Abstract: An electronic device is provided that includes a photodiode. The photodiode includes a semiconductor region coupled to a node of application of a first voltage, and at least one semiconductor wall. The at least one semiconductor wall extends along at least a height of the photodiode and partially surrounds the semiconductor region.
Type:
Grant
Filed:
March 20, 2020
Date of Patent:
August 16, 2022
Assignee:
STMicroelectronics (Crolles 2) SAS
Inventors:
Arnaud Tournier, Boris Rodrigues Goncalves, Francois Roy
Abstract: A circuit includes at least one bipolar transistor and at least one variable capacitance diode. The circuit is fabricated using a method whereby the bipolar transistor and variable capacitance diode are jointly produced on a common substrate.
Abstract: A transistor is produced by forming a first part of a first region of the transistor in a semiconductor substrate by implanting dopants through an opening in an isolating trench formed at an upper surface of the semiconductor substrate. A second region of the transistor in the opening by epitaxy.
Abstract: An integrated circuit includes a junction field-effect transistor formed in a semiconductor substrate. The junction field-effect transistor includes a drain region, a source region, a channel region, and a gate region. A first isolating region separates the drain region from both the gate region and the channel region. A first connection region connects the drain region to the channel region by passing underneath the first isolating region in the semiconductor substrate. A second isolating region separates the source region from both the gate region and the channel region. A second connection region connects the source region to the channel region by passing underneath the second isolating region in the semiconductor substrate.
Abstract: The present disclosure concerns a phase-change memory manufacturing method and a phase-change memory device. The method includes forming a first insulating layer in cavities located vertically in line with strips of phase-change material, and anisotropically etching the portions of the first insulating layer located at the bottom of the cavities; and a phase-change memory device including a first insulating layer against lateral walls of cavities located vertically in line with strips of phase-change material.
Type:
Grant
Filed:
May 20, 2020
Date of Patent:
August 9, 2022
Assignees:
STMicroelectronics (Crolles 2) SAS, STMICROELECTRONICS (ROUSSET) SAS
Inventors:
Philippe Boivin, Daniel Benoit, Remy Berthelon
Abstract: In accordance with an embodiment, a physically unclonable function device includes a set of transistor pairs, transistors of the set of transistor pairs having a randomly distributed effective threshold voltage belonging to a common random distribution; a differential read circuit configured to measure a threshold difference between the effective threshold voltages of transistors of transistor pairs of the set of transistor pairs, and to identify a transistor pair in which the measured threshold difference is smaller than a margin value as being an unreliable transistor pair; and a write circuit configured to shift the effective threshold voltage of a transistor of the unreliable transistor pair to be inside the common random distribution.
Type:
Grant
Filed:
February 6, 2020
Date of Patent:
August 2, 2022
Assignees:
STMICROELECTRONICS (ROUSSET) SAS, STMICROELECTRONICS (CROLLES 2) SAS
Inventors:
Francesco La Rosa, Marc Mantelli, Stephan Niel, Arnaud Regnier
Abstract: Image sensors and methods of manufacturing image sensors are provided. One such method includes forming a structure that includes a semiconductor layer extending from a front side to a back side, and a capacitive insulation wall extending through the semiconductor layer. The capacitive insulation wall includes first and second insulating walls separated by a region of a conductor or a semiconductor material. Portions of the semiconductor layer and the region of the conductor or semiconductor material are selectively etched, and the first and second insulating walls have portions protruding outwardly beyond a back side of the semiconductor layer and of the region of the conductor or semiconductor material. A dielectric passivation layer is deposited on the back side of the structure, and portions of the dielectric passivation layer are locally removed on a back side of the protruding portions of the first and second insulating walls.
Abstract: Thyristor semiconductor device comprising an anode region, a first base region and a second base region having opposite types of conductivity, and a cathode region, all superimposed along a vertical axis.
Abstract: A germanium waveguide is formed from a P-type silicon substrate that is coated with a heavily-doped N-type germanium layer and a first N-type doped silicon layer. Trenches are etched into the silicon substrate to form a stack of a substrate strip, a germanium strip, and a first silicon strip. This structure is then coated with a silicon nitride layer.
Type:
Application
Filed:
April 7, 2022
Publication date:
July 21, 2022
Applicant:
STMicroelectronics (Crolles 2) SAS
Inventors:
Mathias PROST, Moustafa EL KURDI, Philippe BOUCAUD, Frederic BOEUF
Abstract: A light sensor includes a first pixel and a second pixel. Each pixel has a photoconversion area. A band-stop Fano resonance filter is arranged over the first pixel. The second pixel includes no Fano resonance filter. Signals output from the first and second pixels are processed to determine information representative of the quantity of light received by the light sensor during an illumination phase in a rejection band of the band-stop Fano resonance filter.
Type:
Grant
Filed:
December 9, 2020
Date of Patent:
July 19, 2022
Assignees:
STMicroelectronics SA, STMicroelectronics (Crolles 2) SAS
Abstract: An electronic chip includes a substrate made of semiconductor material. Conductive pads are located on a front side of the substrate and cavities extend into the substrate from a backside of the substrate. Each cavity reaches an associated conductive pad. Protrusions are disposed on the backside of the substrate. A conductive layer covers the walls and bottoms of the cavities. The conductive layer includes portions on the backside, each portion partially located on an associated protrusion and electrically connecting two of the conductive pads.
Abstract: A semiconductor layer is doped with a first doping type and has an upper surface. A first electrode insulated from the semiconductor layer extending through the semiconductor layer from the upper surface. A second electrode insulated from the semiconductor layer extends through the semiconductor layer from the upper surface. The first and second electrodes are biased by a voltage to produce an electrostatic field within the semiconductor layer causing the formation of a depletion region. The depletion region responds to absorption of a photon with an avalanche multiplication that produces charges that are collected at first and second oppositely doped regions within the semiconductor substrate.
Abstract: A photonic device includes a first region having a first doping type, and a second region having a second doping type, where the first region and the second region contact to form a vertical PN junction. The first region includes a silicon germanium (SiGe) region having a gradual germanium concentration.
Abstract: An integrated circuit includes at least a first standard cell framed by two second standard cells. The three cells are disposed adjacent to each other, and each standard cell includes at least one NMOS transistor and at least one least one PMOS transistor located in and on a silicon-on-insulator substrate. The at least one PMOS transistor of the first standard cell has a channel including silicon and germanium. The at least one PMOS transistor of each second standard cell has a silicon channel and a threshold voltage different in absolute value from the threshold voltage of said at least one PMOS transistor of the first cell.
Type:
Application
Filed:
December 7, 2021
Publication date:
June 23, 2022
Applicants:
STMicroelectronics SA, STMicroelectronics (Crolles 2) SAS
Abstract: A single photon avalanche diode (SPAD) includes a PN junction in a semiconductor well doped with a first type of dopant. The PN junction is formed between a first region doped with the first type of dopant and a second region doped with a second type of dopant opposite to the first type of dopant. The first doped region is shaped so as to incorporate local variations in concentration of dopants that are configured, in response to a voltage between the second doped region and the semiconductor well that is greater than or equal to a level of a breakdown voltage of the PN junction, to generate a monotonic variation in the electrostatic potential between the first doped region and the semiconductor well.
Abstract: A bipolar transistor includes a collector. The collector is formed by: a first portion of the collector which extends under an insulating trench, and a second portion of the collector which crosses through the insulating trench. The first and second portions of the collector are in physical contact.
Type:
Application
Filed:
March 3, 2022
Publication date:
June 16, 2022
Applicants:
STMicroelectronics (Crolles 2) SAS, STMicroelectronics SA
Abstract: A pixel includes a first electrode layer on an exposed surface of an interconnection structure and in contact with a conductive element of the interconnection structure. An insulating layer extends over the first electrode layer and includes opening crossing through the insulating layer to the first electrode layer. A second electrode layer is on top of and in contact with the first electrode layer and the insulating layer in the opening. A film configured to convert photons into electron-hole pairs is on the insulating layer, the second electrode layer and filling the opening. A third electrode layer covers the film.
Abstract: An integrated circuit chip is attached to a support that includes first conductive elements. First conductive pads are located on the integrated circuit chip and are electrically coupled to the first conductive elements by conductive wires. The integrated circuit chip further includes a conductive track. A switch circuit is provided to selectively electrically connect each first conductive pad to the conductive track. To test the conductive wires, a group of first conductive pads are connected by their respective switch circuits to the conductive track and current flow between corresponding first conductive elements is measured.
Abstract: A transistor is produced by forming a first part of a first region of the transistor in a semiconductor substrate by implanting dopants through an opening in an isolating trench formed at an upper surface of the semiconductor substrate. A second region of the transistor in the opening by epitaxy.
Abstract: A circuit includes at least one bipolar transistor and at least one variable capacitance diode. The circuit is fabricated using a method whereby the bipolar transistor and variable capacitance diode are jointly produced on a common substrate.