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Developments on power transfer at CERN (DC-DC converters) Philippe Farthouat CERN.

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Presentation on theme: "Developments on power transfer at CERN (DC-DC converters) Philippe Farthouat CERN."— Presentation transcript:

1 Developments on power transfer at CERN (DC-DC converters) Philippe Farthouat CERN

2 Typical Power Requirements in ATLAS  A substantial amount of electronics on the detector requiring power  ATLAS inner tracker 53 kW16 kA  ATLAS calorimeters 184 kW38 kA  ATLAS muon spectrometer 107 kW29 kA  Simple direct powering would require too many and too heavy cables  In the experimental cavern we have got  Radiation Mrads in the inner tracker 10’s krads in the other places  Magnetic field 2 Teslas in the inner tracker up to 1 kGauss for the rest philippe.farthouat@cern.c h DC-DC converters developments at CERN 2  Requires DC-DC converters and special designs

3 Generic Power Distribution philippe.farthouat@cern.c h DC-DC converters developments at CERN 3 Main input 220 V 50 Hz AC/DC DC 48 – 400 V DC/DC DC 48 – 400 V POL DC/DC Voltage Regulators 1.2 – 5 V 6 – 12 V Control Room No radiation No magnetic field Experimental Cavern Radiation Magnetic field

4 R&D Needs and Activities philippe.farthouat@cern.c h DC-DC converters developments at CERN 4 Main input 220 V 50 Hz AC/DC DC 48 – 400 V DC/DC DC 48 – 400 V POL DC/DC Voltage Regulators 1.2 – 5 V 6 – 12 V Control Room No radiation No magnetic field Experimental Cavern Radiation Magnetic field

5 DC-DC Converters for moderate radiation and magnetic fields  We currently have several types of such devices either from commercial companies or designed and built in some participating institutes  Input voltage is in the range 48 V – 400 V  Output voltage in the range 5 V – 12 V / up to 40 A  Magnetic field up to 1.2 kGauss  Radiation level  TID: 140 Gy  NIEL:10 12 1MeV neutrons.cm -2  Hadrons capable of causing SEE:10 11 hadrons.cm -2 philippe.farthouat@cern.c h DC-DC converters developments at CERN 5

6 Example of development (1) philippe.farthouat@cern.c h DC-DC converters developments at CERN 6

7 Example of development (2) philippe.farthouat@cern.c h DC-DC converters developments at CERN 7

8 Example of development (3) philippe.farthouat@cern.c h DC-DC converters developments at CERN 8  ~2500 “bricks”  ~256 multichannel DC-DC

9 Future Developments in this Field  For the upgrade of the LHC we plan similar developments to be done  With higher level of radiation  TID: 600 Gy  NIEL:5 10 12 1MeV neutrons.cm -2  Hadrons capable of causing SEE:5 10 11 hadrons.cm -2  Probably less different voltages  Our past experience has proven that such a development can be long because of the qualification of components against radiation philippe.farthouat@cern.c h DC-DC converters developments at CERN 9

10 On-going Development: Point Of Load DC-DC  In view of the upgrade of the LHC we are looking for a POL DC-DC converter to be installed in the tracker region  2 – 4 Tesla magnetic field  ~1 MGy and 10 15 1MeV neutrons.cm -2  Reduce the input current by a factor ~5 to reduce the material budget  Specifications  Vin ≤ 10 V  Vout = 1.2 – 3.3 V  Iout ≤ 3 A  Frequency = 1 – 3 MHz  Air-core inductor philippe.farthouat@cern.c h DC-DC converters developments at CERN 10 Courtesy Stefano Michelis

11 ASIC Development  AMIS5 is designed in a High Voltage 0.35um technology for automotive application.  This technology has been successfully tested for TID, protons and heavy ions. philippe.farthouat@cern.c h DC-DC converters developments at CERN 11 Courtesy Stefano Michelis 2.88 mm 2.7 mm

12 AMIS5 Efficiency philippe.farthouat@cern.c h DC-DC converters developments at CERN 12 Courtesy Stefano Michelis

13 TID Tests philippe.farthouat@cern.c h DC-DC converters developments at CERN 13 Courtesy Stefano Michelis

14 Future Plans  Immediate future (within 2 years)  Test foreseen for AMIS5  Single Event and Displacement damage tests (fall 2012)  Tests on AMIS5 packaged in QFN32  AMIS5_BB Bump Bonded version  tests and characterization  Production of about 10,000 fully assembled converters  Next  Similar design for higher radiation level  Requires a change in technology  Lower overall mass of the converter philippe.farthouat@cern.c h DC-DC converters developments at CERN 14

15 Summary  We will have to develop two main types of converters  Relatively high power to be used in the outer parts of the detector with moderate radiation and magnetic fields  POL low power to be used also in places with very high radiation and magnetic fields  The first type could be fully industrial  We could/would help for the radiation hardness qualification  The second type is to be based on a custom radiation hard ASIC and an air-core inductor  Production of 10,000’s modules needed philippe.farthouat@cern.c h DC-DC converters developments at CERN 15

16 Current ATLAS Silicon Tracker philippe.farthouat@cern.c h DC-DC converters developments at CERN 16 The beauty The beast Courtesy Allan Clark

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