PSB RF bypasses + PSB TFB electronics A. Blas PSB-LIU meeting04 Jun 2015 1 Executive summary: Components for the PSB rf-bypasses will be installed (Joao.

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Presentation transcript:

PSB RF bypasses + PSB TFB electronics A. Blas PSB-LIU meeting04 Jun Executive summary: Components for the PSB rf-bypasses will be installed (Joao BENTO) on the 15 th of June 2015 in the PS to be tested with beam currents equivalent to those expected in the PSB with Linac 4. The new electronic circuits for the PSB TFB have been produced and their firmware is starting the testing phase. Delivery expected in October The delivery of power amplifiers (800 W instead of 100 W) foreseen for mid 2016 is a source of worry. A rf management meeting should be held soon to address this issue.

A. Blas PSB-LIU meeting04 Jun times 0.5Ω /1 W in series with 4 x // 100nF PSB RF bypasses Presently installed hardware

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Presently installed hardware 0.5Ω /1 W from Vishay dale 6.5 x 3.2 x 0.4 mm No detailed specifications found

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Beam current with Linac 4 The Max peak beam intensity will be considered with 2.5E13 ppb and 130 ns bunch length The rf bypasses have to stand 48 A P

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Beam current with Linac 4 For Linac 4 we need a 0.5 Ω resistor 0.5 W in continuous mode 1150 W in pulsed mode (48A p and 24 V p ) Dimensions compatible with present setup

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Beam current with Linac 2

A. Blas PSB-LIU meeting04 Jun The 1 W resistors in place have dealt with a peak power between 20 and 180 W. For a very few resistors on the market, the power overhead is specified: The CRM2512 has a nominal power rating of 2 W at 70 o In this example a 2W resistor can stand a 150 W pulse of 1ms This model is under-specified for a use with Linac 4 PSB RF bypasses Specifications of resistors

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Selected resistor This resistor can stand 3000 W during 1 us (1150 W required) Factor 6000 with respect to its CW specs

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Selected resistor The length of this resistor (3.2x2.5x0.45mm) is half of the one used at present (6.5x3.2x0.42 mm)… so is the power (0.5 W instead of 1W)

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Selected resistor

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Selected resistor Replacing the present 0.5 Ω / 1W resistor which has resisted 20 W < P PEAK < 184 W by 2 resistors CRCW-HP e3 1 Ω /1.5 W in parallel ( = 0.5 Ω / 3W ) resisting P Peak max = 4000 W (= ) Should allow for a factor 3.5 margin for the peak power and a factor 6 for the average power

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Test in the PS 100 A p beam current available in the PS 50 A p beam current expected in the PSB The new 2000 W P CRCW-HP e3 resistors may be tested in the PS The PS rf bypasses are designed with 1 Ω resistor withstanding 100 A (10 kW peak) We will use 4 test resistors of 1 Ω assembled so as to get 1 Ω in total

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Test in the PS Ready for an installation in the PS on the 15 th of June 2015

A. Blas PSB-LIU meeting04 Jun PSB RF bypasses Test in the PS This is the first test bypass mounted is PS SS00 just after LS2 ! The resistors are NOT burnt! Only the soldering has melted!? It has been found that the corresponding vacuum flange was in short-circuit This means that the bypass was in parallel with a short-circuit! What occurred ?????

A. Blas PSB-LIU meeting04 Jun PSB TFB electronics C0 PSB h1 PSB h64 Tune value CVORB TFB loop Gain CVORB  PU 4L5 Tune excitation Blow-up excitation Output to power amplifiers Tune excitation OASIS PSB h64 clock OASIS PU  4L5 OASIS PSB h1 OASIS Blow-up excitation OASIS Betatron phase CVORB

A. Blas PSB-LIU meeting04 Jun PSB TFB electronics FPGA (Altera Stratix 2) to be programmed pins Issues being faced: chip too loaded to deal with the 120 MHz clock at Ej. Board designed by D. Perrelet, 3 rd iteration of a board initially designed by V. Rossi and first upgraded by M. Schokker

A. Blas PSB-LIU meeting04 Jun PSB TFB electronics Firmware

A. Blas PSB-LIU meeting04 Jun PSB TFB electronics Conclusion Test in the PS of the new resistors to be used for PSB rf-bypasses from the 15 th of June 2015 onwards New low-level electronic circuits to be delivered in October W power amplifiers progress is an issue requiring extraordinary measures. Not mentioned in the presentation: Tune value on a CVORB required for the operation of the new electronics Spare PU in the ring would be a good investment (instead of unused longitudinal PUs)

A. Blas PSB-LIU meeting04 Jun Thank you!

A. Blas PSB-LIU meeting04 Jun Appendix

A. Blas PSB-LIU meeting04 Jun Appendix The Max peak beam intensity will be considered with 2.5E13 ppb and 130 ns bunch length

A. Blas PSB-LIU meeting04 Jun Appendix

A. Blas PSB-LIU meeting04 Jun Appendix

A. Blas PSB-LIU meeting04 Jun Appendix

A. Blas PSB-LIU meeting04 Jun Appendix

A. Blas PSB-LIU meeting04 Jun Appendix

A. Blas PSB-LIU meeting04 Jun Appendix

A. Blas PSB-LIU meeting04 Jun Appendix

PSB RF bypasses References A. Blas PSB RF bypassesxx Jan