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8-Pack Phase 2: SLED Power to eight 60 cm structures

8-Pack Phase 2: SLED Power to eight 60 cm structures. Power 8 structures (a fall back position is 6, +2 powered by NLCTA) Initially structures need to be processed to 75 MV/m (~78 MW) Structures to run at 65 MV/m for a long-term test (~59 MW) Design to minimize technical risk Lower power

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8-Pack Phase 2: SLED Power to eight 60 cm structures

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  1. 8-Pack Phase 2: SLED Power to eight 60 cm structures • Power 8 structures (a fall back position is 6, +2 powered by NLCTA) • Initially structures need to be processed to 75 MV/m (~78 MW) • Structures to run at 65 MV/m for a long-term test (~59 MW) • Design to minimize technical risk • Lower power • ‘Proven’ designs • How important is an ‘NLC-like’ design? • Schedule & cost savings through use/replication of existing designs.

  2. SLED Power with 4 XL4s XL4 50 MW x 4 200 MW 90% to SLED 180 MW x 3.0 540 MW 90% to structures 486 MW 61 MW ~66 MV/m ÷ 8 Need 78 MW to process, 59 MW to run at 65 MV/m

  3. Option 1: Power taps Power is split by 13% early 6 new components Very NLC-like Very modular/flexible From SLED Overmoded 9 dB 8.5 dB 7.8 dB 7 dB 6 dB 4.8 dB WR90 3 dB

  4. Tap/binary hybrid From SLED Overmoded 4.8 dB 3 dB 6 dB WR90 3 dB 3 dB 3 dB 3 dB

  5. Option 2: Binary splits From SLED Power is split by ½ early 1 new component Less NLC-like Less modular/flexible 3 dB 3 dB 3 dB Overmoded WR90 WR90 3 dB 3 dB 3 dB 3 dB

  6. Option 3: Binary/tap hybrid From SLED Power is split by ½ early 3 new components more NLC-like more modular/flexible 3 dB Overmoded 6 dB 6 dB 4.8 dB WR90 4.8 dB WR90 3 dB 3 dB

  7. 3 dB WR90 3 dB 3 dB Option 4: Binary/tap hybrid hybrid From SLED Modification of Binary Split option 3 dB Overmoded 6 dB 4.8 dB WR90 3 dB

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