# Test Waveforms

A project log for Understanding ACeP Tecnology

A journey towards driving full-color e-Paper displays

Manuel Tosone 05/12/2021 at 17:562 Comments

Time has come to poke at the display and see what color comes out. The simplest test that we can do, is to apply a constant voltage for an x amount of frames.
The controller can apply 9 different voltages (-30V -25V -15V -5V 0V +5V +15V +25V +30V). We already know that 0V doesn't do anything, so we can focus on the other values. I made two sets of waveforms one positive and one negative.

Starting with the positive one. The picture below shows the waveform. It is made up of 3 phases. The first one is to prevent any DC buildup in the panel. The second serves to drive the particles ard towards the top and bottom layers, leaving the display in the extreme optical state. The last phase applies the target voltage for the desired number of frames.

Below are the results of the experiments. For each experiment, starting from the top left and ending at the bottom right, the voltage is applied for 2, 4, 8, 16, 32, 64, 128, 255 frames.

Testing is done at 21°C, framerate is 50Hz.

 Positive 5V step Positive 15V step Positive 25V step Positive 30V step

The negative waveform is the same as above, with all the polarities reversed. It is made up of the same 3 phases. The first one is to prevent any DC buildup in the panel. The second serves to drive the particles ard towards the top and bottom layers, leaving the display in the extreme optical state. The last phase applies the target voltage for the desired number of frames.

Below are the results of the experiments. For each experiment, starting from the top left and ending at the bottom right, the voltage is applied for 2, 4, 8, 16, 32, 64, 128, 255 frames.

Testing is done at 21°C, framerate is 50Hz.

 Negative 5V step Negative 15V step Negative 25V step Negative 30V step

# Conclusions

What can we derive from the positive step?

• There isn't much change at 5V.
• We can clearly see that white and yellow particles are negatively charged.
• The yellow ones are faster than the white ones, but only if the applied voltage is at least 25V.
• White particles are quite slow, at 25V they take 255 frames to reach the top.
• Cyan seems to be faster than magenta, at 15V the initial dark blu color becomes pink before fading to white.

What can we derive from the positive step?

• At 15V yellow fades to green, which indicates that cyan rises faster than magenta.
• At 25V and 30V yellow goes away quickly, leaving cyan.

## Discussions

Martin Fasani wrote 09/27/2021 at 21:12 point

Nice research. Would like to see code examples!

Are you sure? yes | no

GooDisplayEpaper wrote 08/02/2021 at 06:40 point

Marvellous work!

Are you sure? yes | no