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AdV-PSL (Power stabilization of HP amplifier)

Cleva, Coulon - 21:29 Monday 14 October 2019 (47219)

PSTAB gain reduced below 200 mHz

we have swapped the Pstab rampauto from PSL_ELEC_1803_01 to PSL_ELEC_1712_01.

The new rampauto features less gain below 0.2 Hz. The Pstab would then less manages the very low power fluctuations which used to saturate the PSTAB actuation and trigger some loud glitches in the past.

plot 1 shows the new OLTF, that is the one with the filter "filter_191010" wrt the OLTF with the filter "filter_180307"

plot 2: we've tuned the offset sent on the AOM as the one got before the swap. That is 3.5 V. It used to be set at 2.8 V for few hours right after the swap, as a result it raises the power delivered after the PMC by 0.5 W visible on IMC_TRA.

plot 3 shows the improvement: a bit less correction below. To be confirmed the beneficial effect over long period

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Comments to this report:

coulon - 18:25 Tuesday 15 October 2019 (47241)

Change is made with R1a: 330 k become 1 MEG

Cleva, Coulon - 19:30 Tuesday 15 October 2019 (47242)

# we measure the OLTF of PSTAB after the integration of the ELEC_1712_01 rampauto

- Plot 2 gives the Nichols plot. The gain is ~ 3 db too large. We were not able to provide this plot during the shift.

--> It deserves a gain reduction

It was foreseen to reduce the power lightening on the PSTAB PDs to ~ 0,65 V (half of what got before the power increase) but the actuator was not well identified wt that time.

For the time being we should reduce the gain at the rampauto level, waiting the optical power reduction at the PSTAB PDs level

- Plot 1 gives the Bode plot wrt the OLTF measured on 27/02/19. We don't explain the shape change above 450 kHz. It is possibly connected to the higher overall gain

-> worth to make the meas again after the gain reduction

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Cleva, Coulon - 12:03 Wednesday 16 October 2019 (47250)

# Gain tuning

This morning we have reduced the gain of the ELEC_1712_01 rampauto to be better centered within the stability area.

plot 1 gives the OLTF got today with respect to the one got on 22/02/2018

plot 2 gives the Nichols plot, we check the gain is well centered wrt the stability area

plot 3 gives the position of the potentiometer which is used to set the gain of the OLTF (set to 9 o'clock)

-> this should help in removing the peaks seen at 158 kHz and 366 kHz by Julia and others

# Notch tuning

Two notches at 1* IMC_FSR and 2*IMC_FSR are implemented in the rampauto to remove the spoiling contribution at those frequency on PSTAB.

Upon arrival we found the notches tuned to 1.02 MHz and 2.07 MHz instead of the 1.045129 MHz and 2.09 MHz theoretical ones.

We adjust it to 1.046 MHz and 2.09 MHz

plot 3 & 4 give the TF of the notch once adjusted

# Gain tuning, next step

we have asked to reduce to power incident on the PSTAB PDs by a factor at least 2, in order to be in a "safer" region.

The idea is to check whether this could reduce the loud glitches which were visible on the faulty PD2 (46399), and also reduce the ageing of the PDs (assuming that ageing could be responsible to the glitches seen of PD2)

When this will be done one needs to compensate the overall gain increase. This can be done by adjusting the gain of the rampauto with the gain potentiometer (see plot3). To fine tune it either we need to measure the OLTF or just feed the perturb input with a 10 kHz line and check to recover the same amplitude of this line once read on the PSTAB error signal as the one got before the optical gain change.

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