摘要:
A vertical silicon controlled rectifier (SCR) that directs an electro-static discharge (ESD) current directly to ground from the input/output pad. The vertical SCR is includes a vertical NPN and a vertical PNP that creates a very good SCR exhibiting very low ohmic on-resistance. The vertical SCR provides a low on-resistance and fast turn on, and can be adjusted to alter the trigger voltage value, holding voltage and how it is triggered. It can be optimized to trigger under ESD events and discharge the ESD current effectively to ground.
摘要:
Disclosed is an integrated circuit with multiple semiconductor fins having different widths and variable spacing on the same substrate. The method of forming the circuit incorporates a sidewall image transfer process using different types of mandrels. Fin thickness and fin-to-fin spacing are controlled by an oxidation process used to form oxide sidewalls on the mandrels, and more particularly, by the processing time and the use of intrinsic, oxidation-enhancing and/or oxidation-inhibiting mandrels. Fin thickness is also controlled by using sidewalls spacers combined with or instead of the oxide sidewalls. Specifically, images of the oxide sidewalls alone, images of sidewall spacers alone, and/or combined images of sidewall spacers and oxide sidewalls are transferred into a semiconductor layer to form the fins. The fins with different thicknesses and variable spacing can be used to form a single multiple-fin FET or, alternatively, various single-fin and/or multiple-fin FETs.
摘要:
A field effect transistor with associated parasitic lateral npn bipolar junction transistor includes a source region in a substrate, a channel region in the substrate laterally adjacent to the source region, a drain region in the substrate laterally adjacent to the channel region, and a gate above the channel region of the substrate. In addition, a reduced trigger voltage region of the substrate is positioned below the drain region. The reduced trigger voltage region has a threshold voltage of about zero and comprises an undoped region of the pure wafer substrate. Thus, the reduced trigger voltage region is free of implanted N-type and P-type doping.
摘要:
Disclosed is a method of executing an electrical function, such as a fusing operation, by activation through a chip embedded photodiode through spectrally selected external light activation, and corresponding structure and circuit. The present invention is based on having incident light with specific intensity/wave length characteristics, in conjunction with additional circuit elements to an integrated circuit, perform the implementation of repairs, i.e., replacing failing circuit elements with redundant ones for yield and/or reliability. Also to perform disconnection of ESD protection device from input pad once the packaged chip is placed in system. No additional pins on the package are necessary.
摘要:
A method of forming a self-aligned SOI diode, the method comprising depositing a protective structure over a substrate; implanting a plurality of diffusion regions of variable dopant types in an area between at least one pair of isolation regions in the substrate, the plurality of diffusion regions separated by a diode junction, wherein the implanting aligns an upper surface of the diode junction with the protective structure; and removing the protective structure. The method further comprises forming a silicide layer over the diffusion regions and aligned with the protective structure. The protective structure comprises a hard mask, wherein the hard mask comprises a silicon nitride layer. Alternatively, the protective structure comprises a polysilicon gate and insulating spacers on opposite sides of the gate. Furthermore, in the removing step, the spacers remain on the substrate.
摘要:
A structure and apparatus is provided for an electrostatic discharge power clamp, for use with high voltage power supplies. The power clamp includes a network of transistor devices, for example, nFETs arranged in series between a power rail and a ground rail. The first transistor device is biased into a partially on-state, and thus, neither device sees the full voltage potential between the power rail and the ground rail. Accordingly, the power clamp can function in voltage environments higher than the native voltage of the transistor devices. Additionally, the second transistor device is controlled by an RC network functioning as a trigger which allows the second transistor device to turn on during a voltage spike such as occurs during an ESD event. The capacitor of the RC network may be small thereby requiring small real estate on the integrated circuit. The clamp may have fast turn-on times as well as conducting current for long periods of time after turning on.
摘要:
A method and structure for protection against latch-up is provided. Integrated circuits manufactured in accordance with the present disclosure feature well and substrate contacts of varying periodicity. Such a strategy enables maximizing the design of an integrated circuit as to the suppression of latch-up while concurrently optimizing available area on the chip allocable to circuit design. This method and structure is particularly beneficial to protect against cable discharge events and other discharge occurrences prone to injecting large current densities into an integrated circuit.
摘要:
A method and apparatus for protection against electrostatic discharge (ESD) with improved latch-up robustness featuring a silicide blocked p-type field effect transistor is disclosed. The transistor has a snapback voltage that is less than the breakdown voltage of its gate oxide. The transistor is part of an integrated circuit and coupled to an I/O pad having no n-diffusions connected directly to it. A given integrated circuit may employ one or more the transistors configured in accordance with the invention that are associated with one or more I/O pads within the integrated circuit.
摘要:
Disclosed is an integrated circuit with multiple semiconductor fins having different widths and variable spacing on the same substrate. The method of forming the circuit incorporates a sidewall image transfer process using different types of mandrels. Fin thickness and fin-to-fin spacing are controlled by an oxidation process used to form oxide sidewalls on the mandrels, and more particularly, by the processing time and the use of intrinsic, oxidation-enhancing and/or oxidation-inhibiting mandrels. Fin thickness is also controlled by using sidewalls spacers combined with or instead of the oxide sidewalls. Specifically, images of the oxide sidewalls alone, images of sidewall spacers alone, and/or combined images of sidewall spacers and oxide sidewalls are transferred into a semiconductor layer to form the fins. The fins with different thicknesses and variable spacing can be used to form a single multiple-fin FET or, alternatively, various single-fin and/or multiple-fin FETs.
摘要:
An ESD protection device includes a source region, a channel region adjacent the source region, and an elongated drain region spaced from the source region by the channel region. The elongated drain region includes an unsilicided portion adjacent the channel and a silicided portion spaced from channel region by the unsilicided portion. A first ESD region is located beneath the silicided portion of the elongated drain region and a second ESD region is located beneath the unsilicided portion of the elongated drain region, the second ESD region being spaced from the first ESD region.