Difference between revisions of "Pulses per Microliter"
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* And a reservoir with a 17 mm diameter, or 227 mm<sup>2</sup> cross section. | * And a reservoir with a 17 mm diameter, or 227 mm<sup>2</sup> cross section. | ||
The table below explains how a certain number of pulses (or microsteps) on the motor will generate a certain volume displacement in the reservoir - the pulses/µL (or pulses/mm<sup>3</sup>) number that we need to control the material | The table below explains how a certain number of pulses (or microsteps) on the motor will generate a certain volume displacement in the reservoir - the pulses/µL (or pulses/mm<sup>3</sup>) number that we need to control the material advance or displacement. Note that factors like viscosity, compressibility, and nozzle characteristics will introduce some delay from the time of displacement to the time of actual extrusion. | ||
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Revision as of 17:27, 27 July 2020
This is to explain the various gearing on our different heads.
Calculating Pulses/µL for the 27:1 EMO and VOL
The EMO and VOL heads each have:
- A 1.8° stepping motor;
- Running in 1/16th microstep mode;
- A 27:1 planetary gear;
- A 1:1 drive screw coupling;
- A drive screw with a pitch of 18 threads per inch, or 1.411 thread per mm;
- And a reservoir with a 17 mm diameter, or 227 mm2 cross section.
The table below explains how a certain number of pulses (or microsteps) on the motor will generate a certain volume displacement in the reservoir - the pulses/µL (or pulses/mm3) number that we need to control the material advance or displacement. Note that factors like viscosity, compressibility, and nozzle characteristics will introduce some delay from the time of displacement to the time of actual extrusion.
| Component | Motor | Gearing | Coupling | Drive Screw | Reservoir |
|---|---|---|---|---|---|
| Image | 
|
|
|
|
|
| Details | This is a 1.8° stepping motor, so 200 full steps = 1 revolution. 1 pulse is a 1/16th microstep, |
27:1 planetary gear, so 27 motor revs = 1 output rev. |
1:1 direct coupling, so no change is introduced. |
The drive screw has a pitch of 18 threads per inch, or 1.411 mm linear travel per revolution. |
The reservoir has a diameter of 17 mm, so the cross sectional area is 227 mm2. Therefore, each revolution of the drive screw |
| 1 Rev Calc. |
86,400 pulses = 27 motor revs... |
= 1 output rev... | = 1 screw rev... | = 1.411 mm linear advance... | = 317.8 µL displacement. |
| And so: | 86,400 pulses = 317.8 µL, or 271.9 pulses/µL | ||||