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EPICS Meeting 2005, SLAC. Spallation Neutron Source Low-Level RF Control System. Kay-Uwe Kasemir, Mark Champion. April 2005. SNS Linac LLRF. RF Reference Line, Timing System. Klystron. Cavity. LLRF. [mW]. [MW]. Fwd. Ref.
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EPICS Meeting 2005, SLAC Spallation Neutron SourceLow-Level RF Control System Kay-Uwe Kasemir, Mark Champion April 2005
SNS Linac LLRF RF Reference Line, Timing System Klystron Cavity LLRF [mW] [MW] Fwd Ref • LLRF produces the Milliwatt-level “RF drive”: Pulsed @ 60Hz, 1.3ms • 96 cavities of various types,15 warm (RFQ, MEBT, DTL, CCL), rest superconducting (SCL);some cavities at 402.5, some at 805 MHz. • RF Reference, forward, reflected and cavity data is down-converted to50 MHz, then sampled at 40 MHz,resulting in data streams of I, Q, -I, -Q, … (re. & im. of complex data) • At 40 MHz, a fully digital control system (FPGA & CPU) computes output data stream which gets up-converted to 402.5 resp. 805 MHz.
VXI Crate with MVME2100 CPU SNS Utility board Time of day, events, etc.via SNS real-time data link SNS Timing board TTL timing pulses “High Power Protection Module” Monitors power levels,arc detectors, …for fast shutdown “Field Control Module” 40MHz FPGA-based control loop SC Linac uses IOCs with 2xHPM, 2xFCM.Total of about 55 IOCs. We use VXI as if it was VME No need for VXI “slot-based” addressing 8-bit VME instead of 16-bit VXI interrupt vectors. VME CPU on extender board cheaper than VXI slot-zero controller. LLRF Hardware
HPM - High Power Protection Module • Fast RF Shutdown • Monitors 8 RF channels,-50…+10 dBm (10nW…10mW),for the duration of the RF gate. • Per-channel threshold and time limit.Trips when RF above threshold longer than time limit. • Monitors 14 arc detector inputs. • Computed/software interlocks. • Everything can be enabled/disabled,except one hardware input for “Vacuum OK” signal. • 2 history buffers capture 2ms of data (2s resolution).User selectable for any RF channel, arc detector,or misc. other internals of the HPM. • Trip information is sent to the FCM via redundant VXI backplane lines. FCM then cuts the RF drive.
LBNL MEBT LLRF Control Box(Larry Doolittle, http://recycle.lbl.gov/~ldoolitt/llrf ) “nanoEngine”check-card computer,runs Linux & EPICS R3.14. Xilinx Spartan FPGAXC2S150for 40MHz control loop. Mini-Circuits components. OK, but at its limit:6kB of history buffer,no floating-point CPU. FCM Ancestor: SNS “Generation 1 & 2” LLRF
VXI Carrier Board Analog Front End Replaces Mini-Circuits. Digital Front End From SNS BPMs Xilinx Virtex II XC2V1500 (2xI/O, 4xlogic cells over gen. 1,2) RF Output AFE & RFOspecific to 805vs. 402.5 MHz Firmware (VHDL)translated fromGen. 1/2 LLRF(Verilog),then extended. FCM - “Generation 3”
FCM Firmware vs. CPU Software • FCM Firmware • 40 Mhz PI controller. • History Buffers: 5 x 512 x 16 bit x {I, Q}with configurable zoom & pan. • Feed-Forward Buffer: 4096 x 8bit x {I,Q},200ns or 400ns granularity. • CPU Software • ‘Arm’ waveform updates synchronously with SNS event link. • Decode raw buffer data intoI, Q, Phase, Amplitude waveforms. • Resonance Error Calculation. • Adaptive Feed-Forward. • Automation.
Example SNS LLRF Screen for one cavity Cavity amplitude & phase controls Calls up Auto-Run sequencer page Calls up FCM “expert” pages including Adaptive FeedForward controls
The Auto-Run Sequence simplifiesturn on of an RF station • Ramp RF drive level open-loop in frequency-tracking mode until desired cavity gradient is reached. • Warmup the cavity in frequency-tracking mode until acceptable resonance error is reached. • Close the feedback loop after setting loop phase. • Monitor the status of the HPRF system throughout the sequence.
Adaptive FeedForward Beam Compensation Fig. 1 Beam loading in DTL6 with ~40 us, 20 mA beam induced error of 2.7% and 2 deg in amplitude and phase. Fig. 2 Beam loading eliminated by means of Adaptive FeedForward.
SNS LLRF Status • Installation of IOCs completed,maybe 80% of the cavities connected. • Working on improved • Interlocks • Closed loop for superconducting section • Adaptive feed forward • Firmware:Larry Doolittle wrote new firmware in Verilog which synthesizes for Generation 1, 2 & 3 hardware.Debug this ‘portable’ firmware and use it,or stay with proven ‘FCM-only’ firmware?