Patent application number | Description | Published |
20120248542 | TRANSISTOR WITH ADJUSTABLE SUPPLY AND/OR THRESHOLD VOLTAGE - The first electrode of the transistor may include a first electrically conductive region provided within the semiconductor substrate. The second electrode may include a second electrically conductive region provided within the semiconductor substrate. The first and second regions may be separated by the substrate region, and the control electrode may include a third electrically conductive region provided within the substrate. The third electrically conductive region may be both separated from the substrate region by an insulating region and electrically coupled to the substrate region by a junction diode intended to be reverse-biased. | 10-04-2012 |
20120286321 | High-Performance Device for Protection from Electrostatic Discharge - The semiconductor device for protection from electrostatic discharges comprises several modules (MDi) for protection from electrostatic discharges comprising triggerable elements (TRi) coupled with triggering means, the said modules being connected between two terminals by the intermediary of a resistive network (R). A common semiconductor layer contacts all of the modules, each triggerable element (TRi) having at least one gate (GHi), and the triggering means comprise a single triggering circuit (TC) common to all of the triggerable elements and whose output is connected to the gates of all of the triggerable elements. | 11-15-2012 |
20130113017 | ELECTRONIC DEVICE FOR PROTECTING FROM ELECTROSTATIC DISCHARGE - A protection device includes a triac and triggering units. Each triggering unit is formed by a MOS transistor configured to operate at least temporarily in a hybrid operating mode and a field-effect diode. The field-effect diode has a controlled gate that is connected to the gate of the MOS transistor. | 05-09-2013 |
20130141824 | Electronic Device, in Particular for Protection Against Electrostatic Discharges, and Method for Protecting a Component Against Electrostatic Discharges - The electronic device includes a first (BP) and a second (BN) terminal and electronic means coupled between said two terminals; the electronic means include at least one block (BLC) comprising an MOS transistor (TR) including a parasitic bipolar transistor, the MOS transistor having the drain (D) thereof coupled to the first terminal (BP), the source (S) thereof coupled to the second terminal (BN) and being additionally configured, in the event of a current pulse (IMP) between the two terminals, to operate in a hybrid mode including MOS operation in a subthreshold mode and operation of the parasitic bipolar transistor. The device can comprise two blocks (BLC | 06-06-2013 |
20130264677 | METHOD FOR PRODUCING AN ELECTRONIC DEVICE BY ASSEMBLING SEMI-CONDUCTING BLOCKS AND CORRESPONDING DEVICE - At least three electrically conducting blocks are disposed within an isolating region; and at least two of them are mutually separated and capacitively coupled by a part of the isolating region. At least two of them, being semiconductor, have opposite types of conductivity or identical types of conductivity, but with different concentrations of dopants, and these are in mutual contact by one of their sides. The mutual arrangement of these blocks within the isolating region, their type of conductivity and their concentration of dopants form at least one electronic module. Some of the blocks define input and output blocks. | 10-10-2013 |
20140003135 | SRAM BITCELL IMPLEMENTED IN DOUBLE GATE TECHNOLOGY | 01-02-2014 |
20140097464 | Electronic Device for Protection against Electrostatic Discharges, with a Concentric Structure - The component incorporates, in topological terms, a scalable number of triac structures in a concentric annular arrangement. The component can be used with an electronic device to protect against electrostatic discharges. For example, the components can be used to protect the input/output pad, the first power supply terminal, and the second power supply terminal of an integrated circuit against electrostatic discharges. | 04-10-2014 |
20140124866 | INTEGRATED CIRCUIT COMPRISING A MOS TRANSISTOR HAVING A SIGMOID RESPONSE AND CORRESPONDING METHOD OF FABRICATION - An integrated circuit may include at least one MOS transistor having a sigmoid response. The at least one MOS transistor may include a substrate, a source region, a drain region, a gate region, and insulating spacer regions on either side of the gate region. The substrate may include a first region situated under the gate region between the insulating spacer regions. At least one of the source and drain regions may be separated from the first region of the substrate by a second region of the substrate situated under an insulating spacer region, which may be of a same type of conductivity as the first region of the substrate. | 05-08-2014 |