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<<ImageLink(electronics_diagram.png,Upgrade 09/GreenLock/Electronics/electronics_diagram,height=400)>><<TableOfContents(2)>>[[BR]][[BR]] [[Upgrade 09/GreenLock/Electronics/electronics_diagram|{{attachment:electronics_diagram.png||height=400}}]]<<TableOfContents(2)>><<BR>><<BR>>
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== Open loop transfer function ==
Measured on 22 Dec 2015, with the average level of green transmission at 0.457.

{{attachment:Y_PDH_OLTF.pdf||width=700}}
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<<ImageLink(green_digital.png,Upgrade 09/GreenLock/Electronics/digital_channel ,height=400)>>[[BR]] [[Upgrade 09/GreenLock/Electronics/digital_channel|{{attachment:green_digital.png||height=400}}]]<<BR>>
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The schematic is available on [https://nodus.ligo.caltech.edu:30889/svn/trunk/alberto/40mUpgrade/RFsystem/RFPDs/GreenLockingBroadBandPD svn] The schematic is available on [[https://nodus.ligo.caltech.edu:30889/svn/trunk/alberto/40mUpgrade/RFsystem/RFPDs/GreenLockingBroadBandPD|svn]]
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<<ImageLink(Hartmut_RFPD.jpg,height=400)>> [[attachment:Hartmut_RFPD.jpg|{{attachment:Hartmut_RFPD.jpg||height=400}}]]
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 . EG&G SGD-444A Si PIN PD attachment:SGD-444A.pdf  . EG&G SGD-444A Si PIN PD [[attachment:SGD-444A.pdf]]
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attachment:RFPD_tf.png {{attachment:RFPD_tf.png}}
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attachment:RFPDnoise.png {{attachment:RFPDnoise.png}}
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Here is the noise model for the RFPD using liso. attachment:liso_RFPD.png Here is the noise model for the RFPD using liso. {{attachment:liso_RFPD.png}}
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 . attachment:PDA36A.png  . {{attachment:PDA36A.png}}
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|| ''''' parameters ''''' ||
|| Detector || Si PIN ||
|| trans impedance gain || || [V/A] ||
|| responsibility || || [A/W] ||
||
quantum efficiency || || [%] ||
|| ''''' parameters ''''' || || ||
|| Detector || Si PIN || ||
|| trans impedance gain || 1.5k - 475k (switchable)|| [V/A] ||
|| responsibility || 0.3 || [A/W] at 532 nm ||
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|| Output Voltage || 0-5 || [V] with 50 Ohm termination ||
|| Band Width || 17 || [MHz] ||
|| Dark noise || || nV/sqrtHz ||
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 . attachment:vertex_green_beatbox.pdf
 . attachment:vertex_green_beatnox.graffle
 . attachment:freq_divider.pdf
 . attachment:freq_divider.graffle
 . [[attachment:vertex_green_beatbox.pdf]]
 . [[attachment:vertex_green_beatnox.graffle]]
 . [[attachment:freq_divider.pdf]]
 . [[attachment:freq_divider.graffle]]

Overview of green electronics

  • Preliminary design for the electronics used in 40m green locking.

Upgrade 09/GreenLock/Electronics/electronics_diagram




VCO for frequency tracking

VCO range

  • Synergy VCO part number XXX has 1.2MHz/V VCO range.

VCO_range.png

Filter respons

  • 80MHz LIGO VCO box is used to readout the frequency of the beat signal precisely.

VCO_filter.png

Noise performance

Capture range and Lock range

  • According to a simple calculations...

lock detection and boost

  • rms detection



PDH box

Filter Shape

TF_PDH.png

Open loop transfer function

Measured on 22 Dec 2015, with the average level of green transmission at 0.457.

Y_PDH_OLTF.pdf

Noise performance

LPF for RF cutoff

Remotely controlled Boost switch



frequency counter

  • SR620 is employed to read out the frequency of the beat signal.

SR620.png

setting parameters

readout range

MHz

DAC bit resolution

noise



digital channel assign

Upgrade 09/GreenLock/Electronics/digital_channel


wideband RFPD for green PLL

  • A Silicon photodiode with the diameter of 10mm is used. To have a fast response up to about 1MHz -150V is applied onto the photo diode.

The schematic is available on svn

attachment:Hartmut_RFPD.jpg

frequency response

RFPD_tf.png

noise performance

RFPDnoise.png

Here is the noise model for the RFPD using liso.



DC PDs

PDA36A

  • PDA36A.png

The PDA36A is an amplified, switchable-gain, silicon detector designed for detection of light signals over 350 – 1100nm wavelength range.

parameters

Detector

Si PIN

trans impedance gain

1.5k - 475k (switchable)

[V/A]

responsibility

0.3

[A/W] at 532 nm

output impedance

50

[Ohm]

Output Voltage

0-5

[V] with 50 Ohm termination

Band Width

17

[MHz]

Dark noise

nV/sqrtHz



digital front end filters

  • anti-aliasing filter
  • anti-imaging filter
  • whitening filter



Thermal feedback LPF

circuit diagram

thermalLPF.png

expected transfer function of compound frequency actuator

thermal_actuator.png



Function Generator

  • To get a phase modulation imposed on the end IR lasers, a function generator is needed.

SR___


Summing Amplifier

In order to send a feedback signal and modulation signal to the laser PZT at the same time, it is desired to have a summing amplifier. The amplifier should handle the signal from DC to 200kHz. Currently this is taken place by SR560.

Diagram

noise performance



Temperature Controller for doubling oves

  • TC200 from Thorlabs

  • tc200.jpg



RF stuff

low noise amplifier

  • ZFL-1000 from mini circuit or similar families

  • zfl1000.png

mid power amplifier

power splitter

  • ZFRSC-42 from mini circuit. DC-4.2GHz

  • k18.jpg

DC block

  • BLK-89 from mini circuit. 50 Ohm, 100kHz-8GHz

  • ff888.jpg

Low frequency mixer

  • ZAD-8 from mini circuit. 500Hz-10MHz.

  • m22.jpg



RS232 serial device server


Vertex BeatBox

Advanced_Techniques/Green_Locking/Electronics (last edited 2017-04-20 01:58:36 by RanaadhikariATligoDOTorg)