conducting pin exposed thereoutside. The first and second electrically conducting pins are adapted to form bayonet connections. An LED bulb structure having a heat dissipation element has the heat dissipation element attached to the pin portions of the electrically conducting pins. An LED bulb structure having a heat-and-electricity separated element further has a thermally conducting pin.
Type:
Application
Filed:
September 13, 2006
Publication date:
March 11, 2010
Applicant:
Helio Optoelectronic Corporation
Inventors:
Cheng-Wei Chan, Ming-Hung Chen, Shih-Yi Wen, Chun-Che Lee
Abstract: An LED structure includes a first substrate; an adhering layer formed on the first substrate; first ohmic contact layers formed on the adhering layer; epi-layers formed on the first ohmic contact layers; a first isolation layer covering the first ohmic contact layers and the epi-layers at exposed surfaces thereof; and first electrically conducting plates and second electrically conducting plates, both formed in the first isolation layer and electrically connected to the first ohmic contact layers and the epi-layers, respectively. The first trenches or the second trenches allow the LED structure to facilitate complex serial/parallel connection so as to achieve easy and various applications of the LED structure in the form of single structures under a high-voltage environment.
Type:
Application
Filed:
September 13, 2006
Publication date:
March 11, 2010
Applicant:
Helio Optoelectronics Corporation
Inventors:
Shih-Chang Shei, Ming-Hung Chen, Shih-Yi Wen, Chun-Che Lee