Difference between revisions of "Monitoring System Requirements"
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| Timing check/offset || || typically 100 | | Timing check/offset || || typically 100 | ||
|- | |- | ||
− | | | + | | Relative gain check || none (PRIMEX might have) || 150 pe on module |
|- | |- | ||
− | | | + | | Linearity check || align=center | ~3 ns || align=center | ≤ 2 ns |
|- | |- | ||
− | | | + | | Temperature stability || || 1<sup>o</sup> causes 3% gain change |
|- | |- | ||
− | | | + | | Tower row flashing || || 1<sup>o</sup> causes 3% gain change |
|- | |- | ||
| Location of calibration input ||From front to monitor rad damage || light guide tapered side | | Location of calibration input ||From front to monitor rad damage || light guide tapered side |
Revision as of 17:52, 8 December 2010
Characteristic | LED/fibre | LED/wire |
---|---|---|
Dead/alive or on/off | ≤ 15% | |
Timing check/offset | typically 100 | |
Relative gain check | none (PRIMEX might have) | 150 pe on module |
Linearity check | ~3 ns | ≤ 2 ns |
Temperature stability | 1o causes 3% gain change | |
Tower row flashing | 1o causes 3% gain change | |
Location of calibration input | From front to monitor rad damage | light guide tapered side |
Geometrical constraints | Approximately 90% of front 4x4 cm2 area available | packing of WC and LGs, LED fitting, cable routing |
- Comment: Time (and temperature) stability most important.
- Comment: Option of delivering a range of light intensities important (e.g. using various filter settings).
- Comment from Werner: The flexibility in the use of the LED would be very useful for the start counter. Christina: Still need to test stability.
- Questions to Matt: What uniformity could one expect from the plexiglass input system? How many fibers were used to pulse the plexiglass, i.e. how often were they spaced?
- Comment: Matt drew attention to an LED pulser by Paul Smith which might be a useful reference.