Cool Stars 14 - Submitted Abstract # 130 This version created on 05 October 2006 Weak X-ray flares on the BY Dra-type binary star CC Eri Ines Crespo-Chacon, Universidad Complutense de Madrid Giuseppina Micela, INAF - Osservatorio Astronomico di Palermo Marilena Caramazza, Universita di Palermo & INAF - Osservatorio Astronomico di Palermo Fabio Reale, Universita di Palermo Javier Lopez-Santiago, INAF - Osservatorio Astronomico di Palermo Ignazio Pillitteri, Universita di Palermo We present the results of a detailed study of a XMM-Newton observation of the very active BY Dra-type binary star CC Eri. Data from the most sensitive soft X-ray detector presently available - the EPIC-PN CCD camera - were analysed. The observation lasted 36.7 ks (0.27 times the orbital period of CC Eri). A large X-ray variability was found in the light curve. Comparison between the cumulative distribution function of the observed counts and those simulated for a constant source allowed us to discern real stellar variability from statistical fluctuations. Thus, we detected three flares weaker than those typically observed (with flux change of factors 1.3-1.8 and duration between 1.6 and 6.7 ks) together with smoother variations with no clear flare activity. A time-resolved study of coronal properties (temperature, emission measure and abundance) was carried out making use of the Astrophysical Plasma Emission Code (APEC). A 3-T model was needed to fit the spectra. For the first time in a star, no clear temperature variation was found during the observed flares. However, the emission measure of the two hottest components, and their ratio, suffered from great changes. The slope of the decay path in the density-temperature diagram allowed us to determine the presence of sustained heating during the flare decay and to obtain an upper limit for the length of the flaring loops, as well as constraints on the magnetic geometry that are in agreement with previous results reported for some UV Ceti-type stars. ----------------------------------