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FOS environmental monitor at the 2016 Test beam Kloster seeon, 20 th Depfet Workshop D. Moya, I. Vila, A. L. Virto., J.González Instituto de Física de.

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Presentation on theme: "FOS environmental monitor at the 2016 Test beam Kloster seeon, 20 th Depfet Workshop D. Moya, I. Vila, A. L. Virto., J.González Instituto de Física de."— Presentation transcript:

1 FOS environmental monitor at the 2016 Test beam Kloster seeon, 20 th Depfet Workshop D. Moya, I. Vila, A. L. Virto., J.González Instituto de Física de Cantabria (CSIC-UC ) G. Carrión, M. Frövel. Instituto Nacional de Técnica Aeronautica (INTA )

2 Outline — Goals & Context — FBGs distribution. — Monitored Temperatures. — Humidity Sensor prototype. — Conclusions moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. 2

3 Goals & Context. — Initial goal: temperature monitoring with acrylate coated fibers of the dry box atmosphere, cooling block and cooling outlets — First test of a FOS humidity sensor prototype able to operate under non-stable thermal conditions (“very first test”). — Issues encounter before and during the TB: _ Ordered acrylate coated fibers did not arrive in time. Replaced by polyimide coated fibers (required humidity compensation). _ Failure to compensate the temperature-induced bias in the humidity prototype 3 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

4 TB 2016: TB Fibers and FBGs — DAQ architecture and EPICS integration as in 2014 test beam 4 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. Fiber ID FBG#CoatingTubingDominant Sensitivityposition 421polyimideTeflonTemperature (humidity?) Environmental (F43,F54 ref sensor) 31polyimideMetal tubeTemperatureReturn pipe Temperature 41polyimideMetal tubeTemperatureCooling Block Temperature 11acrylate Open metal tube Temperature Environmental (F2 ref sensor) 21polyimide Open metal tube Temperature + Humidityenvironmental 432polyimidenoneTemperature + Humidityenvironmental 544polyimidenoneTemperature + HumidityEnvironmental

5 TB 2016: TB FBG Distribution 5 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. Fiber 2 + 1 Fiber 3 Fiber 43+42 Fiber 4 Fiber 54

6 TB 2016: TB FBG Distribution 6 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. Fiber 2 (polyimide) + Fiber 1 (acrylate) Fiber 42 (Temp. Ref.) Fiber 4 (Temp. Ref.) Fiber 3 (Temp. Ref.) CO2 return pipe Fiber 43 (Temp + RH%) Fiber 54 (Temp + RH%)

7 2016 TB: Temperature measurements. — All the temperature measurements made under stable low-humidity conditions: data was not recorded either during the nitrogen injection or when the nitrogen flow ceased. — Teflon-encapsulated polyimide fiber showed a very slow (lasting several days) “drying drift” due to its very long latency on responding to the humidity changes (as expected). — Non-encapsulated polyimide fibers did not present any humidity-induced bias inside the low-humidity atmosphere (as expected since the FBG temperature calibration was done in dry atmosphere). 7 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

8 2016 common TB: Temperature measurements. — Cooling block and return pipe references sensors temperature matched temperature change observed by Marco (not Marco data available in epics until 21th of April) 8 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

9 2016 common TB: Temperature measurements. — F54 and F43 followed each other in a quite accurate way (although they are positioned quite far one from the other). 9 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

10 2016 common TB: Temperature measurements. — F42 was sensitive to humidity with days of latency (the offset was recalibrated with F43 measurement of the 23 rd of April). After F42 stabilization all sensors measured near the same temperature. 10 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. Humidity stabilization

11 Humidity measurement approach — Sensing principle: Water molecules may swell the fiber coating expanding the inscribed FBG( material dependent effect) — Transductor implemention: closely packed acrylate coated (T) and polyimide coated (T+HR) FBGs. Compensate temperature induced bias of the polyimide FBG readout using the acrylate read-out. — Challenges to be address: _ Strain-free packaging. _ Residual humidity sensitivity of acrylate. _ Latency (response stabilization) _ Low sensitivity at low-humidity and saturation effects. 11 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

12 FBG-s Humidity calibration — Polyimide coated fibers where calibrated six times with a great repeatibility in the results and residues. 12 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

13 FBG-s Temperature calibration — The temperature calibration of the FBGs done under a low-humidity conditions. — During the test beam the F1 FBG to be used to compensate the temperature induced bias on the humidity measurement showed an apparent temperature a sensitive 20% smaller than the obtained during the calibration — Still unclear the origin of this discrepancy that prevented us to provide an accurate humidity determination. 13 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

14 Conclusions — Under stable humidity conditions polyimide coated fibers measured temperature accurately matching the test beam cooling and operating condition (reproducing 2014 Test beam measurements.) — Prototype humidity sensor did not work properly quite likely due to inaccurate temperature bias compensation — Dedicated test stand to characterize the humidity measurement sensor’s and calibration cross-check. 14 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

15 15 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. Backup

16 PXD Mockup: Operating Conditions — … Turbulent highly non-uniform regime inside the PXD envelope. 16 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. — Temperature compensation of humidity fiber is not possible with the current FBG distribution. — Temperature readout accurate as long as temperature fibers F51, F52, F53 are operated long enough in a dry atmosphere.

17 First results: Humidity Reference Fiber 17 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. — Humidity reference sensor measures accurately Humidity change when the dry volume is open after temperature effect compensation Under stable thermal conditions

18 S2 F52 F51 S3 S4 S1 Mock-up: Temperature tests (N2 atmosphere for 3 days) 18 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. — Comparison between Pt-100 in the ladder and FBG measurement S2 FOS and pt100 very similar behavior. S2-S4 sensing similar temperatures S1 (outside the direct blow stream different behavior) No effect of N 2 leaks Sensitive to presence and flow of N 2 FBG sensors more sensitive to the N 2 temperature. N 2 off N 2 4  2 l/m N 2 OFF N 2 4  2 l/m N 2 off ? N 2 leak Kapton

19 Mock-up: N 2 Injection at different temperatures 19 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon. S1S2 F52 F51 S3 S4 No Increase on the temperature is observed. Is the N2 being really heated ?

20 Test Beam and FANGS proposal — For April’s test beam we could re-use the current system used at DESY mock-up (already employed in January 2014 integrated test beam). — Additional fibers for FANGS ladders. 20 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

21 Conclusions — Under stable environmental conditions: accurate temperature and humidity measurement with fibers (reproducing January 2014 test beam) — Under mockup operating conditions: accurate temperature measurement mapping pt100 readouts with additional sensitivity on N2 atmosphere conditions. — Issues to be address: _ The temperature compensation required for determining the humidity not possible (yet). _ Residual FBG strains due to fiber fixing. — Proposal for a test beam and FANGS configuration. 21 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

22 Coatings sensitivity to humidity 22 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

23 2016 Common TB: System description — The initial idea for the Test Beam: _ Position Acrylate (very low sensitivity to humidity) sensors near polyimide sensors ( sensitive both to Temperature and humidity) for temperature compensation and monitor temperature and humidity at the same time. — Some problems: _ Acrylate coated fibers didn´t arrive: Use as reference F42 (TB 2014) which was found to be sensitive to humidity with days of latency. _ Fiber 1 and Fiber 2 seems not to measure same temperature ( Strain, different temperature?) _ Humidity measurements will not be presented ( must be studied in more detail) 23 moyad@ifca.unican.es, 20th Depfet workshop, May 14th,2016, Kloster seeon.

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