POLYTRONICS TECHNOLOGY CORPORATION Patent applications |
Patent application number | Title | Published |
20090309074 | VARIABLE IMPEDANCE COMPOSITION - A variable impedance composition according to one aspect of the present invention comprises a high electro-magnetic permeability powder in an amount from 10% to 85% of the weight of the variable impedance composition, and an insulation adhesive in an amount from 10% to 30% of the weight of the variable impedance composition. The incorporation of high electro-magnetic permeability powder including carbonyl metal, such as carbonyl iron or carbonyl nickel, in the variable impedance composition can not only suppress the overstress voltage, but also dampen the transient current. In contrast to the conventional electrostatic discharge (ESD) device, the relatively high electro-magnetic permeability carbonyl metal powder can reduce arcing as well as lower the trigger voltage of the device. The high electro-magnetic permeability characteristics can also absorb the undesirable electro-magnetic radiation that causes corruption of signal and loss of data. | 12-17-2009 |
20090231763 | OVER-VOLTAGE PROTECTION DEVICE - An over-voltage protection device comprises a substrate having a first surface and a second surface, a first nonrectangular conductor having a first protrusion positioned on the first surface of the substrate, a second nonrectangular conductor having a second protrusion positioned on the first surface of substrate, at least one alignment block positioned on the second surface, and a variable impedance material positioned between the first protrusion and the second protrusion. Preferably, the second protrusion faces the first protrusion to form an arcing path from the first protrusion to the second protrusion. | 09-17-2009 |
20090224213 | VARIABLE IMPEDANCE COMPOSITION - A variable impedance composition according to this aspect of the present invention comprises a conductive powder in an amount from 10% to 30% of the weight of the variable impedance composition, a semi-conductive power in an amount from 30% to 90% of the weight of the variable impedance composition, and an insulation adhesive in an amount from 3% to 50% of the weight of the variable impedance composition. According to one embodiment of the present invention, the variable impedance material presents a high resistance at a low applied voltage and a low resistance at a high applied voltage. As the variable impedance material is positioned in a gap between two conductors of an over-voltage protection device, the over-voltage protection device as a whole presents a high resistance to a low voltage applied across the gap and a low resistance to a high voltage applied across the gap. | 09-10-2009 |
20080292857 | HEAT DISSIPATION SUBSTRATE AND HEAT DISSIPATION MATERIAL THEREOF - A heat dissipation material comprises (1) fluorine-containing crystalline polymer having a melting point higher than 150° C., with a weight percentage of around 15-40%; (2) heat conductive fillers dispersed in the fluorine-containing crystalline polymer with a weight percentage of around 60-85%; and (3) coupling agent of 0.5-3% of the heat conductive fillers by weight and having a chemical formula of: | 11-27-2008 |
20080289751 | METHOD FOR MANUFACTURING OVER-CURRENT PROTECTION DEVICE - A method for manufacturing an over-current protection device comprises a step of providing at least one current sensitive device and a step of pressing. The current sensitive device comprises a first electrode foil, a second electrode foil and a PTC conductive layer physically laminated between the first and second electrode foils. The pressing step is to press the current sensitive device at a predetermined temperature, thereby generating at least one overflow portion at sides of the PTC conductive layer to form the over-current protection device. The predetermined temperature is higher than the softening temperature of the PTC conductive layer. The over-current protection devices manufactured according to the present invention have superior resistance distribution. | 11-27-2008 |
20080272390 | LED APPARATUS - An LED apparatus comprises a base, an LED device, an electrode member and an insulation layer. The base has a bevel side to be embedded with a corresponding receiving base for electrical conduction of an electrode (e.g., a negative electrode). The LED device is placed on an upper surface of the base. The electrode member comprising a metal rod and an electrode plate is connected to the LED device for electrical conduction of an electrode (e.g., a positive electrode). The insulation layer is placed between the electrode plate of the electrode member and the base for electrical insulation. The bevel side of the base can be modified as desired, and is generally less than 10 degrees, and preferably less than 5 degrees, and may be less than 3 degrees if needed. | 11-06-2008 |
20080253050 | PROTECTIVE CIRCUIT BOARD AND OVERCURRENT PROTECTION DEVICE THEREOF - The over-current protection device of the present invention can be used for over-current protection to PCM. The over-current protection device comprises a PTC device, at least one insulation layer; at least one electrode layer and at least one conductive channel. The insulation layer is placed on a surface of the PTC device, and the electrode layer is formed on the insulation layer afterwards. As a result, the insulation layer is between the electrode layer and the PTC device. The electrode layer serves as a surface of the over-current protection device. The conductive channel electrically connects the PTC device and the electrode layer. In an embodiment, the conductive channel is a blind hole penetrating through the electrode layer and the insulation layer and ending at the surface of the PTC device, and the surface of the blind hole is coated with a conductive layer to electrically connect the PTC device and the electrode layer. | 10-16-2008 |