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| Why Does TLC5940 LED Driver Produces "Smearing Edges"? |
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| Darkwing:
Hi folks! I have a technical question about the (supposed) misbehavior of a TLC5940 LED driver chip, producing "smearing edges" at its outputs. The Story I'm trying to multiplex some segment displays. Multiplexing is done with shift registers (CD74HTC4094) and a source driver stage (MIC2981), because the displays are common anode. As current sink driver I'm using the 16ch TLC5940 LED driver chip. The Problem I was wondering why I have some ghosting on the display digits, that means: some segments of one digit lit up shortly on the next digit. After thorough inspection, I found out, that the TLC5940 itself outputs some kind of "smearing edges", like it is somehow oscillating in timing. I measured that this "oscillation range" is about 1ms wide. Here is a picture from the scope: 1, 2: edges from the multiplexing source driver 3, 4: some segment pins from the TLC5940 Also here is a Youtube video of this in action: You can see, that the edges are "moving". This behavior is very unfortunate because it prevents me from multiplexing very quickly — because I need to "wait" around 1ms (=1.000µs = 1.000.000ns !) to be safe to switch to the next digit. I understand that there is a propagation delay with 16 bits shifting into the TLC5940 registers – but reading the switching characteristics in the datasheet, I don't see why this delay should sum up to 1.000.000ns; it should be 500ns or maybe 3.000ns ... :o (I'm also shifting 16 bits to the shift registers and the source driver respectively – this also produces clean, non-moving edges. So the crux must be the TLC5940.) The Question Does anyone know why the outputs are "oscillating" in such a way? Is there a remedy to this or is this normal behavior of this chip? :-// Btw, here is a view of the breadboard, that you can get an idea of how it all looks like: Hoping for help! Thanks y'all! :) |
| edavid:
Where are the decoupling capacitors? |
| Darkwing:
Thanks for reply! I tried 0.1uF on several places ... they don't make any difference at all. :-// |
| james_s:
Between the long wires on a solderless breadboard without any decoupling I'm actually kind of amazed that it works as well as it does. |
| Ian.M:
If you don't pulse BLANK while loading (not shifting in) the new data to reset the PWM counters, I would expect 4096/30MHz = 1.37ms of XLAT to LED output propagation delay jitter as your load event isn't (and cant be) synchronised to the free-running PWM cycle. |
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