Differences between revisions 12 and 17 (spanning 5 versions)
Revision 12 as of 2022-10-26 11:01:18
Size: 4031
Editor: KeikoKokeyama
Comment:
Revision 17 as of 2022-10-26 11:28:59
Size: 4557
Editor: KeikoKokeyama
Comment:
Deletions are marked like this. Additions are marked like this.
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 * Phasing is done by Kenta
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 * Phasing is done by Kenta
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 * Phasing is done by Kenta (probably?)
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  * {{{K1:ASC-POP_FORWARD_QPDA1_DC_{PIT,YAW}}}}
  * They can be found on sitemap > ASC overview > All DC QPDs
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  * {{{K1:LSC-POP_S{P}POL_DC}}}
  * Can anyone add them on an MEDM screen somewhere?
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 * If the beam is off, use the picomotor first because the PZT ranges are not large
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  * PZTs and picomotors are available  * If the beam is off from the WFSs, use the picomotors first because the PZT ranges are not large
 * {{{K1:ASC-DC{5,6,7}_{P,Y}}}} are to be used for the WFS DC centering loops
Line 70: Line 76:
  * FM filters:
   * Gains: null (gain of 0) and Gain(UGF40)
   * LPF: p1 (pole at 1 Hz)
   * Integrator: p0:z1 (pole at 0 Hz, zero at 1 Hz) - turn this on after the LPF

Angular Sensing and Control (Oct, 2022)

Contents

  1. Angular Sensing and Control (Oct, 2022)
    1. WFS ports
      1. REFL (17, 45 MHz)
      2. POP (17, 45 MHz)
      3. AS (17, 28 MHz)
    2. DC QPD ports
      1. TMSX
      2. TMSY
      3. POP Forward
    3. DC PDs
    4. WFS Commissioning
      1. WFS DC centering
        1. General
        2. REFL
        3. POP
        4. AS
      2. Single Y arm
      3. Single X arm
      4. PRMI
      5. PRFPMI
      6. DRFPMI
  2. Next Steps
    1. Infrastructure
    2. Simulation
    3. Integration
  3. Known issues

WFS ports

REFL (17, 45 MHz)

POP (17, 45 MHz)

AS (17, 28 MHz)

DC QPD ports

TMSX

TMSY

POP Forward

  • There are two DC QPDs on POP Forward, used for the initial alignment

    • K1:ASC-POP_FORWARD_QPDA1_DC_{PIT,YAW}

    • They can be found on sitemap > ASC overview > All DC QPDs

DC PDs

  • There are POP_P and POP_S DC PDs on POP.

    • K1:LSC-POP_S{P}POL_DC

    • Can anyone add them on an MEDM screen somewhere?

WFS Commissioning

WFS DC centering

General

  • Beam spots on the quadrant diodes must be centered (DC centering)
  • If the beam is off from the WFSs, use the picomotors first because the PZT ranges are not large

  • K1:ASC-DC{5,6,7}_{P,Y} are to be used for the WFS DC centering loops

REFL

  • Open the REFL shutter first for REFL WFS

  • K1:ASC-DC5_{P,Y} are used for the DC centering controls

    • FM filters:
      • Gains: null (gain of 0) and Gain(UGF40)
      • LPF: p1 (pole at 1 Hz)
      • Integrator: p0:z1 (pole at 0 Hz, zero at 1 Hz) - turn this on after the LPF

POP

  • DC control loop not implemented yet

AS

  • DC control loop not implemented yet

Single Y arm

Single X arm

PRMI

PRFPMI

DRFPMI

Next Steps

Infrastructure

  • Guardian implementation
    • DC centering loops on REFL, POP, and AS
    • Single Y, X arms, and PRMI guardstates for initial alignment

  • Add trigger for the main ASC switch (K1:ASC-WFS_GAIN) similarly to the IMC switch (K1:IMC-WFS_GAIN)

Simulation

  • Compare the measured sensing matrices against the simulation
    • Koyama-kun's simulation GUI tool is available on the workstations

      • sitemap > Commissioning Top > finesse GUI

Integration

  • Implement single-Y, single-X, and PRMI controls for the initial alignment
    • If the alignment is too off, first ADS then WFS control?
  • PRFPMI/DRFPMI angular controls
  • Noise budget

Known issues

  • TMSX PIT-YAW coupling
    • The beam is slightly not centered in yaw on the second lens on the in-air table. Adjusting the beam position on the lens might fix the problem.

KAGRA/Subgroups/MIF/AngularSensing (last edited 2022-11-02 09:12:15 by KeikoKokeyama)