Various LLRF projects FNPL FermilabDESY - PowerPoint PPT Presentation

Title: Various LLRF projects FNPL FermilabDESY


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Various LLRF projectsFNPL Fermilab/DESY

• May 4th, 2005

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LLRF Goals
We are here

• I. DESY Remote control of SimCon 2.1 Cavity
  Simulator _at_ FNAL
• II. Again install SimCon 2.1 at A0 for local
  control of 9-cell Cap-Cav 1.
• DESY Remote Control of 9-cell _at_ A0
• Build up SimCon. Inventory and expertise at
  FNAL by for Oct. CC2 test
• V. October SMTF test of CC2
• VI. Provide several SimCon3.1 systems for 3.9
  GHz stuff as well as uniform evolution

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I. DESY Remotely control of SimCon 2.1 Cavity
Simulator _at_ FNAL

• Time Frame currently ongoing
• Personnel WK, RC, AB, TK,
• Status
• For control with "proprietary" Matlab software
• successful connected to cavity simulator already
• For remote control using the control system
  DOOCS
• Established connection DESY ?? FNAL
• Fixed minor bugs in the FNAL control system
• Did Ron succeed in running DOOCS 'rpc_test' on
  vmedevelop5?

4
II. Again install SimCon 2.1 at A0 for local
control of 9-cell Cap-Cav 1.

• Time Frame May 9th 23rd
• Personnel AB, TK, RC, BC, RR, (the usual
  suspects)
• Requirements
• - Brian Chases 2nd Vector Modulator (status ?)
• - SimCon2.1 and Dev5 Crate moved to back to A0
• - Alexander Brandt Visits FNAL, arrives May 9th
• - Permanent fix for MatLab license ?
• Were OK for May ONLY !
• -Cave access scheduling interlock work done,
  just scheduling
• (TK to ensure)

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III. DESY Remote Control of 9-cell at A0

• Time Frame May 9th 23rd
• Personnel AB, TK, BC, RC, WK.
• Requirements
• - Brian Chases 2nd Vector Modulator
• - SimCon2.1 and Dev5 Crate moved to back to A0
• - Alexander Brandt Visits FNAL, arrives May 9th
• - Permanent fix for MatLab license ?
• Were OK for May ONLY !
• -Cave access scheduling interlock work done,
  just scheduling (TK to ensure)
• - Alexander, Tim, present at A0 while Waldemar
  et. Al work at DESY. Start 300 AM (400 AM?)
  FNAL time

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III. DESY Remote Control of 9-cell at A0

• After remote control is established
• 1st Need Calibrations (help from persons at FNAL,
  TK AB etc)
• Offset compensation of vector modulator
• Loop Gain, Loop Phase
• Initial calibration of ADC channels of down
  converted signal
• Port our DOOCS readout of the gradient directly
  to Solaris?
• We need two values from DOOCS per pulse
• Maximum power from klystron
• Maximum gradient during pulse.
• TEST 1 feed forward driving at different
  gradient
• TEST 2 feed back feed forward
• Other tests before May 23rd ?

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III. May 9th 23rd SimCon2.1 A0 testSetup
1.30025GHz (square-like)
VM
VM
VM
1.3GHz
SPARC SV
Timing
ADCs (Control)
DSP C-40
DAC
ADCs (Monitoring)
Function Generator
SPARC
LPT2VME
SimCon 2.1
1.30025GHz
1.3
10MHz
Wooster Crate
WindowMatlab
Linux
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IV. Tools System Development

• Time Frame Summer 05
• Goals
• - Develop FNAL DOOCS expertise Ron R.
• - Install on a development system
• - Upgrade A0 Day-to-Day operations (wait for
  Kay Rhelichs visit)
• - Develop EPICS expertise at FNAL in parallel
• - Chris Neu
• - Immediately obtain another SimCon2.1 System
• - 2nd development crate, VME carrier board, etc
• - New Sparc to run DOOCS
• - New FNAL timing card (9/10MHz ?)
• - Construction of a New Master Oscillator (BC)
• - need Simrock to solidify frequencies (will
  get to later in talk)
• - weve decided to use a synthesizer as ref
  source (for now)
• - ORDER PARTS SOON !

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IV. Tools System Development
Some SimCon Definitions

• SimCon2.1
• Status currently in use at IB1, to be moved to
  A0
• Equipment 2 ADCs 2DACs, Vertex II 3000 FPGA 3MG
• SimCon
• Status will be used in May 23rd ACC1 test at
  DESY
• Equipment 8 ADCs ? DACs, How does this impact
  us?
• SimCon 3.1
• Status Should be ready by August ?
• Equipment 10 ADCs 4 DACs, ? FPGA

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IV. Tools system Development
FNALs Needed SimCon Inventory
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Shopping List
IV. Tools system Development

• 6 Dawn VME crates Helen looking up previous FNAL
  Dawn purchase
• ? Timing Modules To be specified by Mike Kucera
• 6 Sparcs one for each crate following DESYs
  suggestion, Ron Dennis
• 4 Motorola 5500s (unless we determine EPICS will
  run on SPARCS) RR to ask Margaret
• 4 client workstations
• 10 MHz ADC cards for non-FPGA based monitoring -
  Kay Rhelich order extra10 for FNAL.
• URGENT to obtain a second SimCon2.1, carrier
  board, and FPGA development board
• DESY to supply
• SimCon 2.1
• VME Carrier Board (2 or more as to prepare for
  SimCon3.1)
• Part for suggested FPGA development board
• FNAL to purchase DESYs suggested FPGA board

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Distribution of Crates

• Crate 1 TD DOOCS development EPICS
  development
• populated with
• SPARC, Motorola 5500, SimCon2.1 (later3.1),
  more to be specified
• Crate 2 SMTF DOOCS for LLRF control of CC2
• populated with
• SPARC, Motorola 5500, SimCon2.1, more to be
  specified
• Crate 3 SMTF Timing crate for CC2
• populated with
• SPARC, Motorola 5500, Timing equipment to be
  specified
• Crate 4 A0 LLRF RD efforts
• populated with
• SPARC, SimCon2.1 (later3.1)
• Crate 5 A0 Timing Crate upgrade or just 2nd?
• populated with
• SPARC, more to be specified
• Crate 6 Development crate
• populated with
• SPARC, Motorola 5500, SimCon2.1 (later3.1),
  more to be specified

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New Master Oscillator Scheme
IV Tools system Development
(Minimum of ports)
3900MHz (Fundamental Ref) x2
2600MHz (opt. Fundamental Ref) x2
134875MHz(LO) x5
3.9GHz Ref.
1300.250MHz (LO) x5?
1300.000MHz (Gun, CC12,3.9) x5
81MHz (DAC clock, LASER ?) x6
65MHz (IF or ADC Clock ?) x5?
52MHz (ADC clock ? 4/5) x5
48.75MHz (IF or ADC clock ? 4/3) x5
10MHz (timing old) x?
9MHz (timing new) x5
1MHz (DAC clock) x5
250kHz (DAC clock) x5

• Have a high frequency, low noise reference at
  3.9GHz (or 2.6GHz)
• Derive other frequencies using low noise dividers

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Understanding under-sampling
IV. Tools System Development
Q
I
Q
I






0nS
3.85nS
7.69nS
11.54nS
15.38nS
19.23nS
- Q

-I

65MHz sine wave
Typically for a 65 MHz sine wave, youd want to
sample every ¼ cycle (a rate of 260MHz) and would
get record I, Q, -I, -Q,I
If you undersampled at a rate of 4/5 65MHz
(52MHz, T19.23), you would get still record in
the seemingly natural order I,Q,-I,-Q,I
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Understanding under-sampling
IV. Tools System Development
Q
I
Q
I





0nS
5.13nS
10.26nS
15.38nS
20.51nS
25.77nS
- Q


-I
48.75 MHz sine wave

Similarly for a 48.5 MHz sine wave, youd want to
sample every ¼ cycle (a rate of 260MHz) and would
get record I, Q, -I, -Q,I
If you under-sampled at a rate of 4/3 48.75 MHz
(65MHz, T15.38nS), you would record IQ in the
the order I,-Q,-I,Q,I ?
does not seem natural.
Q Which down converted frequency and ADC clock
rate do we want to use ? IF at 65 MHz sampled
52MHz (4/5 natural regime) or A carrier 48.75 MHz
sampled at 65MHz (4/3 regime) ? (white board
showed 4/3)
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V. October Test of CC2

• It seems prudent to develop the LLRF system for
  the CC2 based on SimCon2.1 (an established
  working board) and DOOCS as the control software.
• We will have the capacity to test the EPICS
  progress of that time.
• We should be able to test SimCon3.1 as well.
• - Plenty of crate space
• - New Master Oscillator
• - I am sure there are more features

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BLOCK DIAGRAM FOR MESON TEST
1.30025GHz
VM
1.3GHz
MO
1.30025GHz (square-like)
VM
250 kHz
9 or 10 MHz
?
Timing crate
ADCs (Control)
NEW SPARC
MOTOROLA 5500
DSP C-40
NEW ADC (moni)
Extra Module 1
Function Generator
NEW SPARC
MOTOROLA 5500
SimCon 2.1
SimCon2.1
?
Linux
Linux
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BLOCK DIAGRAM FOR MESON TEST
1.30025GHz
VM
1.300GHz
MO
1.34875GHz
?
250 kHz
9 or 10 MHz
65MHz
48.75MHz
Timing crate
ADCs (Control)
NEW SPARC
MOTOROLA 5500
DSP C-40
NEW ADC (moni)
Extra Module 1
Function Generator
NEW SPARC
MOTOROLA 5500
SimCon 3.1
?
Linux
Linux
SimCon3.1