Network


Latest external collaboration on country level. Dive into details by clicking on the dots.

Hotspot


Dive into the research topics where Jean-Michel Daga is active.

Publication


Featured researches published by Jean-Michel Daga.


european solid-state circuits conference | 2005

A PMOS-switch based charge pump, allowing lost cost implementation on a CMOS standard process

Emmanuel Racape; Jean-Michel Daga

A 4-phase charge pump based on the low-voltage PMOS switching circuitry has been implemented in a 0.18/spl mu/m CMOS standard process, without any additional masking and process steps. The use of low-voltage PMOS switches overcomes the intrinsic limitations of high voltage NMOS devices such as: poor drive, large parasitic capacitance, threshold voltage sensitivity to body bias and temperature. Using the proposed circuitry, up to 14v output voltage has been measured on a 11-stage implementation powered at 1.2v, resulting in 97% of Vdd average gain per stage with capacitive loading only. In addition, nearly temperature independent efficiency of 53% has been measured on an extended Vdd range, for different current loads.


Archive | 2007

High efficiency bi-directional charge pump circuit

Jean-Michel Daga; Emmanuel Racape


Archive | 2004

High efficiency, low cost, charge pump circuit

Jean-Michel Daga; Emmanuel Racape


Archive | 2005

Self-adaptive program delay circuitry for programmable memories

Marylene Combe; Jean-Michel Daga


Archive | 2005

Sense amplifier circuit for parallel sensing of four current levels

Jean-Michel Daga; Caroline Papaix


Archive | 2004

Eeprom architecture and programming protocol

Marylene Combe; Jean-Michel Daga; Stephane Ricard; Marc Merandat


Archive | 2008

Level shifter with low voltage devices

Jimmy Fort; Michel Cuenca; Emmanuel Racape; Jean-Michel Daga


Archive | 2013

Method and machine readable medium to improve data retention in an array of programmable memory cells and programmable memory circuit

Marylene Combe; Jean-Michel Daga


Archive | 2006

Circuit de pompe a charge bidirectionnelle tres efficace

Jean-Michel Daga; Emmanuel Racape


Solid-state Electronics | 2005

Design of high-speed 128-bit embedded flash memories allowing in place execution of the code

Marylene Combe; Caroline Papaix; Jeanine Guichaoua; Vincent Sialelli; Emmanuel Racape; Jean-Michel Daga

Collaboration


Dive into the Jean-Michel Daga's collaboration.

Researchain Logo
Decentralizing Knowledge