Type-A Tower ITMX Specification

Contents

Type-A Tower ITMX Specification

IP

IP_SM,LV_IX,IY.png

Accelerometer (ACC)

Geophone (GEO) is to be replaced by ACC in ITMX and ITMY.

Frequency response

Geophone's frequency response to the ground velocity:

Sensor	S/N	Quality factor	Resonant frequency [Hz]
ACC H1	#
ACC H2	#
ACC H3	#

Noise

Sensor	Noise [m/rtHz] @ 0.1 Hz	Noise [m/rtHz] @ 10 Hz
ACC H1
ACC H2
ACC H3

Calibration

Converted displacement [um] = 3.052 x 10^-4 [V/cnt] / H_GEO(ω) / (gainPreamp) x (DC cutoff) x 1/s (m/(m/s)) x 10⁶

LVDT

Sensor	Efficiency [um/cnt]
LVDT H1
LVDT H2
LVDT H3

Actuator polarization

Polarity is determined so that an +offset at the COILOUTF applies +yaw force in each actuator.

COIL H1:
COIL H2:
COIL H3:

Diagonalization matrix

LVDT2EUL (updated on 2018-May-3)

H1	H2	H3	To:
0.6666	-0.3333	-0.3333	Long.
0	-0.5774	0.5774	Trans.
0.56111	0.56111	0.56111	Yaw

ACC2EUL (updated on 2018-May-3)

H1	H2	H3	To:
0.64400	-0.17250	-0.4714	Long.
0.17250	-0.6440	0.47140	Trans.
0.56348	0.56348	0.56348	Yaw

EUL2COIL (updated on 2018-May-3)

Long.	Trans.	Yaw	To:
0.5	0	0.594	H1
-0.25	-0.5	0.594	H2
-0.25	0.5	0.594	H3

Stepper motor

See also: Stepper motor setup

Epics channel name: K1:STEPPER_IXV_***
Driver IP address: 10.68.150.**
Motor 0	Motor 1	Motor 2	Motor 3	Motor 4	Motor 5
F0 Yaw	IP H1	IP H2	IP H3	<blank>	<blank>

GAS

LVDT

Sensor	Efficiency [um/cnt]
F0 LVDT GAS
F1 LVDT GAS
F2 LVDT GAS
F3 LVDT GAS
BF LVDT GAS

/* */ /* */

/* */ /**/

Fishing Rod (stepper motor)

See also: Stepper motor setup

Motor driver

(To be updated)

Epics channel name: K1:STEPPER_EXV_GAS
Driver IP address: 10.68.150.45
Motor 0	Motor 1	Motor 2	Motor 3	Motor 4	Motor 5
F0 GAS	F1 GAS	F2 GAS	F3 GAS	BF GAS	<blank>

Property

(To be updated)

	F0 GAS	F1 GAS	F2 GAS	F3 GAS	BF GAS
Movable range	mm (± mm)	(TBC)	(TBC)	(TBC)	full range (± 5.5 mm)
+step direction	down	up^1	down	down	down

*1: updated by Shoda and Miyo on 2020/07/19

BF

KAGRA/Subgroups/VIS/TypeA/ETMX/BFconfig_ETMXv2.png

LVDT (BF Damper)

Sensor	Efficiency [um/cnt]
LVDT V1	-0.3538
LVDT V2	-0.3665
LVDT V3
LVDT H1
LVDT H2
LVDT H3

Note: The polarities are determined to output positive signals when the BF shifts respectively to +vertical/+yaw direction for Vertical/Horizontal LVDTs.

Actuator polarization

Polarity is determined so that an +offset at the COILOUTF applies +yaw force in each actuator.

COIL V1:
COIL V2:
COIL V3:
COIL H1:
COIL H2:
COIL H3:

Note: Polarity may change when connecting the secondary coil to the cable. This configuration is confirmed on [2017.10.27]

Diagonalization matrix

LVDT2EUL (updated on 2018-May-3)

V1	V2	V3	H1	H2	H3	To:
0	0	0	-0.6667	0.3333	0.3333	Long.
0	0	0	0	0.5774	-0.5774	Trans.
0.3333	0.3333	0.3333	0	0	0	Vert.
0.9158	0.9158	-1.8315	0	0	0	Roll
1.5861	-1.5861	0	0	0	0	Pitch
0	0	0	0.8170	0.8170	0.8170	Yaw

EUL2COIL (updated on 2018-May-3)

L	T	V	R	P	Y	To:
0	0	1.	0.1820	0.3152	0	V1
0	0	1.	0.1820	-0.3152	0	V2
0	0	1.	-0.3640	0	0	V3
-1	0	0	0	0	0.4080	H1
0.5	0.8660	0	0	0	0.4080	H2
0.5	-0.8660	0	0	0	0.4080	H3

Picomotor

See also: Picomotor digital setup

(To be updated)

Epics channel name: K1:PICO_ITMX
Driver IP address: 10.68.150.**
CH1	CH2	CH3
BF moving mass A	BF moving mass B	Payload yaw

BF moving masses (both A and B ) are currently disabled because of weight limit for upper GAS stages

Suspension models in MEDM

Stage	DOF	Author	Data	Date	klog
GAS	F0	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_F0_TEST_GAS_202201141937.xml	2022/2/21	klog19535
GAS	F1	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_F1_TEST_GAS_202201141937.xml	2022/2/21	klog19535
GAS	F2	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_F2_TEST_GAS_202201141937.xml	2022/2/21	klog19535
GAS	F3	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_F3_TEST_GAS_202201141937.xml	2022/2/21	klog19535
GAS	BF	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_BF_TEST_GAS_202201141937.xml	2022/2/21	klog19535
BF	L	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_BF_TEST_L_202201141937.xml	2022/2/21	klog19520
BF	T	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_BF_TEST_T_202201141937.xml	2022/2/21	klog19520
BF	V	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_BF_TEST_V_202201141937.xml	2022/2/21	klog19520
BF	R	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_BF_TEST_R_202201141937.xml	2022/2/21	klog19520
BF	P	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_BF_TEST_P_202201141937.xml	2022/2/21	klog19520
BF	Y	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_BF_TEST_Y_202201141937.xml	2022/2/21	klog19520
MN	L	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_MN_TEST_L_202201141937.xml	2022/2/25	klog19553
MN	T	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_MN_TEST_T_202201141937.xml	2022/2/25	klog19553
MN	R	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_MN_TEST_R_202201141937.xml	2022/2/25	klog19553
MN	P	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_MN_TEST_P_202201141937.xml	2022/2/25	klog19553
MN	Y	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_MN_TEST_Y_202201141937.xml	2022/2/25	klog19553
IP	L	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_IP_TEST_L_202201141937.xml	2022/2/20	klog19514
IP	T	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_IP_TEST_T_202201141937.xml	2022/2/20	klog19514
IP	Y	Ushiba	/kagra/Dropbox/Measurements/VIS/PLANT/ITMX/2022/01/PLANT_ITMX_STANDBY_IP_TEST_Y_202201141937.xml	2022/2/20	klog19514

KAGRA/Subgroups/VIS/TypeA/ITMX (last edited 2022-03-07 12:56:36 by hiromi.yasui)