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<<TableOfContents(3)>>

= Acceptance Test =
== Flow chart ==
[[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=12025| Flow chart for the acceptance check ]]

{{https://gwdoc.icrr.u-tokyo.ac.jp/DocDB/0120/E2012025/003/VISworkflow-Overview.png|WorkFlow|width=600}}

== A: Design phase ==
[[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=xxx|Check sheets templates for A]]

=== A01 : Simulation satisfy the requirement? ===
==== Input ====
 * KAGRA requirements
  * Input the design sensitivity (ref. xxx)
  * Input the DAC limit (ref. xxx)
 * Suspension model
  * plant model : rigid body model by SUMCON (ref. xxx)
  * control model : LTI model by Matlab simlink (ref. xxx)
  * noise model : seismic noise, control noise (ref. xxx)

==== Output ====
 * Transfer function
  * transfer function of the suspension (ref. xxx)
 * Noises
  * requirement for sensor noises (ref. xxx)
  * requirement for actuator noises (ref. xxx)

==== Content ====
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= Acceptance Test =
== A: Design phase ==
=== A01 ===
 * hoge		 == B: Installation phase ==
[[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=11957|Check sheets templates for B]]
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== B: Installation phase ==
=== B01 ===		 === B01 : Tower is ready to combine? ===
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 * Calibration (LVDT, ACC)
  * Calibration (plot, polarity, coefficient)
  * Sensor noise (plot)
 * Working point and dynamic range with FR, Limit SW
  * Range (from -mm to +mm)
  * Minimum range (mm)
  * Optimal point (mm)
  * Limit SW (on/off)
 * Tuned frequencies of GAS Filter/IP
  * Frequency (TF, actuator efficiency)
  * Maximum frequency (Hz)

=== B02 : Payload is ready to combine? ===
 * {i} Please write

=== B03 : Can we measure the TF in air? ===
 * {i} Please write

=== B04 : Can we measure the TF in vacuum? ===
 * Damping time
  * RMS in spectrum (plot)
 * Healthy check
  * Transfer function (plot)
  * Resonant frequencies (PreQUA)
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=== C01 === [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=xxx|Check sheets templates for C]]
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=== C02 === === C01 : Can we control the suspension in local? ===
 * Noise budget
  * Spectrum (plot)
 * Automation
  * check the guardian transition
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------

== Check items on Hardware ==
[[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=11957|Check sheet]]

=== Cable connection ===
 * Resistance (Ohom)
 * Continuity (O/X)

=== Calibration (LVDT, ACC) ===
 * Calibration (plot, polarity, coefficient)
 * Sensor noise (plot)

=== Working point and dynamic range with FR, Limit SW ===
 * Range (from -mm to +mm)
 * Minimum range (mm)
 * Optimal point (mm)
 * Limit SW (on/off)

=== Tuned frequencies of GAS Filter/IP ===
 * Frequency (TF, actuator efficiency)
 * Maximum frequency (Hz)

== Check items on Software (Control) ==
=== Healthy check template ===
 * Transfer function (plot)
 * Resonant frequencies (PreQUA)

=== Damping time ===
 * RMS in spectrum (plot)

=== Noise budget ===
 * Spectrum (plot)

=== Guardian ===		 === C02 : Can we control the suspension in global? ===
 * Please write
  * aaaa

Contents

  1. Acceptance Test
    1. Flow chart
    2. A: Design phase
      1. A01 : Simulation satisfy the requirement?
    3. B: Installation phase
      1. B01 : Tower is ready to combine?
      2. B02 : Payload is ready to combine?
      3. B03 : Can we measure the TF in air?
      4. B04 : Can we measure the TF in vacuum?
    4. C: Integration phase
      1. C01 : Can we control the suspension in local?
      2. C02 : Can we control the suspension in global?

Acceptance Test

Flow chart

Flow chart for the acceptance check

WorkFlow

A: Design phase

Check sheets templates for A

A01 : Simulation satisfy the requirement?

Input

  • KAGRA requirements
    • Input the design sensitivity (ref. xxx)
    • Input the DAC limit (ref. xxx)
  • Suspension model
    • plant model : rigid body model by SUMCON (ref. xxx)
    • control model : LTI model by Matlab simlink (ref. xxx)
    • noise model : seismic noise, control noise (ref. xxx)

Output

  • Transfer function
    • transfer function of the suspension (ref. xxx)
  • Noises
    • requirement for sensor noises (ref. xxx)
    • requirement for actuator noises (ref. xxx)

Content

B: Installation phase

Check sheets templates for B

B01 : Tower is ready to combine?

  • Cable connection
    • Resistance (Ohom)
    • Continuity (OK/NO)
  • Calibration (LVDT, ACC)
    • Calibration (plot, polarity, coefficient)
    • Sensor noise (plot)
  • Working point and dynamic range with FR, Limit SW
    • Range (from -mm to +mm)
    • Minimum range (mm)
    • Optimal point (mm)
    • Limit SW (on/off)
  • Tuned frequencies of GAS Filter/IP
    • Frequency (TF, actuator efficiency)
    • Maximum frequency (Hz)

B02 : Payload is ready to combine?

  • {i} Please write

B03 : Can we measure the TF in air?

  • {i} Please write

B04 : Can we measure the TF in vacuum?

  • Damping time
    • RMS in spectrum (plot)
  • Healthy check
    • Transfer function (plot)
    • Resonant frequencies (PreQUA)

C: Integration phase

Check sheets templates for C

C01 : Can we control the suspension in local?

  • Noise budget
    • Spectrum (plot)
  • Automation
    • check the guardian transition

C02 : Can we control the suspension in global?

  • Please write
    • aaaa

KAGRA/Subgroups/VIS/Acceptance Test (last edited 2020-12-04 11:38:31 by KousekiMiyo)