SIRVENT - Problematica actual de la investigacion educativa.pdf
Beam Secondary Shower Acquisition System: ICECAL_V3 Board and QIE10 Mezzanine Test preparations...
-
Upload
meryl-wheeler -
Category
Documents
-
view
216 -
download
0
Transcript of Beam Secondary Shower Acquisition System: ICECAL_V3 Board and QIE10 Mezzanine Test preparations...
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
2
Beam Secondary Shower Acquisition System: ICECAL_V3 Board and QIE10 Mezzanine Test preparations
Jose Luis Sirvent Blasco
PhD. Student
STUDENT MEETING
27/04/2015
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
3
1. ICECAL_V3 Mezzanine 1.1 Submitted for fabrication
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
4
1. ICECAL_V3 Mezzanine 1.1 Submitted for fabrication
• Features:• FEASTMP Modules 2.5 & 3.3V• Security Fuses• 4 Input Channels• ICECAL_V3 & Bias Circuits• SPI Controller trough LVDS• R-Hard ADC AD41240• ADC Drivers for DC-coupling• R-Tol ADC ADS6445 • Static Config. Jumpers • Debugging LEDs• SAMTEC Connector
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
5
Back-End System
Front-End System
Diamond Detector3 x LHC Clock Tunnel
Surface
SMF 9/125um
2. QIE10 Testing Preparations: 2.1 System Reminder
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
6
2. QIE10 Testing Preparations:2.1 Trying to cover all the dynamic range (10000 samples = 250us)
CH1
CH2
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
7
2. QIE10 Testing Preparations:2.2 Zoom to check logarithmic linearity (QIE10-CH1)
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
8
2. QIE10 Testing Preparations:2.2 Zoom to check logarithmic linearity (QIE10-CH2)
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
9
2. QIE10 Testing Preparations:2.3 New Set-Up for linearity Studies
Back-End SystemFront-End System
Sub-FemtoampCurrent Source(Keithley 6430)
3 x LHC Clock TunnelSurface
SMF 9/125um
UART (COM)
IEEE 488(*GPIB-USB-HS)
* GPIB : General-Purpose Instrumentation Bus
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
10
• Performing Linear – Logarithmic Current Sweeps:• Unified Set-Up for ICECAL & QIE10
• GPIB interface allows control of other instrumentation (Function Generator):• Compatibility with future tests (TDC, Synchronous pulses response)
• Testing Control managed by “Console application”:• Set-up instrumentation configuration• Optical Link supervisor with feedback for user (me)• Back-End management (Trigger readings and collects data from LPDDR memory)
• Test Procedure (Console App):• 1. Set-Up Link• 2. Set-up Instrumentation• 3. Current Selection• 4. Trigger Storage on Back-End (1000 points)• 5. Read Data from LPDDR PC• 6. Store measurement on New CSV file• Final Sweep Value?
2. QIE10 Testing Preparations:2.4 What is it for?
• Test Procedure (Matlab Script):• 1. Open CSV file• 2. Calculate ADC mean & std. deviation• 3. Store values• 4. All files processed?• 5. Calculate QIE10 nominal ADC• 6. Plot measured Data • 7. Plot QIE10 nominal ADC values
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
11
2. QIE10 Testing Preparations:2.5 Very preliminary data taken with the Set-Up (ADC_Counts)
0 100 200 300 400 500 600 7000
10
20
30
40
50
60
70
Charge (fC)
AD
C C
ount
s
Current Sweep Range 0 (-16fC to 592 fC)
CID1
CID2
CID3CID4
QIE10 Nominal ADC Scheme
Region Studied: Range 0 (-16fC to 592fC)Current (640nA to 23uA)
Each Current = 1000 points (25 us)Each Point = mean of 250 measurementsPoints identified by CID number
DRAFT !!
Subrange 0
Subrange 1
Subrange 2
Subrange 3
BE-BI-BL Jose Luis Sirvent Blasco ([email protected])
12
2. QIE10 Testing Preparations:2.5 Very preliminary data taken with the Set-Up (STD_Deviation)
0 100 200 300 400 500 600 700
0
5
10
15
20
Charge (fC)
ST
D D
evia
tion
(AD
C C
ount
s)
Current Sweep Range 0 (-16fC to 592 fC)
CID1
CID2CID3
CID4
Region Studied: Range 0 (-16fC to 592fC)Current (640nA to 23uA)
Each Current = 1000 points (25 us)Each Point = mean of 250 measurementsPoints identified by CID number
DRAFT !!