https://www.hep.ucl.ac.uk/pbt/pbtWiki/api.php?action=feedcontributions&user=RaffaellaRadogna&feedformat=atomPBTWiki - User contributions [en]2024-03-29T02:00:29ZUser contributionsMediaWiki 1.41.0https://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3674Proton Calorimetry/Equipment/Inventory Location2020-12-31T14:41:46Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
A collection of photos can be found in the directory: [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/photos/ /unix/www/html/pbt/wikiData/photos/Inventory_Dec2020/photos/]<br />
The directory [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/ /unix/www/html/pbt/wikiData/photos/Inventory_Dec2020/] contains documents with photo collection and item list for each storage element in D106.<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Wooden_bookshelf.docx doc file] for the photo collection of the items stored in the wooden bookshelf.<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser ([http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Peli_Case_1.docx Peli case n.1 doc file])<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card) ([http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Peli_Case_2.docx Peli case n.2 doc file])<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/STANLEY%20BIG%20CASE.docx doc file] for the photo collection of the items stored in the STANLEY case close to my desk.<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Peli_Case_1.docx doc file] for the photo collection of the items stored in the PELI case n.1.<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
<br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Peli_Case_2.docx doc file] for the photo collection of the items stored in the PELI case n.2.<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/DeWALT_Tower.docx doc file] for the photo collection of the items stored in the DeWALT Tower.<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3673Proton Calorimetry/Equipment/Inventory Location2020-12-31T14:38:36Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
A collection of photos can be found in the directory: [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/photos/ /unix/www/html/pbt/wikiData/photos/Inventory_Dec2020]<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Wooden_bookshelf.docx doc file] for the photo collection of the items stored in the wooden bookshelf.<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/STANLEY%20BIG%20CASE.docx doc file] for the photo collection of the items stored in the STANLEY case close to my desk.<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Peli_Case_1.docx doc file] for the photo collection of the items stored in the PELI case n.1.<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
<br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Peli_Case_2.docx doc file] for the photo collection of the items stored in the PELI case n.2.<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/DeWALT_Tower.docx doc file] for the photo collection of the items stored in the DeWALT Tower.<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3672Proton Calorimetry/Equipment/Inventory Location2020-12-31T14:34:58Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
A collection of photos can be found in the directory: [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/photos/ /unix/www/html/pbt/wikiData/photos/Inventory_Dec2020]<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/Wooden_bookshelf.docx doc file] for the photo collection of the items stored in the wooden bookshelf.<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
Look at this [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/STANLEY%20BIG%20CASE.docx doc file] for the photo collection of the items stored in the STANLEY case close to my desk.<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
<br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3671Proton Calorimetry/Equipment/Inventory Location2020-12-30T19:36:44Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
A collection of photos can be found in the directory: [http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/photos/ /unix/www/html/pbt/wikiData/photos/Inventory_Dec2020]<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
<br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3670Proton Calorimetry/Equipment/Inventory Location2020-12-30T19:35:58Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
A collection of photos can be found in the directory: [ /unix/www/html/pbt/wikiData/photos/Inventory_Dec2020 http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/photos/]<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
<br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3669Proton Calorimetry/Equipment/Inventory Location2020-12-30T19:35:38Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
A collection of photos can be found in the directory: [ http://www.hep.ucl.ac.uk/pbt/wikiData/photos/Inventory_Dec2020/photos/ /unix/www/html/pbt/wikiData/photos/Inventory_Dec2020]<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
<br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3668Proton Calorimetry/Equipment/Inventory Location2020-12-30T18:54:09Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
<br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3667Proton Calorimetry/Equipment/Inventory Location2020-12-30T18:53:39Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cables<br />
* Wifi router LINKSYS AC1900<br />
* USB to USB long cables<br />
* 4 grommet kits <br />
* Long SHV cables for HV power supply<br />
* Desktop switch<br />
* WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
* Caen NDT1470 HV Supply<br />
* Caen NDT1470 HV Supply power adaptor + mains cable<br />
* SHV cables for HV power supply<br />
* <br />
* Caen DT5751 Digitiser <br />
* Caen DT5751 Digitiser power cable<br />
* USB Cable to connect the digitiser to the laptop<br />
* SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
* Neutral filter (fragile)<br />
* Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Mains power cable + graphic card power supply<br />
* USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
* Travel network switch<br />
* Network switch power cable: USB to barrel power connector <br />
* Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3666Proton Calorimetry/Equipment/Inventory Location2020-12-30T18:52:27Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
- 1 Power strip: USB and Universal sockets<br />
- Mains power cables<br />
- Wifi router LINKSYS AC1900<br />
- USB to USB long cables<br />
- 4 grommet kits <br />
- Long SHV cables for HV power supply<br />
- Desktop switch<br />
- WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
- Caen NDT1470 HV Supply<br />
- Caen NDT1470 HV Supply power adaptor + mains cable<br />
- SHV cables for HV power supply<br />
- <br />
- Caen DT5751 Digitiser <br />
- Caen DT5751 Digitiser power cable<br />
- USB Cable to connect the digitiser to the laptop<br />
- SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
- Neutral filter (fragile)<br />
- Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
- Mains power cable + graphic card power supply<br />
- USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
- Travel network switch<br />
- Network switch power cable: USB to barrel power connector <br />
- Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
*Bottom Case. Case n. 1<br />
** Caliper<br />
** USB to USB cables<br />
** USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
** D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
*Case n. 2<br />
** PMT<br />
** Silicone Optical grease<br />
** Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
** black tape<br />
<br />
*Case n. 3<br />
** SMA to SMA long and short robust cables<br />
** BNC to BNC cable<br />
** BNC to MCX cables for the CAEN digitiser<br />
<br />
*Case n. 4<br />
** Wera Tools: screwdrivers set , blade and L keys<br />
<br />
*Case n. 5<br />
** Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
*Case n. 6<br />
** BNC, SMA, and SHV patch panel <br />
** 1 Power strip: USB and Universal sockets<br />
** Mains power cable<br />
** Ethernet cables<br />
** 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
*Case n. 7<br />
** ISDI CMOS sensor<br />
** sensor enclosure screws and washers<br />
** Camera Link Cable<br />
<br />
*Top container. Case n. 8<br />
** BNC, SMA, and MCX connectors<br />
** USB sockets for the parch panel<br />
** Tape Measure <br />
** Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3665Proton Calorimetry/Equipment/Inventory Location2020-12-30T18:49:18Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
<br />
== STANLEY BIG CASE ==<br />
<br />
- 1 Power strip: USB and Universal sockets<br />
- Mains power cables<br />
- Wifi router LINKSYS AC1900<br />
- USB to USB long cables<br />
- 4 grommet kits <br />
- Long SHV cables for HV power supply<br />
- Desktop switch<br />
- WARCO Vice <br />
<br />
<br />
== PELI Case trolley n.1 ==<br />
<br />
- Caen NDT1470 HV Supply<br />
- Caen NDT1470 HV Supply power adaptor + mains cable<br />
- SHV cables for HV power supply<br />
- <br />
- Caen DT5751 Digitiser <br />
- Caen DT5751 Digitiser power cable<br />
- USB Cable to connect the digitiser to the laptop<br />
- SMA to SMA short cable<br />
<br />
<br />
<br />
== PELI Case trolley n.2 ==<br />
<br />
- Neutral filter (fragile)<br />
- Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
- Mains power cable + graphic card power supply<br />
- USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
- Travel network switch<br />
- Network switch power cable: USB to barrel power connector <br />
- Short ethernet cable<br />
<br />
<br />
== DeWALT Tower ==<br />
<br />
From Bottom to Top<br />
1. Bottom Case<br />
* Caliper<br />
* USB to USB cables<br />
* USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
* D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
1.<br />
* PMT<br />
* Silicone Optical grease<br />
* Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
* black tape<br />
<br />
3.<br />
*SMA to SMA long and short robust cables<br />
*BNC to BNC cable<br />
*BNC to MCX cables for the CAEN digitiser<br />
<br />
4.<br />
*Wera Tools: screwdrivers set , blade and L keys<br />
<br />
5.<br />
* Scintillators with different sizes. Additional scintillator sheets are on my desk<br />
<br />
6<br />
* BNC, SMA, and SHV patch panel <br />
* 1 Power strip: USB and Universal sockets<br />
* Mains power cable<br />
* Ethernet cables<br />
* 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
7<br />
* ISDI CMOS sensor<br />
* sensor enclosure screws and washers<br />
* Camera Link Cable<br />
<br />
8 Top container<br />
* BNC, SMA, and MCX connectors<br />
* USB sockets for the parch panel<br />
* Tape Measure <br />
* Photodiodes and LEDs</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3664Proton Calorimetry/Equipment/Inventory Location2020-12-30T18:42:42Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
<br />
<br />
== WOODEN BOOKSHELF ==<br />
<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
STANLEY BIG CASE:<br />
- 1 Power strip: USB and Universal sockets<br />
- Mains power cables<br />
- Wifi router LINKSYS AC1900<br />
- USB to USB long cables<br />
- 4 grommet kits <br />
- Long SHV cables for HV power supply<br />
- Desktop switch<br />
- WARCO Vice <br />
<br />
PELI Case trolley n.1:<br />
- Caen NDT1470 HV Supply<br />
- Caen NDT1470 HV Supply power adaptor + mains cable<br />
- SHV cables for HV power supply<br />
- <br />
- Caen DT5751 Digitiser <br />
- Caen DT5751 Digitiser power cable<br />
- USB Cable to connect the digitiser to the laptop<br />
- SMA to SMA short cable<br />
<br />
<br />
PELI Case trolley n.2:<br />
- Neutral filter (fragile)<br />
- Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
- Mains power cable + graphic card power supply<br />
- USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
- Travel network switch<br />
- Network switch power cable: USB to barrel power connector <br />
- Short ethernet cable<br />
<br />
From Bottom to Top<br />
1 Bottom Case<br />
- Caliper<br />
- USB to USB cables<br />
- USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
- D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
. <br />
<br />
<br />
2.<br />
- PMT<br />
- Silicone Optical grease<br />
- Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
- black tape<br />
<br />
<br />
<br />
<br />
3.<br />
-SMA to SMA long and short robust cables<br />
-BNC to BNC cable<br />
-BNC to MCX cables for the CAEN digitiser<br />
<br />
<br />
<br />
<br />
4.<br />
Wera Tools: screwdrivers set , blade and L keys<br />
<br />
<br />
5.<br />
Scintillators<br />
- different sizes. Additional scintillator sheets are on my desk<br />
<br />
<br />
<br />
<br />
<br />
6<br />
- BNC, SMA, and SHV patch panel <br />
- 1 Power strip: USB and Universal sockets<br />
- Mains power cable<br />
- Ethernet cables<br />
- 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
<br />
<br />
<br />
7<br />
-ISDI CMOS sensor<br />
- sensor enclosure screws and washers<br />
- Camera Link Cable<br />
<br />
<br />
<br />
<br />
<br />
<br />
8 Top container<br />
- BNC, SMA, and MCX connectors<br />
- USB sockets for the parch panel<br />
- Tape Measure <br />
- Photodiodes and LEDs<br />
-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3663Proton Calorimetry/Equipment/Inventory Location2020-12-30T18:42:17Z<p>RaffaellaRadogna: </p>
<hr />
<div>List of tools and equipment stored in D106 updated on Dec 2020.<br />
<br />
WOODEN BOOKSHELF:<br />
* 2 PELI cases <br />
** 1 PELI CASE contains HV+Digitiser<br />
** 1 PELI CASE contains the Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
* Adam Gibson Nikon camera tools (in the orange plastic bag)<br />
* Mylar Windows for Experimental Runs<br />
* Travel Router<br />
* Features mount for scintillator and PMT<br />
* USB to USB cables<br />
* Ethernet cabler: different length<br />
* Empty Thunderbolt Expansion Chassis with Display Port box (only power cables inside)<br />
* 1 USB to USBC cable<br />
* 1 USB to microUSB cable<br />
* 3 microUSB to USBc cables (different lengths)<br />
<br />
STANLEY BIG CASE:<br />
- 1 Power strip: USB and Universal sockets<br />
- Mains power cables<br />
- Wifi router LINKSYS AC1900<br />
- USB to USB long cables<br />
- 4 grommet kits <br />
- Long SHV cables for HV power supply<br />
- Desktop switch<br />
- WARCO Vice <br />
<br />
PELI Case trolley n.1:<br />
- Caen NDT1470 HV Supply<br />
- Caen NDT1470 HV Supply power adaptor + mains cable<br />
- SHV cables for HV power supply<br />
- <br />
- Caen DT5751 Digitiser <br />
- Caen DT5751 Digitiser power cable<br />
- USB Cable to connect the digitiser to the laptop<br />
- SMA to SMA short cable<br />
<br />
<br />
PELI Case trolley n.2:<br />
- Neutral filter (fragile)<br />
- Thunderbolt Expansion Chassis with Display Port (CMOS sensor graphic card)<br />
- Mains power cable + graphic card power supply<br />
- USBc to USBc cable to connect the graphic card enclosure to a laptop<br />
- Travel network switch<br />
- Network switch power cable: USB to barrel power connector <br />
- Short ethernet cable<br />
<br />
From Bottom to Top<br />
1 Bottom Case<br />
- Caliper<br />
- USB to USB cables<br />
- USB to jack type M Barrel 5V DC power supply (spare cable for the network switch)<br />
- D-Link Network switch empty box (the switch is in Peli Case 2)<br />
<br />
. <br />
<br />
<br />
2.<br />
- PMT<br />
- Silicone Optical grease<br />
- Scintillator cleaning wipes and liquid cleaner (isopropane?)<br />
- black tape<br />
<br />
<br />
<br />
<br />
3.<br />
-SMA to SMA long and short robust cables<br />
-BNC to BNC cable<br />
-BNC to MCX cables for the CAEN digitiser<br />
<br />
<br />
<br />
<br />
4.<br />
Wera Tools: screwdrivers set , blade and L keys<br />
<br />
<br />
5.<br />
Scintillators<br />
- different sizes. Additional scintillator sheets are on my desk<br />
<br />
<br />
<br />
<br />
<br />
6<br />
- BNC, SMA, and SHV patch panel <br />
- 1 Power strip: USB and Universal sockets<br />
- Mains power cable<br />
- Ethernet cables<br />
- 1 box containing: DC-4200 MHz Signal Splitter, SMA connectors, BNC to SMA connectors and SMA to MCX adaptor. Spanner for SMA connectors.<br />
<br />
<br />
<br />
<br />
7<br />
-ISDI CMOS sensor<br />
- sensor enclosure screws and washers<br />
- Camera Link Cable<br />
<br />
<br />
<br />
<br />
<br />
<br />
8 Top container<br />
- BNC, SMA, and MCX connectors<br />
- USB sockets for the parch panel<br />
- Tape Measure <br />
- Photodiodes and LEDs<br />
-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment&diff=3662Proton Calorimetry/Equipment2020-12-30T18:25:44Z<p>RaffaellaRadogna: </p>
<hr />
<div>This page contains information on the various pieces of experimental equipment that form the Proton Calorimetry detector setup.<br />
<br />
== [[/Inventory Location|D106 Inventory and Location]] ==<br />
<br />
The list of items and tools stored in D106, updated on Dec 2020, is available on the [[/Inventory Location|D106 Inventory and Location]] page.<br />
<br />
== [[/ISDI CMOS Sensor|ISDI CMOS Sensor]] ==<br />
<br />
The [https://www.isdicmos.com/products ISDI 1510-100 15x10cm CMOS pixel sensor] allows images of the scintillator detector stack light output to be recorded. <br />
<br />
More details can be found on the [[/ISDI CMOS Sensor|ISDI CMOS Sensor]] page.<br />
<br />
== [[/Caen Detector Emulator|Caen Detector Emulator]] ==<br />
<br />
The [http://www.caen.it/csite/CaenProd.jsp?idmod=837&parent=59 Caen DT5800D Detector Emulator] provides the capability for emulating the output of an arbitrary detector system. <br />
<br />
More details can be found on the [[/Caen Detector Emulator|Caen Detector Emulator]] page.<br />
<br />
== [[/Nikon DSLR|Nikon D70 DSLR]] ==<br />
<br />
A [https://www.nikonusa.com/en/nikon-products/product-archive/dslr-cameras/d70.html Nikon D70 DSLR] was borrowed from Adam Gibson in Medical Physics to allow remote acquisition of scintillator images.<br />
<br />
More details can be found on the [[/Nikon DSLR|Nikon D70 DSLR]] page.<br />
<br />
== [[/TI DDC1128EVM|TI DDC1128 Evaluation Module]] ==<br />
The DDC1128EVM provides a platform for evaluating the DDC1128 charge digitizing A/D converters. A PC interface board and two DDC1128 devices are included along with software that makes analysis and testing of these devices manageable.<br />
<br />
More details can be found on the [[/TI DDC1128EVM|TI DDC1128 Evaluation Module]] page.<br />
<br />
== [[/ZyboZ7_DDC232|Zybo Z7 and DDC232]] ==<br />
The DDC232 is a 32-channel ADC. Housed on a custom circuit board, it used to measure the charges of 16 photodiodes and is interfaced with a Zybo Z7-10.<br />
<br />
More details can be found on the [[/ZyboZ7_DDC232|Zybo Z7 and DDC232]] page.<br />
<br />
== [[/Remote_Desktop_Access|Remote Desktop Access]] ==<br />
More details can be found on the [[/Remote_Desktop_Access|Remote Desktop Access]] page.<br />
<br />
== [[/HV|Connecting HV to DAQ Laptop]] ==<br />
More details can be found on the [[/HV|Connecting HV to DAQ Laptop]] page.<br />
<br />
== [[/LeCroy|LeCroy Oscilloscope]] ==<br />
Details of the analysis of single-module calorimeter data taken by the LeCroy scope can be found on the [[/LeCroy|LeCroy Oscilloscope]] page. <br />
<br />
This page needs to be updated with work completed in the 2018-2019 academic year.<br />
<br />
== Manuals ==<br />
<br />
Manuals for relevant detector hardware.<br />
<br />
=== WaveCatcher ===<br />
<br />
; [http://www.hep.ucl.ac.uk/pbt/wikiData/manuals/WaveCatcher/WaveCatcherFamily_V1.2.pdf WaveCatcherFamily_V1.2.pdf] : Full description of the WaveCatcher Family hardware with paths to Control & Readout software and libraries. Covers the 2-channel and 8-channel WaveCatcher modules, the 16-Channel WaveCatcher board and module, and all the options of the 64-Channel WaveCatcher Crate (16, 32, 48 or 64 channels).<br />
; [http://www.hep.ucl.ac.uk/pbt/wikiData/manuals/WaveCatcher/WaveCatcher64Ch_Library_1.1.16.pdf WaveCatcher64Ch_Library_1.1.16.pdf] : Users manual for WaveCatcher64Ch Control and Readout Library<br />
; [http://www.hep.ucl.ac.uk/pbt/wikiData/manuals/WaveCatcher/WaveCatcherSoftware_V1.1.pdf WaveCatcherSoftware_V1.1.pdf] : User manual for the WaveCatcher Family Control & Readout software (Windows Only, includes scope-like GUI).<br />
<br />
=== Caen ===<br />
<br />
; [http://www.caen.it/csite/CaenProd.jsp?parent=14&idmod=632 DT5751 Product Page] : Caen product page for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.<br />
; [http://www.caen.it/servlet/checkCaenManualFile?Id=12555 DT5751 User Manual] : User manual for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.<br />
<br />
; [http://www.caen.it/csite/CaenProd.jsp?parent=14&idmod=990 DT5740 Product Page] : Caen product page for DT5740 16/32-Channel 12 bit 62.5MS/s Digitizer supporting DPP-QDC firmware.<br />
; [http://www.caen.it/servlet/checkCaenManualFile?Id=11947 DT5740 User Manual] : User manual for the DT5740 Desktop 16/32-channel Desktop Digitizer, that also functions in QDC charge integration mode with the DPP-QDC firmware.<br />
; [http://www.caen.it/servlet/checkCaenManualFile?Id=11286 UM4874_DPP-QDC_UserManual] : User manual for the Digital Pulse Processing for Charge to Digital Converter DPP-QDC implemented exclusively for the "D" model of the 740 Digitizer series (740D).</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment&diff=3661Proton Calorimetry/Equipment2020-12-30T18:23:52Z<p>RaffaellaRadogna: </p>
<hr />
<div>This page contains information on the various pieces of experimental equipment that form the Proton Calorimetry detector setup.<br />
<br />
== [[/Inventory Location|Inventory and Location]] ==<br />
<br />
== [[/ISDI CMOS Sensor|ISDI CMOS Sensor]] ==<br />
<br />
The [https://www.isdicmos.com/products ISDI 1510-100 15x10cm CMOS pixel sensor] allows images of the scintillator detector stack light output to be recorded. <br />
<br />
More details can be found on the [[/ISDI CMOS Sensor|ISDI CMOS Sensor]] page.<br />
<br />
== [[/Caen Detector Emulator|Caen Detector Emulator]] ==<br />
<br />
The [http://www.caen.it/csite/CaenProd.jsp?idmod=837&parent=59 Caen DT5800D Detector Emulator] provides the capability for emulating the output of an arbitrary detector system. <br />
<br />
More details can be found on the [[/Caen Detector Emulator|Caen Detector Emulator]] page.<br />
<br />
== [[/Nikon DSLR|Nikon D70 DSLR]] ==<br />
<br />
A [https://www.nikonusa.com/en/nikon-products/product-archive/dslr-cameras/d70.html Nikon D70 DSLR] was borrowed from Adam Gibson in Medical Physics to allow remote acquisition of scintillator images.<br />
<br />
More details can be found on the [[/Nikon DSLR|Nikon D70 DSLR]] page.<br />
<br />
== [[/TI DDC1128EVM|TI DDC1128 Evaluation Module]] ==<br />
The DDC1128EVM provides a platform for evaluating the DDC1128 charge digitizing A/D converters. A PC interface board and two DDC1128 devices are included along with software that makes analysis and testing of these devices manageable.<br />
<br />
More details can be found on the [[/TI DDC1128EVM|TI DDC1128 Evaluation Module]] page.<br />
<br />
== [[/ZyboZ7_DDC232|Zybo Z7 and DDC232]] ==<br />
The DDC232 is a 32-channel ADC. Housed on a custom circuit board, it used to measure the charges of 16 photodiodes and is interfaced with a Zybo Z7-10.<br />
<br />
More details can be found on the [[/ZyboZ7_DDC232|Zybo Z7 and DDC232]] page.<br />
<br />
== [[/Remote_Desktop_Access|Remote Desktop Access]] ==<br />
More details can be found on the [[/Remote_Desktop_Access|Remote Desktop Access]] page.<br />
<br />
== [[/HV|Connecting HV to DAQ Laptop]] ==<br />
More details can be found on the [[/HV|Connecting HV to DAQ Laptop]] page.<br />
<br />
== [[/LeCroy|LeCroy Oscilloscope]] ==<br />
Details of the analysis of single-module calorimeter data taken by the LeCroy scope can be found on the [[/LeCroy|LeCroy Oscilloscope]] page. <br />
<br />
This page needs to be updated with work completed in the 2018-2019 academic year.<br />
<br />
== Manuals ==<br />
<br />
Manuals for relevant detector hardware.<br />
<br />
=== WaveCatcher ===<br />
<br />
; [http://www.hep.ucl.ac.uk/pbt/wikiData/manuals/WaveCatcher/WaveCatcherFamily_V1.2.pdf WaveCatcherFamily_V1.2.pdf] : Full description of the WaveCatcher Family hardware with paths to Control & Readout software and libraries. Covers the 2-channel and 8-channel WaveCatcher modules, the 16-Channel WaveCatcher board and module, and all the options of the 64-Channel WaveCatcher Crate (16, 32, 48 or 64 channels).<br />
; [http://www.hep.ucl.ac.uk/pbt/wikiData/manuals/WaveCatcher/WaveCatcher64Ch_Library_1.1.16.pdf WaveCatcher64Ch_Library_1.1.16.pdf] : Users manual for WaveCatcher64Ch Control and Readout Library<br />
; [http://www.hep.ucl.ac.uk/pbt/wikiData/manuals/WaveCatcher/WaveCatcherSoftware_V1.1.pdf WaveCatcherSoftware_V1.1.pdf] : User manual for the WaveCatcher Family Control & Readout software (Windows Only, includes scope-like GUI).<br />
<br />
=== Caen ===<br />
<br />
; [http://www.caen.it/csite/CaenProd.jsp?parent=14&idmod=632 DT5751 Product Page] : Caen product page for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.<br />
; [http://www.caen.it/servlet/checkCaenManualFile?Id=12555 DT5751 User Manual] : User manual for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.<br />
<br />
; [http://www.caen.it/csite/CaenProd.jsp?parent=14&idmod=990 DT5740 Product Page] : Caen product page for DT5740 16/32-Channel 12 bit 62.5MS/s Digitizer supporting DPP-QDC firmware.<br />
; [http://www.caen.it/servlet/checkCaenManualFile?Id=11947 DT5740 User Manual] : User manual for the DT5740 Desktop 16/32-channel Desktop Digitizer, that also functions in QDC charge integration mode with the DPP-QDC firmware.<br />
; [http://www.caen.it/servlet/checkCaenManualFile?Id=11286 UM4874_DPP-QDC_UserManual] : User manual for the Digital Pulse Processing for Charge to Digital Converter DPP-QDC implemented exclusively for the "D" model of the 740 Digitizer series (740D).</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Equipment/Inventory_Location&diff=3660Proton Calorimetry/Equipment/Inventory Location2020-12-30T18:22:23Z<p>RaffaellaRadogna: Created page with "Updated Dec 2020"</p>
<hr />
<div>Updated Dec 2020</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Nov27&diff=3573Proton Calorimetry/Experimental Runs/2020/Nov272020-12-01T18:38:31Z<p>RaffaellaRadogna: </p>
<hr />
<div>27 Nov 2020<br />
<br />
<br />
== Dark noise measurements in different rooms at UCL and with different conditions==<br />
<br />
Setup: <br />
- PD array exposed to dark <br />
- some runs have noise level recorded with PD unplugged<br />
<br />
Aim: Measure the dark noise with different conditions. The spikes visible for all runs recorded inside D27 might come from noise <br />
<br />
list of runs in this file unix/pbt/data/ucl/20201127/20201127_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201027/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!DDC int time<br />
!DDC Full scale<br />
!Photodiodes<br />
!Notes<br />
|-<br />
|1|| 170us || 350pC FSR || PDs: S1337-16BR|| Lab D27: dark room. DDC232 board with PD placed INSIDE the box, close to the patch panel holes (probably getting some light).<br />
|-<br />
|2|| 170us || 350pC FSR || PDs: S12915-16R|| Lab D27: dark room. DDC232 board with PD placed face down INSIDE the box.<br />
|-<br />
|3|| 170us || 350pC FSR || PDs: S12915-16R|| Saad's office D109: dark room. DDC232 board with PD placed face down INSIDE the box.<br />
|-<br />
|4|| 170us || 350pC FSR || PDs: S12915-16R|| Saad's office D109: dark room. DDC232 board with PD placed and covered OUTSIDE the box.<br />
|-<br />
|5|| 170us || 350pC FSR || PDs: S12915-16R|| Saad's office D109: dark room. DDC232 board with PD UNPLUGGED placed OUTSIDE the box.<br />
|-<br />
|6|| 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: dark room (light off, but blinds open). DDC232 board with PD UNPLUGGED placed OUTSIDE the box. <br />
|-<br />
|7|| 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: dark room (blinds closed). DDC232 board with PD UNPLUGGED placed OUTSIDE the box.<br />
|-<br />
|8|| 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: dark room (blinds closed). DDC232 board with PD placed and covered OUTSIDE the box. <br />
|-<br />
|9|| 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: DDC232 board with PD placed OUTSIDE the box. UV torch.<br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3572Proton Calorimetry/Experimental Runs2020-12-01T18:37:25Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/2020/Nov27|Dark noise in different rooms at UCL. Nov 27th]]<br />
: Large statistic tests of dark noise in D27, D109 and D106.<br />
<br />
; [[/2020/Nov13|Electronics test with large statistics. Nov 13th]]<br />
: Large statistic tests of photodiodes with light injected in many layers, different FSR and integration times, test mode and PD unplugged.<br />
<br />
; [[/2020/Nov12|Home Test of Photodiodes. Nov 12th]]<br />
: Large statistic tests of photodiodes at home with different FSR and integration times.<br />
<br />
; [[/2020/Oct23|Large statistics photodiode signal. Oct 23rd]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal. Oct 7th]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
; [[/2019/Mar26|LeCroy HDO6104 Trigger Dead-time Measurements]]<br />
: Summary of LeCroy HDO6104 Trigger Dead-time Measurements.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020&diff=3571Proton Calorimetry/Experimental Runs/20202020-12-01T18:37:04Z<p>RaffaellaRadogna: </p>
<hr />
<div>; [[/Nov27|Dark noise in different rooms at UCL. Nov 27th]]<br />
: Large statistic tests of dark noise in D27, D109 and D106.<br />
<br />
; [[/Nov13|Electronics test with large statistics. Nov 13th]]<br />
: Large statistic tests of photodiodes with light injected in many layers, different FSR and integration times, test mode and PD unplugged.<br />
<br />
; [[/Nov12|Home Test of Photodiodes. Nov 12th]]<br />
: Large statistic tests of photodiodes at home with different FSR and integration times.<br />
<br />
; [[/Oct23|Large statistics photodiode signal. Oct 23rd]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/Oct7|Comparison of sensor and photodiodes signal. Oct 7th]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Nov27&diff=3570Proton Calorimetry/Experimental Runs/2020/Nov272020-12-01T18:35:33Z<p>RaffaellaRadogna: Created page with "27 Nov 2020 == Dark noise measurements in different rooms at UCL and with different conditions== Setup: - PD array exposed to dark - some runs have noise level recorded with..."</p>
<hr />
<div>27 Nov 2020<br />
<br />
<br />
== Dark noise measurements in different rooms at UCL and with different conditions==<br />
<br />
Setup: <br />
- PD array exposed to dark <br />
- some runs have noise level recorded with PD unplugged<br />
<br />
Aim: Measure the dark noise with different conditions. The spikes visible for all runs recorded inside D27 might come from noise <br />
<br />
list of runs in this file unix/pbt/data/ucl/20201127/20201127_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201027/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!Photodiodes<br />
!Notes<br />
|-<br />
|1|| || || || - || || 170us || 350pC FSR || PDs: S1337-16BR|| Lab D27: dark room. DDC232 board with PD placed INSIDE the box, close to the patch panel holes (probably getting some light).<br />
|-<br />
|2|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Lab D27: dark room. DDC232 board with PD placed face down INSIDE the box.<br />
|-<br />
|3|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Saad's office D109: dark room. DDC232 board with PD placed face down INSIDE the box.<br />
|-<br />
|4|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Saad's office D109: dark room. DDC232 board with PD placed and covered OUTSIDE the box.<br />
|-<br />
|5|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Saad's office D109: dark room. DDC232 board with PD UNPLUGGED placed OUTSIDE the box.<br />
|-<br />
|6|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: dark room (light off, but blinds open). DDC232 board with PD UNPLUGGED placed OUTSIDE the box. <br />
|-<br />
|7|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: dark room (blinds closed). DDC232 board with PD UNPLUGGED placed OUTSIDE the box.<br />
|-<br />
|8|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: dark room (blinds closed). DDC232 board with PD placed and covered OUTSIDE the box. <br />
|-<br />
|9|| || || || - || || 170us || 350pC FSR || PDs: S12915-16R|| Raffy's office D106: DDC232 board with PD placed OUTSIDE the box. UV torch.<br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/25&diff=3562Proton Calorimetry/Meetings/2020/11/252020-11-25T14:29:46Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 25th November ==<br />
<br />
=== Present ===<br />
<br />
'''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
* Checking the code as suggested by Ruben to double check the PD distributions and two chennels combination. Ongoing<br />
* Discussed with Saad the results to send to Marko. We will have a chat with Marko tomorrow.<br />
* Filled and submitted the official "Request for Change form" for the IAA grant. Submitted to Innovation and Enterprise. New proposed end date is April 15.<br />
** Will work on the shopping list anyway asap<br />
** Will send the grant budget details to Tony to purchase the new "DAQ computer". I&E never replied to my details and request, so I'll try to assume that they agree with my justification.<br />
<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings&diff=3561Proton Calorimetry/Meetings2020-11-25T14:23:40Z<p>RaffaellaRadogna: </p>
<hr />
<div>Proton Calorimetry Meeting Minutes.<br />
<br />
== [[/2020|2020]] ==<br />
<br />
=== [[/2020/11/25|25th November]] ===<br />
<br />
=== [[/2020/11/18|18th November]] ===<br />
<br />
=== [[/2020/11/11|11th November]] ===<br />
<br />
=== [[/2020/11/04|4th November]] ===<br />
<br />
=== [[/2020/10/21|21st October]] ===<br />
<br />
=== [[/2020/10/07|7th October]] ===<br />
<br />
=== [[/2020/09/23|23rd September]] ===<br />
<br />
=== [[/2020/09/16|16th September]] ===<br />
<br />
=== [[/2020/09/09|9th September]] ===<br />
<br />
=== [[/2020/09/02|2nd September]] ===<br />
<br />
=== [[/2020/08/26|26th August]] ===<br />
<br />
=== [[/2020/08/19|19th August]] ===<br />
<br />
=== [[/2020/08/12|12th August]] ===<br />
<br />
=== [[/2020/08/05|5th August]] ===<br />
<br />
=== [[/2020/07/29|29th July]] ===<br />
<br />
=== [[/2020/07/22|22nd July]] ===<br />
<br />
=== [[/2020/07/15|15th July]] ===<br />
<br />
=== [[/2020/07/08|8th July]] ===<br />
<br />
=== [[/2020/07/01|1st July]] ===<br />
<br />
=== [[/2020/06/24|24th June]] ===<br />
<br />
=== [[/2020/06/17|17th June]] ===<br />
<br />
=== [[/2020/06/09|9th June]] ===<br />
<br />
=== [[/2020/06/03|3rd June]] ===<br />
<br />
=== [[/2020/05/27|27th May]] ===<br />
<br />
=== [[/2020/05/20|20th May]] ===<br />
<br />
=== [[/2020/05/13|13th May]] ===<br />
<br />
=== [[/2020/05/06|6th May]] ===<br />
<br />
=== [[/2020/04/29|29th April]] ===<br />
<br />
=== [[/2020/04/22|22nd April]] ===<br />
<br />
=== [[/2020/04/15|15th April]] ===<br />
<br />
=== [[/2020/02/24|24th February]] ===<br />
<br />
=== [[/2020/02/17|17th February]] ===<br />
<br />
=== [[/2020/01/28|28th January]] ===<br />
<br />
=== [[/2020/01/07|7th January]] ===<br />
<br />
== [[/2019|2019]] ==<br />
<br />
=== [[/2019/12/10|10th December]] ===<br />
<br />
=== [[/2019/11/26|26th November]] ===<br />
<br />
=== [[/2019/11/12|12th November]] ===<br />
<br />
=== [[/2019/10/29|29th October]] ===<br />
<br />
=== [[/2019/10/08|8th October]] ===<br />
<br />
=== [[/2019/10/04|4th October]] ===<br />
<br />
=== [[/2019/03/06|6th March]] ===<br />
<br />
=== [[/2019/02/27|27th February]] ===<br />
<br />
=== [[/2019/02/13|13th February]] ===<br />
<br />
=== [[/2019/02/06|6th February]] ===<br />
<br />
=== [[/2019/01/30|30th January]] ===<br />
<br />
=== [[/2019/01/23|23rd January]] ===<br />
<br />
=== [[/2019/01/16|16th January]] ===<br />
<br />
=== [[/2019/01/09|9th January]] ===<br />
<br />
== [[/2018|2018]] ==<br />
<br />
=== [[/2018/11/28|28th November]] ===<br />
<br />
=== [[/2018/11/14|14th November]] ===<br />
<br />
=== [[/2018/11/07|7th November]] ===<br />
<br />
=== [[/2018/10/24|24th October]] ===<br />
<br />
=== [[/2018/10/17|17th October]] ===<br />
<br />
=== [[/2018/10/10|10th October]] ===<br />
<br />
=== [[/2018/10/03|3rd October]] ===<br />
<br />
=== [[/2018/09/05|5th September]] ===<br />
<br />
=== [[/2018/08/29|29th August]] ===<br />
<br />
=== [[/2018/08/22|22nd August]] ===<br />
<br />
=== [[/2018/08/15|15th August]] ===<br />
<br />
=== [[/2018/05/30|30th May]] ===<br />
<br />
=== [[/2018/03/14|14th March]] ===<br />
<br />
=== [[/2018/03/07|7th March]] ===<br />
<br />
=== [[/2018/02/28|28th February]] ===<br />
<br />
=== [[/2018/02/14|14th February]] ===<br />
<br />
=== [[/2018/02/07|7th February]] ===<br />
<br />
=== [[/2018/01/31|31st January]] ===<br />
<br />
=== [[/2018/01/25-ISDI|25th January]] with ISDI ===<br />
<br />
=== [[/2018/01/24|24th January]] ===<br />
<br />
=== [[/2018/01/17|17th January]] ===<br />
<br />
=== [[/2018/01/10|10th January]] ===<br />
<br />
== [[/2017|2017]] ==<br />
<br />
=== [[/2017/12/13|13th December]] ===<br />
<br />
=== [[/2017/12/06|6th December]] ===<br />
<br />
=== [[/2017/11/29|29nd November]] ===<br />
<br />
=== [[/2017/11/22|22nd November]] ===<br />
<br />
=== [[/2017/11/15|15th November]] ===<br />
<br />
=== [[/2017/10/18|18th October]] ===<br />
<br />
=== [[/2017/10/11|11th October]] ===<br />
<br />
=== [[/2017/10/04|4th October]] ===<br />
<br />
=== [[/2017/09/27|27th September]] ===<br />
<br />
=== [[/2017/09/20|20th September]] ===<br />
<br />
=== [[/2017/08/23|23rd August]] ===<br />
<br />
=== [[/2017/08/16|16th August]] ===<br />
<br />
=== [[/2017/07/18|18th July]] ===<br />
<br />
=== [[/2017/07/05|5th July]] ===<br />
<br />
=== [[/2017/06/21|21st June]] ===<br />
<br />
=== [[/2017/05/31|31st May]] ===<br />
<br />
=== [[/2017/05/24|24th May]] ===<br />
<br />
=== [[/2017/05/11|11th May]] ===<br />
<br />
=== [[/2017/04/28|28th April]] (Proton dose build-up: Adam Gibson) ===<br />
<br />
=== [[/2017/03/29|29th March]] ===<br />
<br />
=== [[/2017/03/22|22nd March]] ===<br />
<br />
=== [[/2017/03/15|15th March]] ===<br />
<br />
=== [[/2017/03/08|8th March]] ===<br />
<br />
=== [[/2017/02/22|22nd February]] ===<br />
<br />
=== [[/2017/02/15|15th February]] ===<br />
<br />
=== [[/2017/02/08|8th February]] ===<br />
<br />
=== [[/2017/02/01|1st February]] ===<br />
<br />
=== [[/2017/01/25|25th January]] ===<br />
<br />
=== [[/2017/01/11|11th January]] ===<br />
<br />
== [[/2016|2016]] ==<br />
<br />
=== [[/2016/12/14|14th December]] ===<br />
<br />
=== [[/2016/11/30|30th November]] ===<br />
<br />
=== [[/2016/11/23|23rd November]] ===<br />
<br />
=== [[/2016/11/16|16th November]] ===<br />
<br />
=== [[/2016/11/09|9th November]] ===<br />
<br />
=== [[/2016/11/02|2nd November]] ===<br />
<br />
=== [[/2016/10/12|12th October]] ===<br />
<br />
=== [[/2016/10/05|5th October]] ===<br />
<br />
=== [[/2016/09/15|15th September]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020&diff=3560Proton Calorimetry/Meetings/20202020-11-25T14:23:11Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes of Proton Calorimetry Meetings in 2020 ==<br />
<br />
=== [[/11/25|25th November]] ===<br />
<br />
=== [[/11/18|18th November]] ===<br />
<br />
=== [[/11/11|11th November]] ===<br />
<br />
=== [[/11/04|4th November]] ===<br />
<br />
=== [[/10/21|21st October]] ===<br />
<br />
=== [[/10/07|7th October]] ===<br />
<br />
=== [[/09/23|23rd September]] ===<br />
<br />
=== [[/09/16|16th September]] ===<br />
<br />
=== [[/09/09|9th September]] ===<br />
<br />
=== [[/09/02|2nd September]] ===<br />
<br />
=== [[/08/26|26th August]] ===<br />
<br />
=== [[/08/19|19th August]] ===<br />
<br />
=== [[/08/12|12th August]] ===<br />
<br />
=== [[/08/05|5th August]] ===<br />
<br />
=== [[/07/29|29th July]] ===<br />
<br />
=== [[/07/22|22nd July]] ===<br />
<br />
=== [[/07/15|15th July]] ===<br />
<br />
=== [[/07/08|8th July]] ===<br />
<br />
=== [[/07/01|1st July]] ===<br />
<br />
=== [[/06/24|24th June]] ===<br />
<br />
=== [[/06/17|17th June]] ===<br />
<br />
=== [[/06/09|9th June]] ===<br />
<br />
=== [[/06/03|3rd June]] ===<br />
<br />
=== [[/05/27|27th May]] ===<br />
<br />
=== [[/05/20|20th May]] ===<br />
<br />
=== [[/05/13|13th May]] ===<br />
<br />
=== [[/05/06|6th May]] ===<br />
<br />
=== [[/04/29|29th April]] ===<br />
<br />
=== [[/04/22|22nd April]] ===<br />
<br />
=== [[/04/15|15th April]] ===<br />
<br />
=== [[/02/24|24th February]] ===<br />
<br />
=== [[/02/17|17th February]] ===<br />
<br />
=== [[/01/28|28th January]] ===<br />
<br />
=== [[/01/07|7th January]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/25&diff=3559Proton Calorimetry/Meetings/2020/11/252020-11-25T14:22:41Z<p>RaffaellaRadogna: Created page with "== Minutes for UCL Proton Calorimetry Meetings, 25th November == === Present === '''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell''' === [[ELogs/..."</p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 25th November ==<br />
<br />
=== Present ===<br />
<br />
'''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/18&diff=3558Proton Calorimetry/Meetings/2020/11/182020-11-25T14:17:52Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 18th November ==<br />
<br />
=== Present ===<br />
<br />
'''Ruben Saakyan''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
*Took and analysed photodiode data [http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Nov12 at home] and [http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Nov13 at UCL] with Raffy.<br />
**Results discussed with Ruben in [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2020/RRSS181120_FPGA_PD_RESULTS.pptx this presentation].<br />
*Main conclusions of analysis:<br />
**Found that the ADC is noisier than it should be by comparison of standard deviation of test mode histogram with that of where photodiodes are unplugged. Any noise introduced by photodiodes is masked.<br />
**Measurements taken in D27 are likely subject to significant electronic noise – giving strange histograms when the two channels of a photodiode are combined.<br />
***Ruben suggested to check for bugs in the code, but none have been found yet. Additionally, combined histograms of dark measurements taken at home away from electronic noise make sense. Raffy will continue to work on and debug the plotting macro.<br />
***Will repeat (dark) measurements with detector but in an office to see if noise persists.<br />
**Ruben was very dubious about the way charge is split into two channels on the DDC232 board – better ways to do this (transistors?).<br />
***Behaviour of underflow measurements (where exactly 0 is returned by the DDC232) suggests there is something going wrong: at home, 0 measurements in one channel are paired with 'real' values from the other channel, such that underflow disappears in the combined photodiode histogram.<br />
***Underflow persists in measurements taken in D27, perhaps due to electronic noise. <br />
*While ADC is very noisy, might still be worthwhile to do some characterisation with intense LED injected directly into photodiodes.<br />
*Will take UV torch home during next visit to UCL, to conduct some light measurements at home, away from electronic noise.<br />
*Will contact Marko to investigate charge splitting and electronic noise problems.<br />
*Should also contact Texas Instruments to discuss apparent worsening of performance with increasing integration time and decreasing full-scale range. Unclear whether this observed behaviour is something introduced in the board design.<br />
*Will continue work on Nexys Video USB interface.<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
* More comments from our discussion with Ruben<br />
** He really almost focused on the single channel distributions suggesting to check for a bug in the way we combint two channels<br />
** He thinks that a passive splitting is never ideal: usually you end up with 1/2 of the signal keeping the noise. Suggested to double check with Marko iif the passive splitting implemented on the board could cause the ADC noise when compared to Test mode results. Other options are active splitting, or splitting matching impedence usiing a 50 Ohm resistor. If we realise that the splitting is increasing the noise, we should avoid splitting and reduce the light intensity using neutral filters to couple PD and scintillator.<br />
**One possible interpretation of the observed increased RMS with integration time is due to the large noise at level of single channel plot. Increasing the int time the noise has more time to affect the measument, resulting in a larger distribution.<br />
**To bernchmark the ADC output against a calibrated signal, Ruben suggested to inject to the ADC input a square pulse signal using a pulse generator and check the ADC output. <br />
**Another useful comparison could be to translate the intensity from the sensor in charge-equivalent value and compare to the charge measured by the ADC. <br />
*Asked for an extension for IAA grant. Need to fill and submit an official "changes form" for Innovation and Enterprise.<br />
** Innovation and Enterprised asked if I need a change in the worktribe to motivate the purchase of the DAQ computer. I replied that a new worktribe is not needed and that the DAQ computer can go under the existing line "consumables - FPGA electronics" where £4k were asked (and about 1k already spent on two Nexys Video development boards)<br />
*Need to find motivation to change the FLF application to fit the EPSRC open fellow requirements.<br />
*Will keep looking for a bud in the code to justify spikes iin the PD distributions.<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/18&diff=3557Proton Calorimetry/Meetings/2020/11/182020-11-25T13:53:37Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 18th November ==<br />
<br />
=== Present ===<br />
<br />
'''Ruben Saakyan''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
*Took and analysed photodiode data [http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Nov12 at home] and [http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Nov13 at UCL] with Raffy.<br />
**Results discussed with Ruben in [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2020/RRSS181120_FPGA_PD_RESULTS.pptx this presentation].<br />
*Main conclusions of analysis:<br />
**Found that the ADC is noisier than it should be by comparison of standard deviation of test mode histogram with that of where photodiodes are unplugged. Any noise introduced by photodiodes is masked.<br />
**Measurements taken in D27 are likely subject to significant electronic noise – giving strange histograms when the two channels of a photodiode are combined.<br />
***Ruben suggested to check for bugs in the code, but none have been found yet. Additionally, combined histograms of dark measurements taken at home away from electronic noise make sense. Raffy will continue to work on and debug the plotting macro.<br />
***Will repeat (dark) measurements with detector but in an office to see if noise persists.<br />
**Ruben was very dubious about the way charge is split into two channels on the DDC232 board – better ways to do this (transistors?).<br />
***Behaviour of underflow measurements (where exactly 0 is returned by the DDC232) suggests there is something going wrong: at home, 0 measurements in one channel are paired with 'real' values from the other channel, such that underflow disappears in the combined photodiode histogram.<br />
***Underflow persists in measurements taken in D27, perhaps due to electronic noise. <br />
*While ADC is very noisy, might still be worthwhile to do some characterisation with intense LED injected directly into photodiodes.<br />
*Will take UV torch home during next visit to UCL, to conduct some light measurements at home, away from electronic noise.<br />
*Will contact Marko to investigate charge splitting and electronic noise problems.<br />
*Should also contact Texas Instruments to discuss apparent worsening of performance with increasing integration time and decreasing full-scale range. Unclear whether this observed behaviour is something introduced in the board design.<br />
*Will continue work on Nexys Video USB interface.<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
*Asked for an extension for IAA grant. Need to fill and submit an official "changes form" for Innovation and Enterprise.<br />
** Innovation and Enterprised asked if I need a change in the worktribe to motivate the purchase of the DAQ computer. I replied that a new worktribe is not needed and that the DAQ computer can go under the existing line "consumables - FPGA electronics" where £4k were asked (and about 1k already spent on two Nexys Video development boards)<br />
*Need to find motivation to change the FLF application to fit the EPSRC open fellow requirements.<br />
*Will keep looking for a bud in the code to justify spikes iin the PD distributions.<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/04&diff=3530Proton Calorimetry/Meetings/2020/11/042020-11-17T15:33:58Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 4th November ==<br />
<br />
=== Present ===<br />
<br />
'''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
*Presented quickly preliminary results about PD output [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2020/RR04112020_QuARC_FPGA_16PDs_results.pdf slides showing results] (updated version)<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
*Managed to run Nexys Video USB tutorial at around 50 Mb/s.<br />
**Will start working on implementing USB interface in DDC232 FPGA design.<br />
*Added functionality to send ASCII commands to set FSR remotely.<br />
**Will investigate adding some functionality to set different integration times without reconfiguring FPGA.<br />
*Results from LED tests at UCL show increasing fluctuation/noise with longer integration times and smaller FSR - unsure why this is the case. Also observe 0 values in channels, which should not be possible.<br />
**Tested integration time of 2000us with 350pC FSR using ILA: confirmed that CONV remains in sync with CLK and could see many 0s being sent on DOUT under low light levels.<br />
**Could be low light levels with LED.<br />
**Will continue to test setup at UCL with Raffy.<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/11&diff=3529Proton Calorimetry/Meetings/2020/11/112020-11-17T15:32:34Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 4th November ==<br />
<br />
=== Present ===<br />
<br />
'''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
*Discussed results about [http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Oct23 October 23rd data]<br />
*Presented [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2020/RR11112020_QuARC_FPGA_16PDs_results.pdf slides showing results] (updated version)<br />
*Presentation sent to Ruben asking for discussion<br />
*Planned next experimental run at UCL on Friday Nov. 13th<br />
*Will ask Innovation and Enterprise to extend the fellowship and to use money to buy a DAQ computer<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
*Using last couple of switches on Nexys video to select between 4 integration times, which are chosen at compile-time.<br />
*Continuing work on USB interface using Nexys Video FTDI chip:<br />
**Can see data coming through – but timing isn't quite right. Need to figure out how to prompt DAQ when data is written into FIFO.<br />
**Need to fix ILA issue when trying to monitor FTDI chip signals.<br />
*Loading .bit files on Nexys video does not work with USB or SD card. Unsure why this is and Matt Warren had no further suggestions either.<br />
*Will continue testing DDC232 boards with Raffy.<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/11&diff=3528Proton Calorimetry/Meetings/2020/11/112020-11-17T15:29:04Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 4th November ==<br />
<br />
=== Present ===<br />
<br />
'''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
*Discussed results about [http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Oct23 October 23rd data]<br />
*Presented [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2020/RR11112020_QuARC_FPGA_16PDs_results.pdf slides showing results] <br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
*Using last couple of switches on Nexys video to select between 4 integration times, which are chosen at compile-time.<br />
*Continuing work on USB interface using Nexys Video FTDI chip:<br />
**Can see data coming through – but timing isn't quite right. Need to figure out how to prompt DAQ when data is written into FIFO.<br />
**Need to fix ILA issue when trying to monitor FTDI chip signals.<br />
*Loading .bit files on Nexys video does not work with USB or SD card. Unsure why this is and Matt Warren had no further suggestions either.<br />
*Will continue testing DDC232 boards with Raffy.<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/11&diff=3527Proton Calorimetry/Meetings/2020/11/112020-11-17T15:27:01Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 4th November ==<br />
<br />
=== Present ===<br />
<br />
'''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
*Discussed results about [http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Oct23 October 23rd data]<br />
*[Slides with results<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
*Using last couple of switches on Nexys video to select between 4 integration times, which are chosen at compile-time.<br />
*Continuing work on USB interface using Nexys Video FTDI chip:<br />
**Can see data coming through – but timing isn't quite right. Need to figure out how to prompt DAQ when data is written into FIFO.<br />
**Need to fix ILA issue when trying to monitor FTDI chip signals.<br />
*Loading .bit files on Nexys video does not work with USB or SD card. Unsure why this is and Matt Warren had no further suggestions either.<br />
*Will continue testing DDC232 boards with Raffy.<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Meetings/2020/11/11&diff=3526Proton Calorimetry/Meetings/2020/11/112020-11-17T15:25:19Z<p>RaffaellaRadogna: </p>
<hr />
<div>== Minutes for UCL Proton Calorimetry Meetings, 4th November ==<br />
<br />
=== Present ===<br />
<br />
'''Simon Jolly''', '''Raffaella Radogna''', '''Saad Shaikh''', '''Fern Pannell'''<br />
<br />
=== [[ELogs/RaffaellaRadogna|Raffaella Radogna]] ===<br />
*Discussed results about [[http://www.hep.ucl.ac.uk/pbt/wiki/Proton_Calorimetry/Experimental_Runs/2020/Oct23 October 23rd data]]<br />
*Slides<br />
<br />
=== [[ELogs/SaadShaikh|Saad Shaikh]] ===<br />
*Using last couple of switches on Nexys video to select between 4 integration times, which are chosen at compile-time.<br />
*Continuing work on USB interface using Nexys Video FTDI chip:<br />
**Can see data coming through – but timing isn't quite right. Need to figure out how to prompt DAQ when data is written into FIFO.<br />
**Need to fix ILA issue when trying to monitor FTDI chip signals.<br />
*Loading .bit files on Nexys video does not work with USB or SD card. Unsure why this is and Matt Warren had no further suggestions either.<br />
*Will continue testing DDC232 boards with Raffy.<br />
<br />
=== [[ELogs/FernPannell|Fern Pannell]] ===</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020&diff=3525Proton Calorimetry/Experimental Runs/20202020-11-17T15:24:43Z<p>RaffaellaRadogna: </p>
<hr />
<div>; [[/Nov13|Electronics test with large statistics. Nov 13th]]<br />
: Large statistic tests of photodiodes with light injected in many layers, different FSR and integration times, test mode and PD unplugged.<br />
<br />
; [[/Nov12|Home Test of Photodiodes]]<br />
: Large statistic tests of photodiodes at home with different FSR and integration times.<br />
<br />
; [[/Oct23|Large statistics photodiode signal. Oct 23rd]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/Oct7|Comparison of sensor and photodiodes signal. Oct 7th]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3524Proton Calorimetry/Experimental Runs2020-11-17T15:24:16Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/2020/Nov13|Electronics test with large statistics. Nov 13th]]<br />
: Large statistic tests of photodiodes with light injected in many layers, different FSR and integration times, test mode and PD unplugged.<br />
<br />
; [[/2020/Nov12|Home Test of Photodiodes.]]<br />
: Large statistic tests of photodiodes at home with different FSR and integration times.<br />
<br />
; [[/2020/Oct23|Large statistics photodiode signal. Oct 23rd]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal. Oct 7th]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
; [[/2019/Mar26|LeCroy HDO6104 Trigger Dead-time Measurements]]<br />
: Summary of LeCroy HDO6104 Trigger Dead-time Measurements.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3523Proton Calorimetry/Experimental Runs2020-11-17T15:23:49Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/2020/Nov13|Electronics test with large statistics. Nov 13th]]<br />
: Large statistic tests of photodiodes with light injected in many layers, different FSR and integration times, test mode and PD unplugged.<br />
<br />
; [[/2020/Nov12|Home Test of Photodiodes]]<br />
: Large statistic tests of photodiodes at home with different FSR and integration times.<br />
<br />
; [[/2020/Oct23|Large statistics photodiode signal. Oct 23rd]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
; [[/2019/Mar26|LeCroy HDO6104 Trigger Dead-time Measurements]]<br />
: Summary of LeCroy HDO6104 Trigger Dead-time Measurements.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3520Proton Calorimetry/Experimental Runs2020-11-17T13:58:47Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/2020/Nov13|Electronics test with large statistics]]<br />
: Large statistic tests of photodiodes with light injected in many layers, different FSR and integration times, test mode and PD unplugged.<br />
<br />
; [[/2020/Nov12|Home Test of Photodiodes]]<br />
: Large statistic tests of photodiodes at home with different FSR and integration times.<br />
<br />
; [[/2020/Oct23|Large statistics photodiode signal]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
; [[/2019/Mar26|LeCroy HDO6104 Trigger Dead-time Measurements]]<br />
: Summary of LeCroy HDO6104 Trigger Dead-time Measurements.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020&diff=3519Proton Calorimetry/Experimental Runs/20202020-11-17T13:58:03Z<p>RaffaellaRadogna: </p>
<hr />
<div>; [[/Nov13|Electronics test with large statistics]]<br />
: Large statistic tests of photodiodes with light injected in many layers, different FSR and integration times, test mode and PD unplugged.<br />
<br />
; [[/Nov12|Home Test of Photodiodes]]<br />
: Large statistic tests of photodiodes at home with different FSR and integration times.<br />
<br />
; [[/Oct23|Large statistics photodiode signal]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Nov13&diff=3518Proton Calorimetry/Experimental Runs/2020/Nov132020-11-17T11:36:15Z<p>RaffaellaRadogna: </p>
<hr />
<div>13 Nov 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from top to bottom in vice/enclosure sequence: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibres used to inject UV light into scintillator sheets provided with the fibre entrance (sheets 51, 52, 53, 54, 55 have no light injection)<br />
- painted side of the stack with fibre holes on top, PDs placed 90deg w.r.t. the injection side.<br />
<br />
Aim: Take large statistics runs with fixed integration time and all possible Full Scale modes to caracterise photodiodes.<br />
<br />
list of runs in this file unix/pbt/data/ucl/20201113/20201013_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201013/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!Photodiodes<br />
!Notes<br />
|-<br />
|1|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S1337-16BR|| <br />
|-<br />
|2|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| <br />
|-<br />
|3|| 6 || 1 || 300 || - || 8 || 170us || 50pC FSR || PDs: S12915-16R|| <br />
|-<br />
|4|| 6 || 1 || 300 || - || 8 || 170us || 100pC FSR || PDs: S12915-16R|| <br />
|-<br />
|5|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| <br />
|-<br />
|6|| 6 || 1 || 300 || - || 8 || 170us || 200pC FSR || PDs: S12915-16R|| <br />
|-<br />
|7|| 6 || 1 || 300 || - || 8 || 170us || 250pC FSR || PDs: S12915-16R|| <br />
|-<br />
|8|| 6 || 1 || 300 || - || 8 || 170us || 300pC FSR || PDs: S12915-16R|| <br />
|-<br />
|9|| 6 || 1 || 300 || - || 8 || 1000us || 350pC FSR || PDs: S12915-16R|| <br />
|-<br />
|10|| 6 || 1 || 300 || - || 8 || 1000us || 12.5pC FSR || PDs: S12915-16R|| <br />
|-<br />
|11|| 6 || 1 || 300 || - || 8 || 1000us || 50pC FSR || PDs: S12915-16R|| <br />
|-<br />
|12|| 6 || 1 || 300 || - || 8 || 1000us || 100pC FSR || PDs: S12915-16R|| <br />
|-<br />
|13|| 6 || 1 || 300 || - || 8 || 1000us || 150pC FSR || PDs: S12915-16R|| <br />
|-<br />
|14|| 6 || 1 || 300 || - || 8 || 1000us || 200pC FSR || PDs: S12915-16R|| <br />
|-<br />
|15|| 6 || 1 || 300 || - || 8 || 1000us || 250pC FSR || PDs: S12915-16R|| <br />
|-<br />
|16|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|17|| 6 || 1 || 300 || - || 8 || 1000us || 300pC FSR || PDs: S12915-16R|| <br />
|-<br />
|18|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|19|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|20|| 6 || 1 || 300 || - || 8 || 1000us || 12.5pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|21|| 6 || 1 || 300 || - || 8 || 1000us || 150pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|22|| 6 || 1 || 300 || - || 8 || 1000us || 350pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|23|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S12915-16R|| PD arrays de-coupled from scintillators. Measuring dark in enclosure. ||<br />
|-<br />
|24|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| PD arrays de-coupled from scintillators. Measuring dark in enclosure. ||<br />
|-<br />
|25|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| PD arrays de-coupled from scintillators. Measuring dark in enclosure. ||<br />
|-<br />
|26|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S12915-16R|| Photodiodes unplugged from the DDC board. ||<br />
|-<br />
|27|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| Photodiodes unplugged from the DDC board. ||<br />
|-<br />
|28|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| Photodiodes unplugged from the DDC board. ||<br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Nov13&diff=3517Proton Calorimetry/Experimental Runs/2020/Nov132020-11-17T10:51:38Z<p>RaffaellaRadogna: Created page with "13 Nov 2020 == LED injected light measurements == Setup: - scintillator sheets number from top to bottom in vice/enclosure sequence: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 4..."</p>
<hr />
<div>13 Nov 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from top to bottom in vice/enclosure sequence: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibres used to inject UV light into scintillator sheets provided with the fibre entrance (sheets 51, 52, 53, 54, 55 have no light injection)<br />
- painted side of the stack with fibre holes on top, PDs placed 90deg w.r.t. the injection side.<br />
<br />
Aim: Take large statistics runs with fixed integration time and all possible Full Scale modes to caracterise photodiodes.<br />
<br />
list of runs in this file unix/pbt/data/ucl/20201113/20201013_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201013/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!Photodiodes<br />
!Notes<br />
|-<br />
|1|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S1337-16BR)|| <br />
|-<br />
|2|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| <br />
|-<br />
|3|| 6 || 1 || 300 || - || 8 || 170us || 50pC FSR || PDs: S12915-16R|| <br />
|-<br />
|4|| 6 || 1 || 300 || - || 8 || 170us || 100pC FSR || PDs: S12915-16R|| <br />
|-<br />
|5|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| <br />
|-<br />
|6|| 6 || 1 || 300 || - || 8 || 170us || 200pC FSR || PDs: S12915-16R|| <br />
|-<br />
|7|| 6 || 1 || 300 || - || 8 || 170us || 250pC FSR || PDs: S12915-16R|| <br />
|-<br />
|8|| 6 || 1 || 300 || - || 8 || 170us || 300pC FSR || PDs: S12915-16R|| <br />
|-<br />
|9|| 6 || 1 || 300 || - || 8 || 1000us || 350pC FSR || PDs: S12915-16R|| <br />
|-<br />
|10|| 6 || 1 || 300 || - || 8 || 1000us || 12.5pC FSR || PDs: S12915-16R|| <br />
|-<br />
|11|| 6 || 1 || 300 || - || 8 || 1000us || 50pC FSR || PDs: S12915-16R|| <br />
|-<br />
|12|| 6 || 1 || 300 || - || 8 || 1000us || 100pC FSR || PDs: S12915-16R|| <br />
|-<br />
|13|| 6 || 1 || 300 || - || 8 || 1000us || 150pC FSR || PDs: S12915-16R|| <br />
|-<br />
|14|| 6 || 1 || 300 || - || 8 || 1000us || 200pC FSR || PDs: S12915-16R|| <br />
|-<br />
|15|| 6 || 1 || 300 || - || 8 || 1000us || 250pC FSR || PDs: S12915-16R|| <br />
|-<br />
|16|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|17|| 6 || 1 || 300 || - || 8 || 1000us || 300pC FSR || PDs: S12915-16R|| <br />
|-<br />
|18|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|19|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|20|| 6 || 1 || 300 || - || 8 || 1000us || 12.5pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|21|| 6 || 1 || 300 || - || 8 || 1000us || 150pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|22|| 6 || 1 || 300 || - || 8 || 1000us || 350pC FSR || PDs: S12915-16R|| DDC in Test Mode ||<br />
|-<br />
|23|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S12915-16R|| PD arrays de-coupled from scintillators. Measuring dark in enclosure. ||<br />
|-<br />
|24|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| PD arrays de-coupled from scintillators. Measuring dark in enclosure. ||<br />
|-<br />
|25|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| PD arrays de-coupled from scintillators. Measuring dark in enclosure. ||<br />
|-<br />
|26|| 6 || 1 || 300 || - || 8 || 170us || 350pC FSR || PDs: S12915-16R|| Photodiodes unplugged from the DDC board. ||<br />
|-<br />
|27|| 6 || 1 || 300 || - || 8 || 170us || 150pC FSR || PDs: S12915-16R|| Photodiodes unplugged from the DDC board. ||<br />
|-<br />
|28|| 6 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || PDs: S12915-16R|| Photodiodes unplugged from the DDC board. ||<br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3478Proton Calorimetry/Experimental Runs2020-11-02T11:57:32Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/2020/Oct23|Large statistics photodiode signal]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3477Proton Calorimetry/Experimental Runs2020-11-02T11:55:09Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[2020/Oct23|Large statistics photodiode signal]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3476Proton Calorimetry/Experimental Runs2020-11-02T11:54:54Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/Oct23|Large statistics photodiode signal]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3475Proton Calorimetry/Experimental Runs2020-11-02T11:54:15Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/2020/Oct23|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Oct7&diff=3474Proton Calorimetry/Experimental Runs/2020/Oct72020-10-26T08:39:38Z<p>RaffaellaRadogna: </p>
<hr />
<div>07 Oct 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from bottom to top in sensor image: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- CMOS ISDI Image sensor. Sensor was allowed to heat up for an hour before measurements<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibre used with optical gel to couple LED to scintillator sheet n. 8<br />
<br />
Aim: Compare light output from sensor and photodiodes.<br />
Plan is to insert light into sheet n. 8 and measure the light output with the CMOS sensor and different photodiodes arrays. <br />
<br />
list of runs in this file unix/pbt/data/ucl/20201007/20201007_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201007/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!DDC Board and photodiodes<br />
!Notes<br />
|-<br />
|1|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's (PDs: S1337-16BR)|| PD placed opposite to the LED fibre<br />
|-<br />
|2|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's (PDs: S1337-16BR)|| Sensor removed and PD placed 90deg to the fibre, in the spot of highes intensity seen by the sensor<br />
|-<br />
|3|| 4.5 || 1 || 300 || high || 8 || 2000us || 350pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|4|| 4.5 || 1 || 300 || high || 8 || 2000us || 12.5pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|5|| 4.5 || 1 || 300 || high || 8 || 20000us || 100pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|6|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|7|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Raffy's (PDs: S12915-16R) <br />
|-<br />
|8|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Raffy's (PDs: S12915-16R)|| large statistics for noise analysis <br />
|-<br />
|9|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's (PDs: S1337-16BR) || large statistics for noise analysis <br />
|-<br />
|10|| 4.5 || 1 || 300 || high || 8 || 2000us || 12.5pC FSR || Raffy's (PDs: S12915-16R)|| large statistics for noise analysis <br />
|-<br />
|11|| 4.5 || 1 || 300 || high || 8 || 2000us || 100pC FSR || Raffy's (PDs: S12915-16R)|| large statistics for noise analysis <br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020&diff=3473Proton Calorimetry/Experimental Runs/20202020-10-26T08:37:58Z<p>RaffaellaRadogna: </p>
<hr />
<div>; [[/Oct23|Large statistics photodiode signal]]<br />
: LED injected light in sheet 8: different PDs arrays, integration time and full scale.<br />
<br />
; [[/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Oct23&diff=3472Proton Calorimetry/Experimental Runs/2020/Oct232020-10-26T08:36:21Z<p>RaffaellaRadogna: Created page with "23 Oct 2020 == LED injected light measurements == Setup: - scintillator sheets number from top to bottom in vice/enclosure sequence: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 4..."</p>
<hr />
<div>23 Oct 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from top to bottom in vice/enclosure sequence: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibre used with optical gel to couple LED to scintillator sheet n. 8<br />
- painted side of the stack with fibre holes on top, PDs placed 90deg w.r.t. the injection side.<br />
<br />
Aim: Take large statistics runs to caracterise photodiodes.<br />
Plan is to insert light into sheet n. 8 and measure the light output with different photodiodes arrays, integration time and full scale. <br />
<br />
list of runs in this file unix/pbt/data/ucl/20201023/20201023_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201023/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!DDC Board and photodiodes<br />
!Notes<br />
|-<br />
|1|| 4.5 || 1 || 300 || - || 8 || 170us || 350pC FSR || Saad's (PDs: S1337-16BR)|| <br />
|-<br />
|2|| 4.5 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || Saad's (PDs: S1337-16BR)|| <br />
|-<br />
|3|| 4.5 || 1 || 300 || - || 8 || 170us || 200pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|4|| 4.5 || 1 || 300 || - || 8 || 2000us || 350pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|5|| 4.5 || 1 || 300 || - || 8 || 2000us || 200pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|6|| 4.5 || 1 || 300 || - || 8 || 2000us || 50pC FSR || Saad's (PDs: S1337-16BR) <br />
|-<br />
|7|| 4.5 || 1 || 300 || - || 8 || 2000us || 50pC FSR || Raffy's (PDs: S12915-16R)|| Different PDs array <br />
|-<br />
|8|| 4.5 || 1 || 300 || - || 8 || 2000us || 200pC FSR || Raffy's (PDs: S12915-16R)|| <br />
|-<br />
|9|| 4.5 || 1 || 300 || - || 8 || 2000us || 350pC FSR || Raffy's (PDs: S12915-16R)|| <br />
|-<br />
|10|| 4.5 || 1 || 300 || - || 8 || 170us || 350pC FSR || Raffy's (PDs: S12915-16R)|| <br />
|-<br />
|11|| 4.5 || 1 || 300 || - || 8 || 170us || 200pC FSR || Raffy's (PDs: S12915-16R)|| <br />
|-<br />
|12|| 4.5 || 1 || 300 || - || 8 || 170us || 12.5pC FSR || Raffy's (PDs: S12915-16R)|| <br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Oct7&diff=3418Proton Calorimetry/Experimental Runs/2020/Oct72020-10-08T13:42:14Z<p>RaffaellaRadogna: </p>
<hr />
<div>07 Oct 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from bottom to top in sensor image: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- CMOS ISDI Image sensor. Sensor was allowed to heat up for an hour before measurements<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibre used with optical gel to couple LED to scintillator sheet n. 8<br />
<br />
Aim: Compare light output from sensor and photodiodes.<br />
Plan is to insert light into sheet n. 8 and measure the light output with the CMOS sensor and different photodiodes arrays. <br />
<br />
list of runs in this file unix/pbt/data/ucl/20200214/20201007_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201007/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!DDC Board and photodiodes<br />
!Notes<br />
|-<br />
|1|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || PD placed opposite to the LED fibre<br />
|-<br />
|2|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || Sensor removed and PD placed 90deg to the fibre, in the spot of highes intensity seen by the sensor<br />
|-<br />
|3|| 4.5 || 1 || 300 || high || 8 || 2000us || 350pC FSR || Saad's <br />
|-<br />
|4|| 4.5 || 1 || 300 || high || 8 || 2000us || 12.5pC FSR || Saad's <br />
|-<br />
|5|| 4.5 || 1 || 300 || high || 8 || 20000us || 100pC FSR || Saad's <br />
|-<br />
|6|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Saad's <br />
|-<br />
|7|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Raffy's (PDs: S12915-16R) <br />
|-<br />
|8|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Raffy's (PDs: S12915-16R)|| large statistics for noise analysis <br />
|-<br />
|9|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || large statistics for noise analysis <br />
|-<br />
|10|| 4.5 || 1 || 300 || high || 8 || 2000us || 12.5pC FSR || Raffy's (PDs: S12915-16R)|| large statistics for noise analysis <br />
|-<br />
|11|| 4.5 || 1 || 300 || high || 8 || 2000us || 100pC FSR || Raffy's (PDs: S12915-16R)|| large statistics for noise analysis <br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Oct7&diff=3417Proton Calorimetry/Experimental Runs/2020/Oct72020-10-08T13:40:19Z<p>RaffaellaRadogna: </p>
<hr />
<div>07 Oct 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from bottom to top in sensor image: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- CMOS ISDI Image sensor. Sensor was allowed to heat up for an hour before measurements<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibre used with optical gel to couple LED to scintillator sheet n. 8<br />
<br />
Aim: Compare light output from sensor and photodiodes.<br />
Plan is to insert light into sheet n. 8 and measure the light output with the CMOS sensor and different photodiodes arrays. <br />
<br />
list of runs in this file unix/pbt/data/ucl/20200214/20201007_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201007/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!DDC Board and photodiodes<br />
!Notes<br />
|-<br />
|1|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || PD placed opposite to the LED fibre<br />
|-<br />
|2|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || Sensor removed and PD placed 90deg to the fibre, in the spot of highes intensity seen by the sensor<br />
|-<br />
|3|| 4.5 || 1 || 300 || high || 8 || 2000us || 350pC FSR || Saad's <br />
|-<br />
|4|| 4.5 || 1 || 300 || high || 8 || 2000us || 12.5pC FSR || Saad's <br />
|-<br />
|5|| 4.5 || 1 || 300 || high || 8 || 20000us || 100pC FSR || Saad's <br />
|-<br />
|6|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Saad's <br />
|-<br />
|7|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Raffy's <br />
|-<br />
|8|| 4.5 || 1 || 300 || high || 8 || 170us || 12.5pC FSR || Raffy's || large statistics for noise analysis <br />
|-<br />
|9|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || large statistics for noise analysis <br />
|-<br />
|10|| 4.5 || 1 || 300 || high || 8 || 2000us || 12.5pC FSR || Raffy's || large statistics for noise analysis <br />
|-<br />
|11|| 4.5 || 1 || 300 || high || 8 || 2000us || 100pC FSR || Raffy's || large statistics for noise analysis <br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Oct7&diff=3416Proton Calorimetry/Experimental Runs/2020/Oct72020-10-08T13:35:39Z<p>RaffaellaRadogna: </p>
<hr />
<div>07 Oct 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from bottom to top in sensor image: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- CMOS ISDI Image sensor. Sensor was allowed to heat up for an hour before measurements<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibre used with optical gel to couple LED to scintillator sheet n. 8<br />
<br />
Aim: Compare light output from sensor and photodiodes.<br />
Plan is to insert light into sheet n. 8 and measure the light output with the CMOS sensor and different photodiodes arrays. <br />
<br />
list of runs in this file unix/pbt/data/ucl/20200214/20201007_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201007/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!DDC Board and photodiodes<br />
!Notes<br />
|-<br />
|1|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || PD placed opposite to the LED fibre<br />
|-<br />
|2|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's || Sensor removed and PD placed 90deg to the fibre, in the spot of highes intensity seen by the sensor<br />
|-<br />
|3|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's <br />
|-<br />
|4|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's <br />
|-<br />
|5|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's <br />
|-<br />
|6|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's <br />
|-<br />
|7|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Raffy's <br />
|-<br />
|8|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Raffy's <br />
|-<br />
|9|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Saad's <br />
|-<br />
|10|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Raffy's <br />
|-<br />
|11|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || Raffy's <br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/Oct7&diff=3415Proton Calorimetry/Experimental Runs/2020/Oct72020-10-08T13:31:28Z<p>RaffaellaRadogna: Created page with "07 Oct 2020 == LED injected light measurements == Setup: - scintillator sheets number from bottom to top in sensor image: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, ..."</p>
<hr />
<div>07 Oct 2020<br />
<br />
<br />
== LED injected light measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from bottom to top in sensor image: 51, 31, 50, 52, 34, 44, 53, 47, 33, 54, 46, 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9 + other sheet as fillers<br />
- CMOS ISDI Image sensor. Sensor was allowed to heat up for an hour before measurements<br />
- 16 Photodiodes covering the sheets sequence 42, 55, 45, 38, 36, 43, 32, 48, 41, 8, 39, 40, 37, 35, 49, 9. <br />
- Optical fibre used with optical gel to couple LED to scintillator sheet n. 8<br />
<br />
Aim: Compare light output from sensor and photodiodes.<br />
Plan is to insert light into sheet n. 8 and measure the light output with the CMOS sensor and different photodiodes arrays. <br />
<br />
list of runs in this file unix/pbt/data/ucl/20200214/20201007_LEDandADCBoard.xlsx<br />
data saved in unix/pbt/data/ucl/20201007/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Sensor Full Well Mode<br />
!Illuminated sheet<br />
!DDC int time<br />
!DDC Full scale<br />
!DDC Board and photodiodes<br />
!Notes<br />
|-<br />
|1|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|2|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|3|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|4|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|<br />
|5|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|6|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|7|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|8|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|9|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|10|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-<br />
|11|| 4.5 || 1 || 300 || high || 8 || 170us || 350pC FSR || 1 <br />
|-</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs&diff=3414Proton Calorimetry/Experimental Runs2020-10-08T12:59:59Z<p>RaffaellaRadogna: </p>
<hr />
<div>Information is available for the following experimental runs:<br />
== [[/2020|2020]] ==<br />
<br />
; [[/2020/Oct7|Comparison of sensor and photodiodes signal]]<br />
: LED injected light in sheet 8: two read-out comparison.<br />
<br />
; [[/2020/CrossTalk|Measurements of scintillator sheets cross talk]]<br />
: Cross Talk measurements.<br />
<br />
== [[/2019|2019]] ==<br />
<br />
<br />
; [[/2019/NovScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2019/Apr12-15|12th&ndash;15th April 2019]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Proton, Helium, Carbon, Oxygen beam.<br />
: Data for PTCOPG talk.<br />
<br />
== [[/2018|2018]] ==<br />
<br />
; [[/2018/Nov16-18|16th&ndash;18th November 2018]]<br />
: Experimental measurements at Heidelberg using range calorimeter and Helium beam.<br />
: Single PMT module tests to provide data for HIT pCT reconstruction.<br />
<br />
; [[/2018/Oct25-6|25th-26th October 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
: Improved setup from [[/2018/Feb21|21st February 2018]] with PRaVDA module trigger output.<br />
<br />
; [[/2018/Aug16|16th August 2018]]<br />
: Experimental measurements with range calorimeter using Carbon beam at MedAustron.<br />
: Range measurements from 120 to 184.5&nbsp;MeV/u.<br />
<br />
; [[/2018/Mar23|23rd March 2018]]<br />
: Single module calorimeter measurements to support TUWien proton CT tracker.<br />
<br />
; [[/2018/Mar22|22nd March 2018]]<br />
: Experimental measurements with range calorimeter from 62 to 252&nbsp;MeV.<br />
: Precision range measurements from 62 to 100&nbsp;MeV.<br />
<br />
; [[/2018/Mar8-9|8th-9th March 2018]]<br />
: First experimental measurements of the plastic scintillator range calorimeter.<br />
: Measurements at 28 and 36&nbsp;MeV using ISDI sensor and Nikon DSLR.<br />
<br />
; [[/2018/Feb21|21st February 2018]]<br />
: Experimental measurements at Birmingham using fast treatment plan verification test setup.<br />
<br />
; [[/2018/FebScintSheets|Measurements of 2 and 3&nbsp;mm scintillator sheets]]<br />
: Thickness measurements of 2&nbsp;mm and 3&nbsp;mm thick scintillator sheets from Nuvia.<br />
<br />
; [[/2018/JanMarPlans|Plan of Action for January&ndash;March 2018]]<br />
: Plan of action for range calorimeter assembly and experimental tests from January to March 2018.<br />
<br />
== [[/2017|2017]] ==<br />
<br />
; [[/2017/September7|7th September 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS) at the Birmingham Cyclotron with a 28 MeV beam.<br />
; [[/2017/Aug10-31|10th August 2017]]<br />
: Tests of Nuvia scintillator stacks with PRaVDA CMOS pixel sensors (PRIAPUS).<br />
; [[/2017/Mar1-3|1st-3rd March 2017]]<br />
: Measurements at MedAustron with longer scintillator and 252MeV beam.<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2016|2016]] ==<br />
<br />
; [[/2016/Nov24-25|24th-25th November 2016]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2016/Aug2-3|2nd-3rd August 2016]]<br />
: Energy-to-range calibration measurements with a calibration wheel used by physicists at Clatterbridge with detector module comprising a 2" PMT and new PS-based scintillator.<br />
: Data cross-checking measurements taken with the wheel to that taken with PMMA blocks of equivalent thickness at the same location, and further upstream at the modulator box.<br />
: Measured total dose delivered to the new PS-based scintillator for radiation damage and hardness considerations.<br />
: Recorded waveform data with new LeCroy HDO6104 oscilloscope.<br />
: Made neutron measurements with the large 8" PMT hexagonal block module.<br />
<br />
== [[/2015|2015]] ==<br />
<br />
; [[/2015/Dec21-22|21st-22nd December 2015]]<br />
: Give short explanation of the purpose and results.<br />
; [[/2015/Jul8-9|8th-9th July 2015]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2014|2014]] ==<br />
<br />
; [[/2014/Dec8-9|8th-9th December 2014]]<br />
: Give short explanation of the purpose and results.<br />
<br />
== [[/2013|2013]] ==<br />
<br />
; [[/2013/Dec9-10|9th-10th December 2013]]<br />
: Give short explanation of the purpose and results.</div>RaffaellaRadognahttps://www.hep.ucl.ac.uk/pbt/pbtWiki/index.php?title=Proton_Calorimetry/Experimental_Runs/2020/CrossTalk&diff=3256Proton Calorimetry/Experimental Runs/2020/CrossTalk2020-08-26T09:44:56Z<p>RaffaellaRadogna: /* cross talk measurements */</p>
<hr />
<div>14 Feb 2020<br />
<br />
<br />
== cross talk measurements ==<br />
<br />
Setup: <br />
- scintillator sheets number from bottom to top in sensor image: 9, 8, 22, 26 + other sheet as fillers<br />
- CMOS ISDI Image sensor. Sensor was allowed to heat up for an hour before measurements<br />
- Optical fibre used with optical gel to couple LED to scintillator sheets<br />
<br />
Aim: Measure Cross talk between sheets<br />
Plan is to insert light into the two middle sheets of the 4 main sheets and measure the light output with the CMOS sensor. Also take background images at regular intervals.<br />
<br />
list of runs in this file unix/pbt/data/ucl/20200214/20200214_crosstalk.xlsx<br />
data saved in unix/pbt/data/ucl/20200214/<br />
<br />
{|class="wikitable"<br />
!Run<br />
!LED Voltage (V)<br />
!LED Period (us)<br />
!Width (ns)<br />
!Full Well Mode<br />
!Illuminated sheet<br />
!Notes<br />
|-<br />
|0|| || || ||low || || background <br />
|-<br />
|1|| || || ||high || || background<br />
|-<br />
|2|| 3.6 || 1 || 300 || high || 8 <br />
|-<br />
|3|| 3.6 || 1 || 300 || high || 8 <br />
|-<br />
|4|| 4.5 || 1 || 300 || high || 8 <br />
|-<br />
|5|| 4.5 || 1 || 300 || high || 8 <br />
|-<br />
|6|| || || || high || || background<br />
|-<br />
|7|| || || || low || || background<br />
|-<br />
|8|| 3.45 || 1 || 300 || low || 8 <br />
|-<br />
|9|| 3.45 || 1 || 300 || low || 8 <br />
|-<br />
|10|| 3.3 || 1 || 300 || low || 8 <br />
|-<br />
|11|| 3.3 || 1 || 300 || low || 8 <br />
|-<br />
|12|| || || || low || || background<br />
|-<br />
|13|| 3.3 || 1 || 300 || low || 22 <br />
|-<br />
|14|| 3.3 || 1 || 300 || low || 22 <br />
|-<br />
|15|| 3.45 || 1 || 300 || low || 22 <br />
|-<br />
|16|| 3.45 || 1 || 300 || low || 22 <br />
|-<br />
|17|| 3.6 || 1 || 300 || high || 22 <br />
|-<br />
|18|| 3.6 || 1 || 300 || high || 22 <br />
|-<br />
|19|| 4 || 1 || 300 || high || 22 <br />
|-<br />
|20|| 4 || 1 || 300 || high || 22 <br />
|-<br />
|21|| 4.5 || 1 || 300 || high || 22 <br />
|-<br />
|22|| 4.5 || 1 || 300 || high || 22 <br />
|-<br />
|23|| || || || high || || background<br />
|-<br />
|24|| || || || high || || background<br />
|-<br />
|25|| 4.5 || 1 || 300 || high || 22 and 9 || check blackness of sheet 8<br />
|-<br />
|26|| 4.5 || 1 || 300 || high || 22 and 9 ||<br />
|-<br />
|27|| 4.7 || 1 || 300 || high || 22 and 9 ||<br />
|-<br />
|28|| 4.7 || 1 || 300 || high || 22 and 9 || <br />
|-<br />
|29|| 3.45 || 1 || 300 || low || 22 and 9 || check blackness of sheet 8<br />
|-<br />
|30|| 3.45 || 1 || 300 || low || 22 and 9 ||<br />
|-<br />
|31|| 3.3 || 1 || 300 || low || 22 and 9 ||<br />
|-<br />
|32|| 3.3 || 1 || 300 || low || 22 and 9 || <br />
|-<br />
|33|| || || || low || || background<br />
|-</div>RaffaellaRadogna