Proton Calorimetry/Equipment: Difference between revisions
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This page contains information on the various pieces of experimental equipment that form the Proton Calorimetry detector setup. | This page contains information on the various pieces of experimental equipment that form the Proton Calorimetry detector setup. | ||
== [[/QuARC General Information|General Information]] == | |||
Summary of QuARC components and codes needed. | |||
== [[/FPGAs_DDC232|FPGAs: Nexys Video, USB104, Zybo Z7 and DDC232 Interface]] == | |||
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 Nexys Video. | |||
More details can be found on the [[/FPGAs_DDC232|FPGAs: Nexys Video, USB104, Zybo Z7 and DDC232 Interface]] page. | |||
== [[/Photodiode_Interface_Boards|DDC232-based Photodiode Interface Boards]] == | |||
Custom ADC boards that take standard photodiodes have been designed that are based on the TI DDC232 and interface to an FPGA. | |||
More details can be found on the [[/Photodiode_Interface_Boards|DDC232-based Photodiode Interface Boards]] page. | |||
== [[/Inventory Location|D106 Inventory and Location]] == | |||
The list of items and tools stored in D106, updated on Dec 2020, is available on the [[/Inventory Location|D106 Inventory and Location]] page. | |||
== [[/ISDI CMOS Sensor|ISDI CMOS Sensor]] == | == [[/ISDI CMOS Sensor|ISDI CMOS Sensor]] == | ||
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More details can be found on the [[/TI DDC1128EVM|TI DDC1128 Evaluation Module]] page. | More details can be found on the [[/TI DDC1128EVM|TI DDC1128 Evaluation Module]] page. | ||
== [[/Remote_Desktop_Access|Remote Desktop Access]] == | == [[/Remote_Desktop_Access|Remote Desktop Access]] == | ||
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== [[/LeCroy|LeCroy Oscilloscope]] == | == [[/LeCroy|LeCroy Oscilloscope]] == | ||
Details of the analysis of single-module calorimeter data taken by the LeCroy scope can be found on the [[/LeCroy|LeCroy Oscilloscope]] page. | |||
This page needs to be updated with work completed in the 2018-2019 academic year. | This page needs to be updated with work completed in the 2018-2019 academic year. |
Latest revision as of 16:09, 29 May 2024
This page contains information on the various pieces of experimental equipment that form the Proton Calorimetry detector setup.
General Information
Summary of QuARC components and codes needed.
FPGAs: Nexys Video, USB104, Zybo Z7 and DDC232 Interface
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 Nexys Video.
More details can be found on the FPGAs: Nexys Video, USB104, Zybo Z7 and DDC232 Interface page.
DDC232-based Photodiode Interface Boards
Custom ADC boards that take standard photodiodes have been designed that are based on the TI DDC232 and interface to an FPGA.
More details can be found on the DDC232-based Photodiode Interface Boards page.
D106 Inventory and Location
The list of items and tools stored in D106, updated on Dec 2020, is available on the D106 Inventory and Location page.
ISDI CMOS Sensor
The ISDI 1510-100 15x10cm CMOS pixel sensor allows images of the scintillator detector stack light output to be recorded.
More details can be found on the ISDI CMOS Sensor page.
Caen Detector Emulator
The Caen DT5800D Detector Emulator provides the capability for emulating the output of an arbitrary detector system.
More details can be found on the Caen Detector Emulator page.
Nikon D70 DSLR
A Nikon D70 DSLR was borrowed from Adam Gibson in Medical Physics to allow remote acquisition of scintillator images.
More details can be found on the Nikon D70 DSLR page.
TI DDC1128 Evaluation Module
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.
More details can be found on the TI DDC1128 Evaluation Module page.
Remote Desktop Access
More details can be found on the Remote Desktop Access page.
Connecting HV to DAQ Laptop
More details can be found on the Connecting HV to DAQ Laptop page.
LeCroy Oscilloscope
Details of the analysis of single-module calorimeter data taken by the LeCroy scope can be found on the LeCroy Oscilloscope page.
This page needs to be updated with work completed in the 2018-2019 academic year.
Manuals
Manuals for relevant detector hardware.
WaveCatcher
- 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).
- WaveCatcher64Ch_Library_1.1.16.pdf
- Users manual for WaveCatcher64Ch Control and Readout Library
- WaveCatcherSoftware_V1.1.pdf
- User manual for the WaveCatcher Family Control & Readout software (Windows Only, includes scope-like GUI).
Caen
- DT5751 Product Page
- Caen product page for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.
- DT5751 User Manual
- User manual for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.
- DT5740 Product Page
- Caen product page for DT5740 16/32-Channel 12 bit 62.5MS/s Digitizer supporting DPP-QDC firmware.
- 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.
- 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).