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Parameters
Date |
Hx |
Hy |
tau_ax |
tau_ay |
Hc |
fcc |
tau_c |
klog |
04/04 |
( 4.523827014127088 pm 0.02421249166191169 )x1e-12 |
( 3.8861236700566346 pm 0.02729965680804218 )x1e-12 |
( -0.7846464329719642 pm 1.7813001344238282 )x1e-6 |
( 0.812498399648811 pm 2.056405883625459 )x1e-6 |
( 0.22391883309369365 pm 0.0048678363563895745 )x1e8 |
( 20.523743314968353 pm 0.41660545206804195 ) |
( -27.355609505458283 pm 4.926403005284534 )x1e-6 |
|
04/08 |
( 4.656490188294972 pm 0.030713099239283195 )x1e-12 |
( 4.026427682080395 pm 0.024961137039447488 )x1e-12 |
( 11.139905933469702 pm 1.9333971140709563 )x1e-6 |
( 9.893051071603125 pm 2.0255092342030174 )x1e-6 |
( 0.06210972131797969 pm 0.0014651839346088089 )x1e8 |
( 21.14772475402097 pm 0.39746326908662566 ) |
( -39.31445087696091 pm 4.637879163199134 )x1e-6 |
|
04/16 |
( 4.712841717838098 pm 0.03217269398501693 )x1e-12 |
( 4.05570284990468 pm 0.02989602761599388 )x1e-12 |
( 13.278320925890085 pm 1.7613223340804662 )x1e-6 |
(13.168774809423168 pm 1.8025234699237673 )x1e-6 |
( 0.06256912341942894 pm 0.00100336147242244 )x1e8 |
( 20.063355353982555 pm 0.3592990098735488 ) |
( -36.6264287359882 pm 4.168132625308112 )x1e-6 |
Channel
DARM
# |
name |
unit |
memo |
DQ |
1 |
K1:CAL-CS_PROC_C00_STRAIN_DBL_DQ |
- |
h(t) in double precision * butter("HighPass",2,7) |
16K |
2 |
K1:CAL-CS_PROC_DARM_DISPLACEMENT_DQ |
m |
delta_L * zpk([1,1,1,1],[10,10,10,10],1,"n") |
16K |
|
|
|
|
|
3 |
K1:CAL-CS_PROC_DARM_RESIDUAL_DBL_DQ |
m |
(1/C) * V_err |
16K |
4 |
K1:CAL-CS_PROC_DARM_DELTA_CTRL_MN_DBL_DQ |
m |
A_MN * V_ctrl |
4K |
5 |
K1:CAL-CS_PROC_DARM_DELTA_CTRL_IM_DBL_DQ |
m |
A_IM * V_ctrl |
4K |
6 |
K1:CAL-CS_PROC_DARM_DELTA_CTRL_TM_DBL_DQ |
m |
A_TM * V_ctrl |
4K |
|
|
|
|
|
7 |
K1:LSC-DARM_IN1_DQ |
ct |
V_err |
16K |
8 |
K1:LSC-DARM_OUT_DQ |
ct |
V_ctrl |
16K |
MICH
# |
name |
unit |
memo |
DQ |
|
|
|
|
|
1 |
K1:CAL-CS_PROC_MICH_DISPLACEMENT_DQ |
m |
delta_L |
16K |
|
|
|
|
|
2 |
K1:CAL-CS_PROC_MICH_RESIDUAL_DQ |
m |
(1/C) * V_err |
16K |
3 |
K1:CAL-CS_PROC_MICH_DELTA_CTRL_IM_DQ |
m |
A_IM * V_ctrl |
4K |
4 |
K1:CAL-CS_PROC_MICH_DELTA_CTRL_TM_DQ |
m |
A_TM * V_ctrl |
4K |
|
|
|
|
|
5 |
K1:LSC-MICH_IN1_DQ |
ct |
V_err |
16K |
6 |
K1:LSC-MICH_OUT_DQ |
ct |
V_ctrl |
16K |
|
|
|
|
|
7 |
K1:LSC-POP_PDA1_DC_OUT_256_DQ |
ct |
DCPD signal |
256 |
8 |
K1:LSC-POP_PDA1_RF17_Q_ERR_256_DQ |
ct |
RFPD signal |
256 |
|
|
|
|
|
9 |
K1:CAL-CS_LINE_BS_CTRL_DQ |
ct |
BS line |
512 |
10 |
K1:CAL-CS_LINE_BS_TM_DQ |
ct |
BS TM line |
512 |
Measurement
# |
Lock |
measured point A |
measured point B |
EXC point |
memo1 |
memo2 |
0a |
- |
- |
- |
- |
C_mich / (Input Matrix Gain) |
C_mich by FSM |
|
|
|
|
|
|
|
1a |
MICH |
K1:VIS-BS_ISCINF_L_OUT |
K1:LSC-MICH_IN1 |
K1:VIS-BS_ISCINF_L_EXC |
A_BS * C_mich |
A_BS = 1a * (Input Matrix Gain) / 0a |
1b |
MICH |
K1:VIS-BS_ISCINF_L_EXC |
K1:LSC-MICH_IN1 |
K1:VIS-BS_ISCINF_L_EXC |
A_BS * C_mich / (1 + G_mich) |
|
2a |
MICH |
K1:VIS-ITMX_TM_SUMOUT_L_EXC |
K1:LSC-MICH_IN1 |
K1:VIS-ITMX_TM_SUMOUT_L_EXC |
A_ITMX * C_mich / (1 + G_mich) |
A_ITMX = A_BS * 2a / 1b |
3a |
MICH |
K1:VIS-ITMY_TM_SUMOUT_L_EXC |
K1:LSC-MICH_IN1 |
K1:VIS-ITMY_TM_SUMOUT_L_EXC |
A_ITMY * C_mich / (1 + G_mich) |
A_ITMY = A_BS * 3a / 1b |
|
|
|
|
|
|
|
4a |
XARM |
K1:VIS-ITMX_TM_SUMOUT_L_EXC |
K1:LSC-MCL_IN1 |
K1:VIS-ITMX_TM_SUMOUT_L_EXC |
A_ITMX * C_XARM / (1 + G_XARM) |
|
5a |
XARM |
K1:VIS-ETMX_TM_SUMOUT_L_EXC |
K1:LSC-MCL_IN1 |
K1:VIS-ETMX_TM_SUMOUT_L_EXC |
A_ETMX * C_XARM / (1 + G_XARM) |
A_ETMX = A_ITMX * 5a / 4a |
|
|
|
|
|
|
|
6a |
YARM |
K1:VIS-ITMY_TM_SUMOUT_L_EXC |
K1:LSC-MCL_IN1 |
K1:VIS-ITMY_TM_SUMOUT_L_EXC |
A_ITMY * C_YARM / (1 + G_YARM) |
|
7a |
YARM |
K1:VIS-ETMY_TM_SUMOUT_L_EXC |
K1:LSC-MCL_IN1 |
K1:VIS-ETMY_TM_SUMOUT_L_EXC |
A_ETMY * C_YARM / (1 + G_YARM) |
A_ETMY = A_ITMY * 7a / 6a |
|
|
|
|
|
|
|
8a |
PRFPMI |
K1:LSC-DARM_OUT |
K1:LSC-DARM1_IN1 |
K1:LSC-DARM1_EXC |
(A_ETMX + A_ETMY) * C_DARM |
C_DARM = 8a / (A_ETMX + A_ETMY) |
8b |
PRFPMI |
K1:LSC-DARM1_IN2 |
K1:LSC-DARM1_IN1 |
K1:LSC-DARM1_EXC |
G_DARM |
UGF_DARM |
8c |
PRFPMI |
K1:LSC-DARM1_EXC |
K1:LSC-DARM1_IN1 |
K1:LSC-DARM1_EXC |
(A_ETMX + A_ETMY) * C_DARM / (1 + G_DARM) |
|
8d |
PRFPMI |
K1:LSC-DARM1_EXC |
K1:LSC-DARM1_IN2 |
K1:LSC-DARM1_EXC |
1 / (1 + GDARM) |
|
*9a |
PRFPMI |
K1:VIS-ETMX_TM_SUMOUT_L_OUT |
K1:LSC-DARM_IN1 |
K1:VIS-ETMX_TM_SUMOUT_L_EXC |
A_ETMX * C_DARM / (1 + G_xDARM) / (1 + G_yDARM) |
|
*10a |
PRFPMI |
K1:VIS-ETMY_TM_SUMOUT_L_OUT |
K1:LSC-DARM_IN1 |
K1:VIS-ETMY_TM_SUMOUT_L_EXC |
A_ETMY * C_DARM / (1 + G_xDARM) / (1 + G_yDARM) |
A_ETMY / A_ETMX = 10a / 9a |
|
|
|
|
|
|
|
11a |
PRFPMI |
K1:CAL-PCALX_... |
K1:LSC-DARM_IN1 |
K1:CAL-PCALX_... |
pcalx * C_DARM / (1 + G_DAMR) |
C_DARM = 11a / 8d / pcalx |
*12a |
PRFPMI |
K1:CAL-PCALY_... |
K1:LSC-DARM_IN1 |
K1:CAL-PCALY_... |
pcaly * C_DARM / (1 + G_DAMR) |
C_DARM = 12a / 8d / pcaly |
|
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|
50a |
PRY |
K1:VIS-ITMY_TM_SUMOUT_L_EXC |
K1:LSC-PRCL_IN1 |
K1:VIS-ITMY_TM_SUMOUT_L_EXC |
A_ITMY * C_PRY / (1 + G_PRY) |
|
51a |
PRY |
K1:VIS-PRM_ISCINF_L_EXC |
K1:LSC-PRCL_IN1 |
K1:VIS-PRM_ISCINF_L_EXC |
A_PRM * C_PRY / (1 + G_PRY) |
A_PRM = A_ITMY * 51a / 50a |
|
|
|
|
|
|
|
60a |
SRX |
K1:VIS-ITMX_TM_SUMOUT_L_EXC |
K1:LSC-SRCL_IN1 |
K1:VIS-ITMX_TM_SUMOUT_L_EXC |
A_ITMX * C_SRX / (1 + G_SRX) |
|
61a |
SRX |
K1:VIS-SRM_ISCINF_L_EXC |
K1:LSC-SRCL_IN1 |
K1:VIS-SRM_ISCINF_L_EXC |
A_SRM * C_SRX / (1 + G_SRX) |
A_SRM = A_ITMX * 61a / 60a |
|
|
|
|
|
|
|
70a |
PRFPMI |
K1:VIS-BS_ISCINF_L_OUT |
K1:LSC-MICH_IN1 |
K1:VIS-BS_ISC_INF_L_EXC |
A_BS * C_MICH |
C_MICH = 70a / A_BS |
70b |
PRFPMI |
K1:VIS-BS_ISCINF_L_IN2 |
K1:VIS-BS_ISCINF_L_IN1 |
K1:VIS-BS_ISC_INF_L_EXC |
G_MICH |
UGF_MICH |
|
|
|
|
|
|
|
71a |
PRFPMI |
K1:VIS-PRM_ISCINF_L_OUT |
K1:LSC-PRCL_IN1 |
K1:VIS-PRM_ISC_INF_L_EXC |
A_PRM * C_PRCL |
C_PRCL = 71a / A_PRM |
71b |
PRFPMI |
K1:VIS-PRM_ISCINF_L_IN2 |
K1:VIS-PRM_ISCINF_L_IN1 |
K1:VIS-PRM_ISC_INF_L_EXC |
G_PRCL |
UGF_PRCL |
|
|
|
|
|
|
|
72a |
PRFPMI |
K1:VIS-SRM_ISCINF_L_OUT |
K1:LSC-SRCL_IN1 |
K1:VIS-SRM_ISC_INF_L_EXC |
A_SRM * C_SRCL |
C_SRCL = 72a / A_SRM |
72b |
PRFPMI |
K1:VIS-SRM_ISCINF_L_IN2 |
K1:VIS-SRM_ISCINF_L_IN1 |
K1:VIS-SRM_ISC_INF_L_EXC |
G_SRCL |
UGF_SRCL |
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- * can be skipped. But if it's performed, we can do the consistency check.