#siemens
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ABE S Kyushu University Japan ACAMPA M University of Napoli Italy ACARNELY P University of Newcastle upon Tyne U K ACCARDO L Ansaldobreda Napoli Italy AGUIRRE G University of Basque Country Bilbao Spain AHO T Lappeenranta University of Technology Finland AHOLA J Lappeenranta University of Technology Finland ALAKULA M Lund University Sweden ALAOUI C Al Akhawayn University Ifrane Morocco ALIOUANE K EMP Power Electronics Laboratory Alger Algeria AMBROZIC V University of Ljubljana Slovenia AMMAN U University of Stuttgart Germany ANDRIOLLO M University of Padova Italy ANTONUCCI V CNR ITAE Messina Italy AOULKADI M T U Darmstadt Germany ARGONDIZZA A A M E T Italy ARKKIO M Helsinki University of Technology Finland ATTAIANESE C University of Cassino Italy BACHER J T U Graz Austria BAGHZOUZ Y University of Las Vegas U S A BALESTRINO A University of Pisa Italy BENHADDADI M Ecole Polytechnique de Montreal Canada BERBEROVIC S University of Zagreb Croatia BERTLING F University of Dortmund Germany BIFARETTI S University of Rome Tor Vergata Italy BINDER A T U Darmstadt Germany BITOLEANU A University of Craiova Romania BOCCALETTI C University of Rome La Sapienza Italy BOCCHETTI G Ansaldo Segnalamento Ferroviario Italy BOLOGNESI P University of Pisa Italy BOTAN C Technical University of Iasi Romania BOUALEM B ALSTOM Transport Ornans France BRANDO G University of Napoli Italy BRASLASKY I Ural State Technical University Ekaterinburg Russia BRENNA M Politecnico of Milano Italy BRUNNO F University of Catania Italy BUDIG P K EAAT GmbH Chemnitz Germany BUJA G University of Padova Italy CACHEDA FONDENLA M De Monfort Universtity U K CAPOLINO G A University of Picardie Amiens France CARDOSO C Universidade do Porto Portugal CARPINELLI G University of Cassino Italy CARPITA M Haute Ecole d'Ingenierie Canton de Vaud Yverdon les Bains Switzerland CASADEI D University of Bologna Italy CASCONE B AnsaldoBreda Napoli Italy CASTELLAN S University of Trieste Italy CASTELLI DEZZA F Politecnico of Milano Italy CATALIOTTI V University of Palermo ...
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Etudes supérieures
ABE S Kyushu University Japan ACAMPA M University of Napoli Italy ACARNELY P University of Newcastle upon Tyne U K ACCARDO L Ansaldobreda Napoli Italy AGUIRRE G University of Basque Country Bilbao Spain AHO T Lappeenranta University of Technology Finland AHOLA J Lappeenranta University of Technology Finland ALAKULA M Lund University Sweden ALAOUI C Al Akhawayn University Ifrane Morocco ALIOUANE K EMP Power Electronics Laboratory Alger Algeria AMBROZIC V University of Ljubljana Slovenia AMMAN U University of Stuttgart Germany ANDRIOLLO M University of Padova Italy ANTONUCCI V CNR ITAE Messina Italy AOULKADI M T U Darmstadt Germany ARGONDIZZA A A M E T Italy ARKKIO M Helsinki University of Technology Finland ATTAIANESE C University of Cassino Italy BACHER J T U Graz Austria BAGHZOUZ Y University of Las Vegas U S A BALESTRINO A University of Pisa Italy BENHADDADI M Ecole Polytechnique de Montreal Canada BERBEROVIC S University of Zagreb Croatia BERTLING F University of Dortmund Germany BIFARETTI S University of Rome Tor Vergata Italy BINDER A T U Darmstadt Germany BITOLEANU A University of Craiova Romania BOCCALETTI C University of Rome La Sapienza Italy BOCCHETTI G Ansaldo Segnalamento Ferroviario Italy BOLOGNESI P University of Pisa Italy BOTAN C Technical University of Iasi Romania BOUALEM B ALSTOM Transport Ornans France BRANDO G University of Napoli Italy BRASLASKY I Ural State Technical University Ekaterinburg Russia BRENNA M Politecnico of Milano Italy BRUNNO F University of Catania Italy BUDIG P K EAAT GmbH Chemnitz Germany BUJA G University of Padova Italy CACHEDA FONDENLA M De Monfort Universtity U K CAPOLINO G A University of Picardie Amiens France CARDOSO C Universidade do Porto Portugal CARPINELLI G University of Cassino Italy CARPITA M Haute Ecole d'Ingenierie Canton de Vaud Yverdon les Bains Switzerland CASADEI D University of Bologna Italy CASCONE B AnsaldoBreda Napoli Italy CASTELLAN S University of Trieste Italy CASTELLI DEZZA F Politecnico of Milano Italy CATALIOTTI V University of Palermo ...
4 pages
Documents
General Description The MAX6511 MAX6512 MAX6513 are fully integrated remote temperature switches that use an external P N junction typically a diode connected transistor as the sensing element to measure the remote temperature These devices assert a logic signal when the tempera ture crosses a factory programmed threshold Available trip thresholds are from +45°C to +125°C in 10°C incre ments Accuracy is within ±3°C TA 5°C to +55°C or ±5°C TA 40°C to +85°C Hysteresis is pin selec table to 5°C or 10°C The MAX6511 has an active low CMOS output and the MAX6513 has an active high CMOS output The MAX6512 has an open drain output The output is asserted when the temperature exceeds the threshold value The active low open drain output is intended to interface with a microprocessor P reset or interrupt input The active high CMOS output can directly drive a power FET to control a cooling fan The MAX6511 MAX6512 MAX6513 operate from a 0V to 5V supply and typically consume A of supply current They are available in a small pin SOT23 package
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Rapports de stage
General Description The MAX6511 MAX6512 MAX6513 are fully integrated remote temperature switches that use an external P N junction typically a diode connected transistor as the sensing element to measure the remote temperature These devices assert a logic signal when the tempera ture crosses a factory programmed threshold Available trip thresholds are from +45°C to +125°C in 10°C incre ments Accuracy is within ±3°C TA 5°C to +55°C or ±5°C TA 40°C to +85°C Hysteresis is pin selec table to 5°C or 10°C The MAX6511 has an active low CMOS output and the MAX6513 has an active high CMOS output The MAX6512 has an open drain output The output is asserted when the temperature exceeds the threshold value The active low open drain output is intended to interface with a microprocessor P reset or interrupt input The active high CMOS output can directly drive a power FET to control a cooling fan The MAX6511 MAX6512 MAX6513 operate from a 0V to 5V supply and typically consume A of supply current They are available in a small pin SOT23 package
7 pages
English
Documents
General Description The MAX6668 MAX6670 remote junction thermal switches with an internal power transistor drive a cool ing fan rated for supply voltages up to +12V and 250mA These devices measure the temperature of an external P N junction typically a diode connected tran sistor and turn on the fan power switch when the remote temperature rises above a factory programmed threshold Self contained and requiring no software development the MAX6668 MAX6670 are simple “drop in” fan control solutions for a variety of systems The MAX6670 features an open drain WARN output that goes active when the remote temperature exceeds the factory programmed fan activation threshold by +15°C The MAX6670 features an open drain OT output that goes active when the remote temperature exceeds the factory programmed threshold by +30°C The MAX6668 MAX6670 provide a fan control input FORCEON that allows the fan to be driven externally regardless of temperature Available temperature thresholds range from +40°C to +75°C in 5°C increments Hysteresis is preset to 8°C on the MAX6668 or pin selectable to 4°C 8°C or 12°C using a three level logic input on the MAX6670 Temperature threshold accuracy is ±1°C typ and 2°C max for remote junction temperatures from +40°C to +75°C The MAX6668 MAX6670 operate from a +3V to 6V power supply and are specified over the automotive temperature range 40°C to +125°C The MAX6668 is offered in an pin MAX package and the MAX6670 is available in a space saving pin MAX package
Documents
Rapports de stage
General Description The MAX6668 MAX6670 remote junction thermal switches with an internal power transistor drive a cool ing fan rated for supply voltages up to +12V and 250mA These devices measure the temperature of an external P N junction typically a diode connected tran sistor and turn on the fan power switch when the remote temperature rises above a factory programmed threshold Self contained and requiring no software development the MAX6668 MAX6670 are simple “drop in” fan control solutions for a variety of systems The MAX6670 features an open drain WARN output that goes active when the remote temperature exceeds the factory programmed fan activation threshold by +15°C The MAX6670 features an open drain OT output that goes active when the remote temperature exceeds the factory programmed threshold by +30°C The MAX6668 MAX6670 provide a fan control input FORCEON that allows the fan to be driven externally regardless of temperature Available temperature thresholds range from +40°C to +75°C in 5°C increments Hysteresis is preset to 8°C on the MAX6668 or pin selectable to 4°C 8°C or 12°C using a three level logic input on the MAX6670 Temperature threshold accuracy is ±1°C typ and 2°C max for remote junction temperatures from +40°C to +75°C The MAX6668 MAX6670 operate from a +3V to 6V power supply and are specified over the automotive temperature range 40°C to +125°C The MAX6668 is offered in an pin MAX package and the MAX6670 is available in a space saving pin MAX package
8 pages
English
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