Upgrading Electronics for the LLRF
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Transcript of Upgrading Electronics for the LLRF
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 1
Upgrading Electronics for the LLRFUpgrading Electronics for the LLRF
Electronics Design Efforts
Craig Drennan, April 16,2009
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 2
Goals in Upgrading the LLRF Goals in Upgrading the LLRF ElectronicsElectronics
Eliminate outdated, difficult to replace components.
Mixers in phase shifters, comparators and amplifiers.
Provide a cleaner more robust layout of the racks and individual modules.
Reduce the tangle of interconnecting coax cables.
Reduce the number of modules.
Replace post soldered modules with printed circuits.
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 3
Goals in Upgrading the LLRF Goals in Upgrading the LLRF Electronics (cont.)Electronics (cont.)
Provide more flexibility in the Main Injector phase lock process.
The current MI phase lock electronics are rigidly implemented with analog electronics from 20+ years ago.
The upgrade effort currently does not propose to change the basic structure of the LLRF control loops.
The acceleration phase lock and the radial position control loops will initially be replicated in their function and basic static and dynamic parameters.
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 4
ChallengesChallenges
Understanding the function and parameters of the existing system is essential.
Operators expect to have the same control over the new system as they do the existing one.
Re-writting console applications cannot be done is many circumstances.
Closed loop static and dynamic parameters nust be understood, appreciated and able to be implemented in any new system.
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 5
Challenges (cont.)Challenges (cont.)
New electronics must facilitate controlled integration into a working system.
Testing and eventual implementation of new modules must not interfere with the normal operation of the Booster.
Reliable multiplexing of signals between the new and existing electronics must be implemented.
Long term evaluations of the new modules will be performed.
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 6
SpecificationsSpecifications
It is important to understand what exists now and have a detailed specification for the new system.
Specification documents:“Requirements for the Booster LLRF DDS Module”, Beams-doc-2828-v4.
“Mathematical Description of the Booster LLRF Controls”, Beams-doc-2974-v2.
“Implementation of the Paraphase Curve in the BGDSPM”, Beams-doc-1289-v2.
“Characterization of the Fast Phase Detector in the Booster LLRF System”, Beams-doc-3367-v1
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 7
More SpecificationsMore Specifications
Other Sources for System RequirementsLinks for “Papers” and “Presentations” on the Booster www page, http://www-ad.fnal.gov/proton/booster/booster.html
Historical documents:
L.C. Teng, “Booster Low-Level RF Feedback System”, NAL TM-311, 1971.
C. Kerns, et.al., “New Low-Level rf System for the Fermilab Booster Synchrotron”, FNAL TM-1447 0331.000, March 1987.
These documents reference others.
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 8
Existing LLRF SystemExisting LLRF System
Examine prints of system block diagram
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 9
Acceleration Phase Lock LoopAcceleration Phase Lock Loop
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 10
Phase Feedback Time DelayPhase Feedback Time Delay(Latency)(Latency)
From L.C. Teng 1971 (TM-311) the acceleration phase lock loop is expected to remain stable as long as the phase loop delay remains below 3 microseconds.
This delay in the existing system is estimated at 1.48 microseconds.
Digital data processing and digital signal synthesis will add latency.
ADC digitizer latency = 0.100 microseconds.
Processing latency = 0.100 microseconds.
DDS (DAC) output latency = 0.170 microseconds
Processing latency should remain below the 1 microsecond update rate
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 11
Frequency and PhaseFrequency and PhaseBlock DiagramBlock Diagram
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 12
AD9910 EvaluationAD9910 Evaluation
1 us update of frequency and phase for all channels is achievable.
1 us update of frequency and phase for all channels is achievable.
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 13
DDS VME ModuleDDS VME ModuleEarly Layout EstimateEarly Layout Estimate
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 14
I/O Specification (initial)I/O Specification (initial)
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 15
Integrating More ControlsIntegrating More Controls
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 16
Dual Phase DetectorDual Phase Detector
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 17
Possible MI Phase Lock ApproachPossible MI Phase Lock Approach
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April 16, 2009Craig Drennan, AD/Proton Source/Booster 18
Another TrialAnother Trial
Dual phase detector used in a feed forward application.