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Laguna Beach, CA March 30-April 1, 2003 PMT HV Base Board Development Nobuyoshi Kitamura SSEC / UW-Madison.

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Presentation on theme: "Laguna Beach, CA March 30-April 1, 2003 PMT HV Base Board Development Nobuyoshi Kitamura SSEC / UW-Madison."— Presentation transcript:

1 Laguna Beach, CA March 30-April 1, 2003 PMT HV Base Board Development Nobuyoshi Kitamura SSEC / UW-Madison

2 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA2 PMT HV Base Board Functional Overview (1/2) PMT HV Base Board PMT Digital Optical Module Main Board (DOMMB) Digital control Power PMT Anode signal Digital InterfaceAnalog Interface High voltage

3 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA3 PMT HV Base Board Functional Overview (2/2)  Analog functions  +/-5V input, 1000-2000V output  Transformer coupling for PMT pulses  Digital functions  Adjustment and monitor of the HV output in 12-bit (0.5V) resolution  Digital readout of unique board serial number

4 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA4 PMT HV Base Board Dual-Track Strategy Two configurations with identical signal interface as seen by the DOM Main Board  “Single-board” configuration  All functionality on one-board, mounted on PMT  “Passive base” configuration  Resistive bleeder chain & analog interface on PMT  Separate daughter board, carrying the HV generator & digital interface

5 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA5 PMT HV Base Board Dual-Track Comparison  Single Board  Compact integration  The 1 st dynode voltage is fixed, independent of gain adjustment  HV generator close proximity to PMT  Passive Base  Classical approach  All dynode voltages scale with total A-K voltage  Potential noise source is away from PMT pins

6 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA6 Delay Board DOM Main Board Flasher Board PMT HV Base Board LED Modules HV Generator Board for “passive base” configuration 3D CAD by Glen Gregerson, PSL PMT HV Base Board Mechanical

7 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA7 PMT HV Base Board Vendors, Players & Schedule  Vendor A (Germany) to deliver the PMT base in single board configuration  On time  Vendor B (US) to deliver the HV generator for the passive base configuration  April 28  Vendor B to deliver the passive base  April 28  UW-Madison to develop the daughter board for the passive base configuration  Completed  UW-Madison to assemble the daughter board  All components received

8 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA8 PMT HV Base Board Single Board Configuration  All-In-One design  Digital interface  HV generator  Voltage divider  Toroidal transformer  PMT pulse cable & connector  Fixed first-dynode voltage (700V). The prototypes in April ’03 will have a potentiometer adjustment  Isolation amplifier for split ground (more later)

9 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA9 PMT HV Base Board HV Generator Board Ribbon connector (2mm-pitch) HV Generator (bottom side) HV cable out (RG178/U) Digital board ID ADC (12-bit) DAC (12-bit)

10 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA10 PMT HV Base Board Passive Base  Total R = 150M   Hamamatsu “Special” Divider Ratio  Plenty of C

11 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA11 PMT HV Base Board Resolved issues  Updates since August 2002 In-Ice Devices Meeting at UW-Madison  First-dynode voltage adjustability Fixed for “single board” configuration Scale with total A-K voltage  Temperature Operation: –40 ºC to +27 ºC Storage: –55 ºC to +45 ºC Vendor must report components meeting –40 ºC but not –55 ºC.

12 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA12 PMT HV Base Board Issues  Split-ground requirement Isolation AMP costs power and $ Reduced regulator feedback gain  Toroidal transformer cable selection RG178/U does not meet voltage requirement Bulkier transformer expected after revision  “Quality Plan” Must be defined and executed

13 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA13 PMT HV Base Board Documentation  PMT HV Base Board Engineering Requirements Document (ERD)  PMT HV Base Board ERD Supplement  PMT HV Base Board—DOM Main Board Interface Document These documents contain:  Engineering requirements  Preferred embodiments (specifications)  Justification based on science requirements

14 N. Kitamura SSEC / UW-Madison March 30 - April 1, 2003, Laguna Beach, CA14 PMT HV Base Board Conclusion  The single board approach is on schedule.  The passive base approach is behind schedule. Vendor C is being pursued.  Quality Plan is a must. Human Peace Sign from McMurdo Station. Jan. 19, 2003. http://www.commondreams.org/headlines03/0119-02.htm

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