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NSTX GMS-4 February 21, 2003 J. Menard Status of NSTX internal RWM/EF sensor system and electronics J. Menard for NSTX GMS-WG.

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Presentation on theme: "NSTX GMS-4 February 21, 2003 J. Menard Status of NSTX internal RWM/EF sensor system and electronics J. Menard for NSTX GMS-WG."— Presentation transcript:

1 NSTX GMS-4 February 21, 2003 J. Menard Status of NSTX internal RWM/EF sensor system and electronics J. Menard for NSTX GMS-WG

2 NSTX GMS-4 February 21, 2003 J. Menard RWM/EF sensor and electronics status Sensors –All 48 sensors installed during last outage –All cabling in-place up to integrator input Cables from integrator output to digitizers need to be finished, labeled Integrators –All integrator modules, crates, and timing modules now on-site –Need to finish etching of module front panels, then test modules Digitizers –Present plan is to use 2 CAMAC 908s – need to decide layout Could do 12  B P channels plus 4 others at 10kHz, other 32 at 5kHz Do we need faster data acquisition, or higher than 12bit resolution? What are we going to do about real-time DAQ –Do we need to purchase at least 1 PCS digitizer module? –Is the PCS DAQ too slow?

3 NSTX GMS-4 February 21, 2003 J. Menard Full toroidal coverage –24 B  and 24 B P Each 12 above, 12 below B  measured by single turn loop –Embedded in tiles –Centered in plate B P measured at ends of primary plates –Glass insulated Cu wire wound on macor forms –SS304 shields Thermocouple connectors allow easy installation and upgrade potential (PnP) (Plug-and-pray) Each primary plate will measure B  and B P

4 NSTX GMS-4 February 21, 2003 J. Menard B P and B  mounted symmetrically above and below mid-plane: –Chosen to avoid ports, etc…. –Mounted 1/2” behind limiter boundary –B P sensors must avoid HHFW antenna Use up/down average for n=1 feedback Sensors will measure RWM/EF helicity

5 NSTX GMS-4 February 21, 2003 J. Menard Implementation plan A partial to-do list: –Make final decision on toroidal separation of difference measurements Best options:  = 6  60° or 2  180° + 4  90° Label and hook up sensors accordingly –Sensor calibration Calibrate integrators in-situ B P calibration –Compute expected gain and inductance, infer actual gain from measured L B R calibration –Process measurement arm data and use tile/plate drawings to infer sensor area Stimulate PF3U/L and PF5 with Crown amplifier to determine polarities and obtain preliminary gains (need integrated signals).

6 NSTX GMS-4 February 21, 2003 J. Menard Potential issues…. Impact of TF failure – timing of outage –There is presently discussion of installing ex-vessel control coils near the end of the present outage –The coils would be installed where the present locked-mode sensors are, and would almost certainly displace them –With this plan, we will have no measurement of locked n=1 until the internal sensors are proven/shown to work –Do we want some type of B R sensor loop on new ex-vessel coils? Can we re-cycle the present ex-vessel sensors?

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