Patent application number | Description | Published |
20090015315 | CIRCUIT FOR CONTROLLING AN A.C. SWITCH - A circuit for generating a D.C. signal for controlling an A.C. switch referenced to a first potential, from a high-frequency signal referenced to a second potential, including: a first capacitive element connecting a first input terminal, intended to receive the high-frequency signal, to the cathode of a rectifying element having its anode connected to a first output terminal intended to be connected to a control terminal of the switch; and a second capacitive element connecting a second input terminal, intended to be connected to the second reference potential, to a second output terminal intended to be connected to the first reference potential, a second rectifying element connecting the cathode of the first rectifying element to the second output terminal. | 01-15-2009 |
20110210372 | HIGH-VOLTAGE VERTICAL POWER COMPONENT - A high-voltage vertical power component including a lightly-doped semiconductor substrate of a first conductivity type and, on the side of an upper surface, an upper semiconductor layer of the second conductivity type which does not extend all the way to the component periphery, wherein the component periphery includes, on the lower surface side, a ring-shaped diffused region of the second conductivity type extending across from one third to half of the component thickness; and on the upper surface side, an insulated ring-shaped groove crossing the substrate to penetrate into an upper portion of ring-shaped region. | 09-01-2011 |
20110284921 | HF-CONTROLLED BIDIRECTIONAL SWITCH - A bidirectional switch controllable by a voltage between its gate and rear electrode and including an N-type semiconductor substrate surrounded with a P-type well; on the front surface side, a P-type well in which is formed a first N-type region; on the rear surface side, a P-type layer in which is formed a second N-type region. The well is doped to less than 10 | 11-24-2011 |
20120012891 | VOLTAGE-CONTROLLED BIDIRECTIONAL SWITCH - A voltage-controlled vertical bi-directional monolithic switch, referenced with respect to the rear surface of the switch, formed from a lightly-doped N-type semiconductor substrate, in which the control structure includes, on the front surface side, a first P-type well in which is formed an N-type region, and a second P-type well in which is formed a MOS transistor, the first P-type well and the gate of the MOS transistor being connected to a control terminal, said N-type region being connected to a main terminal of the MOS transistor, and the second main terminal of the MOS transistor being connected to the rear surface voltage of the switch. | 01-19-2012 |
20120061719 | SHOCKLEY DIODE HAVING A LOW TURN-ON VOLTAGE - A Shockley diode including: a vertical stack of first to fourth layers of alternated conductivity types between first and second electrodes; a recess formed in the fourth layer and extending vertically to penetrate into the second layer; a first region of same conductivity type as the second layer but of greater doping level, extending at the bottom of the recess in the second layer; and a second region of same conductivity type as the third layer but of greater doping level, extending along the lateral walls of the recess and connecting the first region to the fourth layer. | 03-15-2012 |
20120146089 | FOUR-QUADRANT TRIAC - A vertical four-quadrant triac wherein the gate region, arranged on the side of a front surface, includes a U-shaped region of a first conductivity type, the base of the U lying against one side of the structure, the main front surface region of the second conductivity type extending in front of the gate region and being surrounded with portions of the main front surface region of the first conductivity type. | 06-14-2012 |
20120161198 | BIDIRECTIONAL SHOCKLEY DIODE WITH EXTENDED MESA - A mesa-type bidirectional Shockley diode including a substrate of a first conductivity type; a layer of the second conductivity type on each side of the substrate; a region of the first conductivity type in each of the layers of the second conductivity type; a buried region of the first conductivity type under each of said regions of the first conductivity type, each buried region being complementary in projection with the other; and a groove arranged in the vicinity of the periphery of the component on each of its surfaces, the component portion external to the groove comprising, under the external portion of the upper and lower regions of the second conductivity type, regions of the first conductivity type of same doping profile as said buried regions. | 06-28-2012 |
20120161199 | MESA-TYPE BIDIRECTIONAL SHOCKLEY DIODE - A mesa-type bidirectional Shockley diode delimited on its two surfaces by a peripheral groove filled with a glassivation including a substrate of a first conductivity type; a layer of the second conductivity type on each side of the substrate; a region of the first conductivity type in each of the layers of the second conductivity type; a buried region of the first conductivity type under each of the regions of the first conductivity type, at the interface between the substrate and the corresponding layer of the second conductivity type, each buried region being complementary in projection with the other; and a peripheral ring under the external periphery of each of the glassivations, of same doping profile as the buried regions. | 06-28-2012 |
20120161200 | DOUBLE-GROOVE BIDIRECTIONAL VERTICAL COMPONENT - A mesa-type bidirectional vertical power component, including a substrate of a first conductivity type; a layer of the second conductivity type on each side of the substrate; first regions of the first conductivity type in each of the layers of the second conductivity type; and, at the periphery of each of its surfaces, two successive grooves, the internal groove crossing the layers of the second conductivity type, second doped regions of the first conductivity type being formed under the surface of the external grooves and having the same doping profile as the first regions. | 06-28-2012 |
20120267679 | STARTING STRUCTURE AND PROTECTION COMPONENT COMPRISING SUCH A STARTING STRUCTURE - A structure for starting a semiconductor component including a porous silicon layer in the upper surface of a semiconductor substrate. This porous silicon layer is contacted, on its upper surface side, by a metallization and, on its lower surface side, by a heavily-doped semiconductor region. | 10-25-2012 |
20130049065 | BI-DIRECTIONAL SWITCH WITH Q1 AND Q4 CONTROL - A vertical bidirectional switch of the type having its control referenced to the rear surface, including on its rear surface a first main electrode and on its front surface a second main electrode and a gate electrode, this switch being controllable by a positive voltage between its gate and its first electrode, wherein the gate electrode is arranged on the front surface of a via crossing the chip in which the switch is formed. | 02-28-2013 |
20130228822 | VERTICAL POWER COMPONENT - A vertical power component including a silicon substrate of a first conductivity type and, on the side of a lower surface supporting a single electrode, a well of the second conductivity type, in which the component periphery includes, on the lower surface side, a peripheral trench at least partially filled with a passivation and, between the well and the trench, a porous silicon insulating ring. | 09-05-2013 |
20130320395 | HIGH-VOLTAGE VERTICAL POWER COMPONENT - A vertical power component including: a silicon substrate of a first conductivity type; on the side of a lower surface of the substrate supporting a single electrode, a lower layer of the second conductivity type; and on the side of an upper surface of the substrate supporting a conduction electrode and a gate electrode, an upper region of the second conductivity type, wherein the component periphery includes, on the lower surface side, a porous silicon insulating ring penetrating into the substrate down to a depth greater than that of the lower layer. | 12-05-2013 |
20140217462 | VERTICAL POWER COMPONENT - A high-voltage vertical power component including a silicon substrate of a first conductivity type, and a first semiconductor layer of the second conductivity type extending into the silicon substrate from an upper surface of the silicon substrate, wherein the component periphery includes: a porous silicon ring extending into the silicon substrate from the upper surface to a depth deeper than the first layer; and a doped ring of the second conductivity type, extending from a lower surface of the silicon surface to the porous silicon ring. | 08-07-2014 |
20150084094 | SCR COMPONENT WITH TEMPERATURE-STABLE CHARACTERISTICS - An SCR-type component of vertical structure has a main upper electrode formed on a silicon region of a first conductivity type which is formed in a silicon layer of a second conductivity type. The silicon region is interrupted in first areas where the material of the silicon layer comes into contact with the upper electrode, and is further interrupted in second areas filled with resistive porous silicon extending between the silicon layer and the main upper electrode. | 03-26-2015 |