An electrostatic discharge (ESD) unit is described, including a first device, and a second device coupled to the first device in parallel. In an ESD event, the first device is turned on before the second device is turned on. The second device may be turned on by the turned-on first device to form an ESD path in the ESD event.

The invention relates to an IC with an electrostatic discharge protection device. There is a buried insulant layer 50 nm or less in thickness and first and second bipolar transistors on the insulant layer, one being an npn transistor and the other a pnp transistor. The base of the first transistor is merged with the collector of the second transistor and the base of the second transistor is merged with the collector of the first transistor. The first and second bipolar transistors are configured to selectively conduct a discharge current between two electrodes of the protection device. There is a first semiconductor ground plane under the insulant layer, being electrically biased, extending until it is plumb with the base of the first bipolar transistor, exhibiting a first type of doping identical to that of the base of the first bipolar transistor with a doping density at least ten times greater.

A two-transistor memory cell based upon a thyristor for an SRAM integrated circuit is described together with a process for fabricating it. The memory cell can be implemented in different combinations of MOS and bipolar select transistors, or without select transistors, with thyristors in a semiconductor substrate with shallow trench isolation. Standard CMOS process technology can be used to manufacture the SRAM.

A two-transistor memory cell based upon a thyristor for an SRAM integrated circuit is described together with a process for fabricating it. The memory cell can be implemented in different combinations of MOS and bipolar select transistors, or without select transistors, with thyristors in a semiconductor substrate with shallow trench isolation. Standard CMOS process technology can be used to manufacture the SRAM.

An electronic device is formed by a sequence of at least two thyristors coupled in series in a same conduction direction. Each thyristor has a gate of a first conductivity type. The gates of the first conductivity type for the thyristors in the sequence are coupled together in order to form a single control gate.

An electrostatic discharge (ESD) unit is described, including a first device, and a second device coupled to the first device in parallel. In an ESD event, the first device is turned on before the second device is turned on. The second device may be turned on by the turned-on first device to form an ESD path in the ESD event.

A high-voltage bipolar semiconductor controlled rectifier (SCR) includes an emitter region having a first polarity and overlying a base region having a second polarity different from the first polarity; a collector region having the first polarity and lying under the base region; an anode region having the second polarity; a first sinker region having the first polarity and contacting the collector region, wherein the anode region is between the first sinker region and the base region; and a second sinker region having the first polarity and contacting the collector region, the second sinker region lying between the anode region and the base region, wherein an extension of the anode region extends under a portion of the second sinker region.

A semiconductor device is provided which comprises an ESD protection device. The structure of the semiconductor device comprises a p-doped isolated region in which a structure is manufactured which operates as a Silicon Controlled Rectifier which is coupled between an I/O pad and a reference voltage or ground voltage. The semiconductor device also comprises a pnp transistor which is coupled parallel to the Silicon Controlled Rectifier. The base of the transistor is coupled to the gate of the Silicon Controlled Rectifier. In an optional embodiment, the base and gate are also coupled to the I/O pad.

An electrostatic protection includes a buried layer having an outer region and an inner region which are heavily doped regions of a first conductivity type. The inner region is surrounded by an undoped or lightly doped ring region. The ring region is surrounded by the outer region. The device further includes a semiconductor region over the buried layer, a first well of the first conductivity type in the semiconductor region, a first transistor in the semiconductor region, and a second transistor in the semiconductor region. The first well forms a collector of the first transistor and a collector of the second transistor.

A device includes a transistor configured for operating in a hybrid mode, an element configured for generating and injecting a current into the substrate of the transistor in the presence of an ESD pulse, and a thyristor triggerable at least by the element.