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2002-03 1 TE 01 -TE 02 DLDS Elements BINP-KEK. 2002-03 2.

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Presentation on theme: "2002-03 1 TE 01 -TE 02 DLDS Elements BINP-KEK. 2002-03 2."— Presentation transcript:

1 2002-03 1 TE 01 -TE 02 DLDS Elements BINP-KEK

2 2002-03 2

3 3

4 4 Main parameters of TE 01 -TE 02 DLDS Number of modes2 Operating modesTE 01,TE 02 Main waveguide diameter 120 mm Node-to-node distance 56.3 m TE01 loss -0.001dB/m TE02 loss (measured) -0.004dB/m Average main waveguide loss of 4-node DLDS3.5%

5 2002-03 5 5 6.3 m 8 Klystrons 75 MW, 120 Hz Beam direction Circular Waveguide (Ø 120 mm) Tap-off System TE 01 - TE 02 Mode Launcher600 MW, 800 ns TE 02 Mode Extractor RF Structure,85 MW, 70 Mv/m TE 02 Mode Extractor Super Hybrid 6 m6 m TE 01 - TE 02 2x2 DLDS system

6 2002-03 6 Basic Elements of TE 01 -TE 02 DLDS H-Hybrid TE 10 -TE 01 Converter TE 01 -TE 02 Launcher TE 01 -TE 02 Extractor 1:1 Power Splitter 1:2 Power Splitter 90 o TE 01 Bend Phase Shifter

7 2002-03 7 H-Hybrid. HFSS calculations.

8 2002-03 8 H-Hybrid. High Power Model

9 2002-03 9 H-Hybrid. Low power RF test results Hybrid port # 1 VSWR (S11) Transmission between ports 1 – 2 (S12) and 1 – 4 (S14)

10 2002-03 10 TE 10 -TE 01 Mode Converter Output diameter 46 mm Length 280 mm

11 2002-03 11 TE 10 -TE 01 Mode Converter. HFSS Calculations

12 2002-03 12 TE 10 -TE 01 Mode Converter. Low Power Model

13 2002-03 13 TE 10 -TE 01 Mode Converter. Low power RF test results SWR for the TE 01 Mode Converter Transmission from the choke-type TE 01 converter (Ø40mm circular waveguide) to the tested TE 01 converter (Ø46mm circular waveguide) for tree angles between H- plane of the WR90 inputs of these converters

14 2002-03 14 TE 01 -TE 02 Mode Launcher TE 02 Mode Extractor

15 2002-03 15 TE 01 -TE 02 Launcher-Extractor. HFSS calculations.

16 2002-03 16 TE 01 -TE 02 Mode Launcher TE 02 Mode Extractor

17 2002-03 17 E max = 480kV/cm for 600MW TE 01 -TE 02 Mode Launcher-Extractor. HFSS calculations.

18 2002-03 18 Part of TE 01 -TE 02 Launcher-Extractor

19 2002-03 19 TE 01 -TE 02 Mode Launcher-Extractor. Low Power RF Model

20 2002-03 20 TE 01 -TE 02 Mode Launcher-Extractor plus Overmoded Tapers.

21 2002-03 21 TE 02 Mode Launcher and Extractor. Low Power RF Test Setup.

22 2002-03 22 VSWR of the TE 01 -TE 02 LauncherVSWR of the TE 02 Mode Extractor TE 01 -TE 02 Mode Launcher-Extractor. Low power RF test results.

23 2002-03 23 TE 01 -TE 02 Mode Launcher-Extractor. Low power RF test results. Isolation between port #1 and port #2 for the TE 01 -TE 02 Launcher Isolation between port #1 and port #2 for the TE 02 Mode Extractor

24 2002-03 24 TE 02 Mode Extractor. Low power RF test results.

25 2002-03 25 TE 01 -TE 02 Mode Launcher-Extractor. Low power RF test results. Transmission from the TE 01 -TE 02 Launcher port #1 to the TE 02 Extractor port #1 and port #2 Transmission from the TE 01 -TE 02 Launcher port #2 to the TE 02 Extractor port #1 and port #2

26 2002-03 26 1/2 TE 01 Power Splitter. HFSS Calculations.

27 2002-03 27 1/2 TE 01 Power Splitter. Low Power RF Model.

28 2002-03 28 1/2 TE 01 Power Splitter. Low Power RF Test Results. SWR of the ½ TE 01 Power Splitter

29 2002-03 29 1/2 TE 01 Power Splitter. Low Power RF Test Results. Squared transmission coefficient S 12 for the TE 01 1/2 Power Splitter for two angles between H-plane of WR90 input of the TE 01 converter and WR90 output #2 of the tested splitter. Squared transmission coefficient S 12 for the TE 01 1/2 Power Splitter for two angles between H-plane of WR90 input of the TE 01 converter and WR90 output #3 of the tested splitter.

30 2002-03 30 1/3 TE 01 Power Splitter. HFSS Calculations

31 2002-03 31 1/3 TE 01 Power Splitter. Low Power RF Model.

32 2002-03 32 1/3 TE 01 Power Splitter. Low Power RF Test Results. SWR of the 1/3 TE 01 Power Splitter

33 2002-03 33 1/3 TE 01 Power Splitter. Low Power RF Test Results. Squared transmission coefficient S 12 for the TE 01 1/3 Power Splitter for two angles between H-plane of WR90 input of the TE 01 converter and WR90 output #2 of the tested splitter. Squared transmission coefficient S 12 for the TE 01 1/3 Power Splitter for two angles between H-plane of WR90 input of the TE 01 converter and WR90 output #3 of the tested splitter.

34 2002-03 34 90 o TE 01 Bend. HFSS Calculations. R=91 49

35 2002-03 35 90 o TE 01 Bend. Low Power RF Model.

36 2002-03 36 90 o TE 01 Bend. Low Power RF Test Results.

37 2002-03 37 Quasi-pulse measurement with long pipe The measurements of propagation of pure TE01 and TE02 modes. Measurements layout:

38 2002-03 38 Layout in tunnel:

39 2002-03 39 Result of measurements: TE01 one-way efficiency 98.54% TE02 one-way efficiency 95.20% Loss: TE01 - 1.46% (theory 1.18% ) TE02 - 5.75% (theory 4.31%)

40 2002-03 40 Measurements of TE01-TE02 Launcher-Extractor performances

41 2002-03 41 ‘No long pipe’ setup:

42 2002-03 42 Measured efficiency of launching and extraction of TE 01 mode 97.1% Measured efficiency of launching and extraction of TE 02 mode 97% Theoretical estimated efficiency 97% Results of measurements

43 2002-03 43 Measurements with long pipe.

44 2002-03 44 Obtained results are discrepant. The reasons are not clear enough. One of them can be low quality of backward WR90 waveguide. Measurements are going to be repeated in end of June. As preliminary results can be taken ones from the measurements of below setup:

45 2002-03 45 Results of measurements: Device1; Efficiency of TE01 extr. 98.7 Device1; Efficiency of TE02 extr. 97.7 Device2; Efficiency of TE01 extr. 96.9Device2; Efficiency of TE02 extr. 98.8

46 2002-03 46 Average efficiency of TE01 extraction 97.8% Average efficiency of TE02 extraction 98.2% We can expect the efficiency of 2-mode DLDS (loss in pipe not included) ~ 96%

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