Abstract: The invention relates to a production process for a flash memory from a semi-conductor substrate fitted with at least two adjacent rows of precursor stacks of floating gate transistors, the precursor stacks being at least partially covered by a protective resin and being separated by a formation zone for a source line. The process includes forming a trench in the formation zone for the source line by an attack of this zone and of the protective resin. The result of the attack step includes a deposit of residue from the resin below the precursor stacks. The residue deposit is removed. A source line is implanted in the formation zone below the precursor stacks. This process enables the time needed for erasing the memory to be reduced.

Abstract: The invention proposes a negative gain transconductance amplifier circuit (1) for capacitive load that includes: an RC serial circuit connected between an input terminal (E) of the amplifier circuit and a intermediate terminal (A); an amplification level connected between the intermediate terminal and an output terminal (S) designed to be connected to a capacitive load, and which includes: a first negative gain transconductance amplifier (2) connected via open loop between the intermediate terminal and the output terminal; a second negative gain transconductance amplifier (3) with characteristics that are notably identical to those of the first amplifier, connected via closed loop; its input and output are connected to the intermediate terminal via a resistance (R1).

Abstract: A memory element for a magnetic RAM, contained in a recess of an insulating layer, the recess including a portion with slanted sides extending down to the bottom of the recess, the memory element including a first magnetic layer portion substantially conformally covering the bottom of the recess and the recess portion with slanted sides and in contact, at the level of the bottom of the recess, with a conductive portion, a non-magnetic layer portion substantially conformally covering the first magnetic layer portion and a second magnetic layer portion covering the non-magnetic layer portion.

Abstract: A memory element for a magnetic RAM, having a first magnetic portion in a first recess of a first insulating layer; and a non-magnetic portion and a second magnetic portion in a second recess of a second insulating layer covering the first insulating layer, the second recess exposing the first magnetic portion and a portion of the first insulating layer around the first magnetic portion, the non-magnetic portion being interposed between the first and second magnetic portions.

Abstract: The present invention relates to a floating-gate MOS transistor, comprising drain and source regions implanted into a silicon substrate, a channel extending between the drain and source regions, a tunnel oxide, a floating gate, a gate oxide and a control gate extending according to a determined gate length. According to the present invention, the control gate comprises a small gate and a large gate arranged side by side and separated by an electrically insulating material. Application to the production of memory cells without access transistor, and to the implementation of an erase-program method with reduced electrical stress for the tunnel oxide.