When I trying to build my first avalanche pulse generator,
someone explained me that I was independently measuring
the dielectric constant of the RG58 cable I used as charge line.
This triggered the idea to measure the time of flight of a light pulse.
I was also curious if normal leds and laser diodes could be used
as very high speeds. Probably it's a basic excercise in university
lab but I've never had the luck to see the experiment live.
The requirement was to use only equipment I had around,
the pulser was working ok, I had some smd leds to test
but the problem was what to use as detector.
The detector has to be fast, sensitive and be coupled to a scope input.
Characteristics not easy to have from common components,
but I had right in the “lab” (let me use this word
) the righ
device for the task, this :
https://www.eevblog.com/forum/product-reviews-photos-and-discussion/photomultiplier-tube-teardown-and-speed-test/A photomultiplier tube, boxed and almost plug and play.
Once connected to a suitable power supply (rigorously high
voltage, as per vacuum devices tradition) this glass tube
is so nice that spits out a pulse ready to be coupled with
an oscilloscope. Well, almost ready, but close enough.
Ant it's sensitive and fast, at least the risetime is fast,
the pulse width isn't that fast but it's enough for the task.
Let's do the math: the light travels 30cm per nanosecond,
so with the 6m path I have (two times bench to wall)
I have 20nS flight time.
The pulse generator risetime is less than 1.5nS, and narrow:
The photomultiplier has an output pulse width of 10nS,
this is the time it takes to discharge after being hit by
light pulse,so I should have enough time to generate two pulses
well spaced apart.
The biasing network on the tube had to be slightly modified.
The test shows that the leds are fast enough, at least
one of the orange leds I had around, a red one was
much worse.
This is a led I used for testing the pmt, the capacitor
and inductor are used to maintain the led near conduction:
This is the final setup, I used a laser instead of a led,
because it easy to collimate and be reflected back
from distance.
Under the rechargeable cell there is the avalanche
pulser that feeds the laser head, one of these:
https://www.eevblog.com/forum/product-reviews-photos-and-discussion/low-cost-ebay-red-lasers-teardown/The small glass piece in front of the laser reflects
part of the beam to the big mirror on the side of the
photomultiplier. The rest of the beam travels
straight to a mirror 3m away that reflects it
back into the photomultiplier.
This beam is late by the 6meters it travels so the PMT
receiver will see two pulses 20nS apart.
And this is the result:
The nice thing is that the laser pulse is shorter
than the distance it travels, so I imagine it like
a light string probably less than 1m long
that travels the 6m from the laser head and receiver
Now I can answer to my curiosity:
seem that also in my “lab” the light
bounces around at the usual speed
Fabio.
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