A
[email protected]
- Jan 1, 1970
- 0
Hi!
I'd like design a pulse generator, for the fun of it, and because I need
to make some TDR work, together with my Tektronix TDS2024B oscilloscope.
I saw the circuit by Tomi Engdahl, which uses a 74AC14 (schmitt inverter),
but I am also tempted to use the Maxim DS1040Z-A15, which is a programmable
pulse generator (from 5ns to 15ns, through five 2.5ns steps).
My doubts are about driving the (50 ohm) cable:
what if I connect the chip directly to the cable? It is specced of being
capable of 50mA "short circuit current" which, if I am capable of doing
the basic math, means that the driver has an impedance of 100ohm (at 5V),
thus it is mismatched.
If I connect two of them in parallel I should get a good match for 50ohm,
right?
And what if I only use one driver? The signal will be smaller, or there
will be immediate reflections possibly destroying the IC?
Last but not least, some theory: what's the point in having ~picoseconds
rise time, when anyway you drive one hundred meters of 100pF/m cable with
a 50 ohm impedance in serie?
Before the impulse has traveled one meter, it has already been smoothed
out to ns-range rising/falling times.. and much worse after tens of meters.
Having a 1ns rise time is going to be worse than 10ps rise time just like
adding a couple of meters of cable, or am I mistaken? I don't really get
the point in having ps-scale impulses for such applications, even more
because of obvious price considerations.
About the 74AC14, Tomi's circuit uses 5 of them in parallel, with a 220
ohm resistor each, giving a "cumulative" output impedance of 50 ohm. But
what's the point in paralleling five buffers, to strenghten the current,
when you add resistors in serie at each output anyway?
And, if it makes sense, can I parallel even more cheap 74AC14's to improve
the pulse generator performance?
Tomi's circuit can be seen here:
http://www.epanorama.net/circuits/tdr.html
Thank you!
Andrea
I'd like design a pulse generator, for the fun of it, and because I need
to make some TDR work, together with my Tektronix TDS2024B oscilloscope.
I saw the circuit by Tomi Engdahl, which uses a 74AC14 (schmitt inverter),
but I am also tempted to use the Maxim DS1040Z-A15, which is a programmable
pulse generator (from 5ns to 15ns, through five 2.5ns steps).
My doubts are about driving the (50 ohm) cable:
what if I connect the chip directly to the cable? It is specced of being
capable of 50mA "short circuit current" which, if I am capable of doing
the basic math, means that the driver has an impedance of 100ohm (at 5V),
thus it is mismatched.
If I connect two of them in parallel I should get a good match for 50ohm,
right?
And what if I only use one driver? The signal will be smaller, or there
will be immediate reflections possibly destroying the IC?
Last but not least, some theory: what's the point in having ~picoseconds
rise time, when anyway you drive one hundred meters of 100pF/m cable with
a 50 ohm impedance in serie?
Before the impulse has traveled one meter, it has already been smoothed
out to ns-range rising/falling times.. and much worse after tens of meters.
Having a 1ns rise time is going to be worse than 10ps rise time just like
adding a couple of meters of cable, or am I mistaken? I don't really get
the point in having ps-scale impulses for such applications, even more
because of obvious price considerations.
About the 74AC14, Tomi's circuit uses 5 of them in parallel, with a 220
ohm resistor each, giving a "cumulative" output impedance of 50 ohm. But
what's the point in paralleling five buffers, to strenghten the current,
when you add resistors in serie at each output anyway?
And, if it makes sense, can I parallel even more cheap 74AC14's to improve
the pulse generator performance?
Tomi's circuit can be seen here:
http://www.epanorama.net/circuits/tdr.html
Thank you!
Andrea