From: Michael Wiebusch Date: Fri, 6 Feb 2015 12:53:33 +0000 (+0100) Subject: extended authors list, minor modifications X-Git-Url: https://jspc29.x-matter.uni-frankfurt.de/git/?a=commitdiff_plain;h=6a97333b5019e2d442e8fe3d38d1fdb913dddb15;p=reports.git extended authors list, minor modifications --- diff --git a/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.pdf b/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.pdf index a249117..361ff05 100644 Binary files a/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.pdf and b/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.pdf differ diff --git a/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.tex b/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.tex index 02b12df..8c5d7e9 100644 --- a/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.tex +++ b/GSI_2015_JM-MW_MVD-Electroncis/mvdelectronics.tex @@ -14,11 +14,16 @@ BMBF (05P12RFFC7), HIC for FAIR and GSI}} \author[1]{J. Michel} \author[1]{M. Wiebusch} -\author[]{the CBM-MVD collaboration} +\author[1]{M. Koziel} +\author[1]{B. Milanovic} +\author[1]{S. Amar-Youcef} +\author[1,2]{J. Stroth} +\author[ ]{the CBM-MVD collaboration} \affil[1]{Goethe-Universität Frankfurt} +\affil[2]{GSI, Darmstadt, Germany} \maketitle -\section{electronics} +\section{Electronics} The CBM Micro-Vertex-Detector (MVD) front-end electronics serve as an intermediating device between the Monoilithic Active Pixel Sensors (MAPS) and the DAQ system (based on the TRB3 system developed by HADES). @@ -36,7 +41,7 @@ which gets distributed to all sensor pixels. Several generation and distribution schemes were implemented to investigate which setup results in the best noise performance. -\section{measurements} +\section{Measurements} The MIMOSA26 provides a test mode to measure the discriminator transfer function\footnote{The firing probability of a binary pixel as a function of discriminator threshold; usually has the form of a sigmoid function.} of all pixels. The slope steepness is directly related to the temporal @@ -67,7 +72,7 @@ Data were acquired with monitoring devices integrated into the front-end electro % coordination of data taking and continuous monitoring of sensor parameters (power consumption, % temperature, etc). Furthermore it allows for convenient editing of sensor and electronics settings. -\section{laboratory instrumentation} +\section{Laboratory instrumentation} When characterizing MAPS sensors, it is desirable to investigate the temperature dependence of certain sensor parameters. Until recently such tests could only be done using a large cooling system which circulates silicone oil through a cooling block to which the sensors under test are attached.