Page History

PROCEDURE:

1. Reconfigure the LFB (if changing total gap voltage)
2. Reconfigure the Low Group Delay Woofer (if changing total gap voltage)
3. Change Comb Filter Settings (if changing total gap voltage) and Enter Station Gap Voltages (by hand or with loading EPICSconfigs)
4. Change Comb Filter Settings (if changing total gap voltage)
5. May need to change the woofer setup
6. May need to change the Power Balance Feedback Setup  
7. Check collision phase for luminosity
8. May need to alter the bucket pattern to keep charge/bucket similar for luminosity

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Note: You can access the LGDW configuration directory from any UNIX AFS  (flora) machine.  Just change directory to /nfs/mccfs0/u1/lfb/lgdw/dl/sr/HER/ or .../LER/

3. COMB FILTER SETTING (if changing the total gap voltage) and STATION GAP VOLTAGES. VOLTAGE

The stations' There are only three possible comb filter setups available at a time.  For each different gap voltage, a new comb filter coefficient file is made.   The comb filter setting and station gap voltage may be entered either manually (i.e. you type it in one station at a time) on the EPICS panel or with loading an EPICS config.

MANUAL OPTION:

Load the appropriate filter set.  In order to activate these one has to do the following on each of the 16 comb filter control panels (Module Diagnostics --> CFM1 and CFM2):

-         Place module in "Load" mode (set of buttons labeled "state" at the bottom of the panel)

-         Push "IIR" button (to the right of the IMCF file name).  Make sure the status line on the top reports success.

-         Select desired comb set (0, 1, or 2).

-         Return the module to the "run mode" Load the appropriate gap voltages. EPICS CONFIG LOAD:

Just do it.Spreadsheet from Dan VanWinkle on how to keep 16 MV when we lose one RF
station.

Station Current Voltage Future Voltage If 2 Cav Park If 4 Cav Park
HR41 1200 1200 0 1400
HR46 1000 1100 1350 1400
HR81 2100 2100 2150 2400
HR83 2200 2200 2200 0
HR85 2250 2200 2200 2400
HR21 0 1200 1350 1400
HR22 1200 1200 1350 1400
HR23 1200 1200 1350 1400
HR24 1200 1200 1350 1400
HR25 1100 1200 1350 1400
HR26 1150 1200 1350 1400

Total 14600 16000 16000 16000

Total Voltage
4 Cav V/Cav 2400 600
2 Cav V/Cav 1200 600EPICS CONFIG LOAD:

William Colocho and Nancy Spencer have made SCP config files for use in the parking of a given HER RF station exist.  The configuration region is called HER_GAPV (SCP path INDEX -> CONFIG -> MISC CONFIG -> EPICS CONFIG -> HER GAP VOLT) and the NORMALdirectory NORMAL directory has setups for parking each station. Configs for 2005 2007 are still in the works These new configuration files save the following parameters for each RF station in HER:1.                 Desired

1. Desired gap voltage

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1. LFB woofer link state (ON/OFF); meaning woofer is turned on or off.  This does not load LFB configurations, it just tell the given RF station to woof or not.

4. COMB FILTER SETTING (if changing the total gap voltage).

For each different gap voltage, a new comb filter coefficient  per station's Comb-2 module is needed.  Use the "Comb Filter Freq." Matlab function to set up the comb filter coefficients.  (The Matlab function can be found on the "RF GUI Invasive" INDEX -> High Energy Ring Panel ->  HER RF -> RF Matlab and GUI Panel)

 The Comb Filter Freq. function will:

•  Check for no circulating beam in the machine.
•  Get Gap Voltage total from EPICS.
•  Calculate new comb filter coefficient and enter it into the inactive bank on the Comb-2 modules.
• Activate the inactive bank.

Note 1: To back out of the changes made by this program; just make the new inactive bank active. 

Note 2: There is no need to save comb-2 configuration files since the Matlab function can be run anytime one needs new comb filter coefficients.

LFBconfigs.3.                 Comb filter set value (0, 1, or 2) BACKGROUND COMB FILTER INFO: 

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Dmitry A: "Comb filters provide feedback gain at the synchrotron sidebands so that the effective impedance of the RF cavity is reduced.  These filters are adjusted to peak at the synchrotron frequency using several coefficients.  If the gap voltage changes, the synchrotron frequency moves.  Then the comb filter does not peak at the right frequency and the feedback gain at Fs is reduced."  (Fs = synchrotron frequency)

45. MAY NEED TO CHANGE THE WOOFER SETUP (EPICS "FEEDBACK" PANEL FOR EACH STATION).

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When changing the woofer complement two things are important: number of stations and the regions.  In 2004: "The system is tuned to have two stations in 8 and one in 12 woofing.  So, if you park 12-3 you need to turn on woofer on 12-1_.  _ You can press "woofer on" with beam without aborting.  The only issue is that if you end up with too many woofers running, the system might become unstable longitudinally and abort."  Furthermore, the order of preference for woofing stations is 12-3, 8-5, 8-3, 8-1, and 12-1.  The stations configured to woof are the 4-cavity stations: 8-1, 8-3, 8-5, 12-1, and 12-3.  Summary: woof with two stations in Region 8 (8-5, 8-3, 8-1) and one in Region 12 (12-3) (in preferred order). In 20052007: ??

EPICS CONFIG LOAD:

This step is handled by the EPICS config load of the gap voltages, comb filter set, and LFB woofer link ON/OFF in the previous step.

BACKGROUND WOOFER INFO:

My Q: What does a woofer really do?  My guess: Since the LFB system has a limited bandwidth and is setup to handle higher-frequency, higher order modes, the woofer somehow removes lower frequency noise from the RF stations.  Without any woofing, would I see longitudinal motion aborts? 

Dmitry A: "Pretty close.  LFB is actually quite wideband and handles both high and low frequency modes.  However the growth rates of the low frequency modes (close to RF frequency and driven by the RF cavity impedance) are very high.  Without woofer, LFB would not have enough gain to stabilize the machine at high currents.  We send the low-frequency part of the feedback signal to the RF stations which act as a high-gain kicker."

56.  MAY NEED TO CHANGE THE POWER BALANCE FEEDBACK SETUP

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If the parked station was the reference station for the feedback loop, either turn off the loop or select a new reference station.  See http://www.slac.stanford.edu/grp/ad/op/PowerBalance/for further help.

EPICS CONFIG LOAD: There is no such option at this time.

67.  CHECK COLLISION PHASE FOR LUMINOSITY

78.  MAY NEED TO ALTER THE BUCKET PATTERN TO KEEP CHARGE/BUCKET SIMILAR FOR LUMINOSITY IF OPERATING AT REDUCED CURRENTS.