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Studying a Constant Fraction Discriminator for use in Time-of-Flight. Page 1

Studying a Constant Fraction Discriminator for use in Time-of-Flight. Page 1. Trigger the oscilloscope using the trigger output of the pulse generator Create a negative output pulse that has about a 10 nsec risetime and fall time. The width should be about 50 nsec .

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Studying a Constant Fraction Discriminator for use in Time-of-Flight. Page 1

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  1. Studying a Constant Fraction Discriminator for use in Time-of-Flight. Page 1 • Trigger the oscilloscope using the trigger output of the pulse generator • Create a negative output pulse that has about a 10 nsecrisetime and fall time. The width should be about 50 nsec. • Make the pulse height variable between about 100 mV and 500 mV. (You can use both the knob on the pulse generator and the fixed attenuators in the NIM crate.) • This pulse is similar to a phototube pulse from a scintillator. • Put that pulse into the NIMLecroy 621 fixed threshold discriminator module. Set the discriminator value to be a constant 100 mV, using the jewelers screwdriver. (Note: the readback value at the ‘T’ measurement point, is x10 the true discriminator value.) • Look at the NIM logic pulse coming from the discriminator. • Vary the pulse height between 100-500 mV. • Look at the timing of the discriminated pulse with respect to the pulse generator trigger. It should vary by several nsec as the pulse height changes and it passes the threshold earlier or later. • Note from the poster how significant 3 nsec is in TOF.

  2. Studying a Constant Fraction Discriminator for use in Time-of-Flight. Page 2 • Now setup theOrtec 934 Constant Fraction Discriminator • Set the threshold at 100 mV. (The measurement point labelled ‘T’ is again x10 the true value.) • Connect the delay points together by a cable that is significantly shorter than the rise time (<10 nsec). • Make sure you are getting a logic pulse output. If not, vary the amplitude until you are. • Look at the analog CFD pulse from the ‘M” output. Does it match the poster? It should have a zero crossing point a few nsec after the start of the pulse. • Vary the pulse height. Note how the zero crossing point in the analog signal stays at the same place. • As you vary the analog pulse height, does the timing of the logic pulse output stay roughly the same? It shouldn’t vary more than half a nsec or so. You can set the zero crossing point on the discriminator with the ‘Z’ adjustment.

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