html5-img
1 / 10

The Adventures of Sparky LeCroy

The Adventures of Sparky LeCroy. TK Hemmick for the Stony Brook Crew and Maxim. LeCroy Trip Circuit Questions. PHENIX has long suffered from “myths” about the true functionality of the trip circuit in the LeCroy HV PS. We used the schematic to put the current signal on a digital scope trace.

happy
Download Presentation

The Adventures of Sparky LeCroy

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Adventures ofSparky LeCroy TK Hemmick for the Stony Brook Crew and Maxim

  2. LeCroy Trip Circuit Questions • PHENIX has long suffered from “myths” about the true functionality of the trip circuit in the LeCroy HV PS. • We used the schematic to put the current signal on a digital scope trace. • Triggering on single shot of the scope, we could look at the precise waveform of the current under many conditions.

  3. Spying on the Signals • Pins 1 & 10 of a particular Op Amp carry the “Fast” and “Slow” current signals for a channel (8 OpAmps 8 channels) • Unfortunately these carry a lot of common mode noise as compared to our scope and a DC offset for small current surges.

  4. Dual Sum & Invert • Fast & Slow wires from 2 channels. • Dual Sum & Invert makes clean signal /w adjustable DC offset.

  5. Calibration • Current reported by LeCroy via “VT100” interface. • DC voltage measured by O-scope. • Good Linearity: we know what V means

  6. Fast vs Slow • “Sparking” resistor chain with NO CAPACITORS (other than cables etc…) • NOTE: Slow circuit = Fast output through 10 msec RC and voltage follower. • Ring Amp a little smaller in slow circuit Slow Fast

  7. What do you trip on? • By “brushing” the shorting wire, we can make MANY transients atop the signal. • The Transients DO NOT(!!) make a trip No Trip Here Trips Here

  8. It is a discharge? • Yup…created visible, aubible spark with a wire shorting a big HV cap. • Trips on 1st ring. • NEVER trips with thresh above 1st ring. NOTE: Change in scale by 10X

  9. Best simulation circuit • Big RC (GEM) in parallel w/ small RC (strip) • Spark the strip with a wire • Smaller overshoot • Trip point basically at new DC level.

  10. Summary • Very little difference between “fast” and “slow” trip circuits (“Peak” is misnomer). • Transients never cause trip. • Real circuit has little overshoot (rest of GEM supplies most of charge for sparked strip). • Tripping on extra current due to one shorted strip IS CORRECT!

More Related