PWM Extractor Fan Speed Controller PART2 for 3D Printer Enclosure - Tukkari, PrusaBox, Lack Box
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- čas přidán 5. 09. 2024
- Part 2 Demonstration how a PWM fan controller can be fitted to a 3D printer enclosure to proportionally control the speed of the extractor or any cooling fans
Useful Links:
Face plate for my controller box as per the video - www.printables...
PWM Controller - UK amzn.to/3U7Tmar
USA: amzn.to/3sKrpKa
Fan connector for the board - search Ebay UK/USA for 4 Way 3.96mm PCB Connector Housing Pin Header Male Female JST VH Compatible (VHR-4M) and also buy the pins.
Suggested PWM fans:
Noctua 120mm IPPC3000: UK amzn.to/3gV53mG
USA: amzn.to/3DIbceO
Noctua 40mm (if you need to cool components or need an air intake)
UK: amzn.to/3Ua2USl
USA: amzn.to/3DtwkEq
12v power supply was a simple 12v power brick, many examples such as
UK amzn.to/3sGzy2a
USA amzn.to/3fgaE6D
4Pin cable extension
UK amzn.to/3Wg2PhP
USA amzn.to/3UbTpCg
4 Pin splitter cable
UK amzn.to/3De5UpW
USA amzn.to/3gOSvNn
Enclosures:
Tukkari - for Prusa Mini, Mk3s and Ender3
Europe - www.tukkari.com
USA/Global - www.tukkari.store
PrusaBox for Mk3s
www.printer-bo...
Some links are affiliate links but do not affect the price you are charged.
#pwm #3dprinterenclosure #extractorfan
HERE IS AN ARTICLE FROM A REVIEWER ON AMAZON.COM THAT DETAILS THE FUNCTIONS OF THE PWM CONTROLLER:
2. Working Voltage: DC 11V ~ 55V
3. Working Current: 0.1A (MAX)
4. Fan Current: 5A (MAX)
5. PWM Range: 5% ~ 100% or 0%
6. PWM Frequency: 20KHz / 2.5KHz
7. PWM Signal Amplitude: 10.5V (no load)
8. Temperature Measurement Range: -9.9℃ ~ 99.9℃
9. Working Temperature: -25℃ ~ 85℃
10. Working Humidity: 5% ~ 95% RH
11. Sensor Wire Length: 1 meter
12. Size: 70.5 x 40.5 x 13.5mm
3. If additional fans need to be shut down at same time as the primary PWM fan, they can be controlled to cut off power through the external relay trigger circuit, supplied by the 'relay' header on the PWM controller's PCB.
1. Power interface: The main power input interface (11v ~ 55v): + | - | Supplies the main power to the control board PCB, also providing the power to pass through to the fan output interface.
4. Alarm signal port (2-pin): High-level output during normal operation, low-level output when the fan is abnormal.
5. Relay interface (2-pin): Expansion interface. Drives a 9V or 12V relay, which can be used to control an addtional fans power circuit, when the fan control stops (the 'RUN' LED indicator turns off), the relay opens.
2.1 With the PCB powered ON, short-press the OK button to enter the inherent PWM output setting, the range is 5% ~ 100%, short-press again to save and exit.
2.2 With the PCB powered ON, long-press 'OK' button to enter the temperature parameter setting. After entering, modify the first parameter (L__) by pressing the + Button and - Button. When the 'L' setting is as desired (e.g. L35), short-press the 'OK' Button to save and move to the next parameter adjustment (H__), modify by pressing the + Button and - Button. When the 'H' setting is as desired (e.g. H45), short-press the OK Button to save and move to the next parameter adjustment (C__), modify by pressing the + Button and - Button. When the 'C' setting is as desired (e.g. C25), short-press the OK Button to exit the temperature parameter adjustment mode.
L = Acceleration Temperature | H = Full Speed Temperature | C = Turn-off Temperature
3. Shut-down temperature (the display showing "C**"): Low-temperature shutdown temperature. The range is 0℃ ~ 92℃. When this value is set to over 0, the low-temperature shutdown function is enabled. When the temperature is lower than this temperature, the output is turned off (PWM signal and extended relay output are turned off at the same time). When the temperature rises above the acceleration temperature in the off state, the fan restarts and changes speed with the temperature, if the shutdown temperature is set to 0, the low temperature shutdown function is disabled, and the PWM and extended relay output interfaces will always output.
4. The difference between the acceleration temperature and the full speed temperature must not be lower than 5℃, and the difference between the closing temperature and the acceleration temperature must not be lower than 2℃. If the value will break the above temperature difference when modifying the parameters, the program will automatically adjust the other two parameters.
1. "X10 RPM": Speed unit displaying. When this light is on, the display is currently indicating the fan speed, which is the value after the speed divided by 10. For example, if the display indicating is 256, the actual fan speed is 2560 RPM (revolutions per minute).
3. "RUN": Fan running indicator. This light illuminates when the fan is running, and goes out when the fan is off.
Great job thanks Colin.
Hey Colin. Great video and I am going to try something similar for a lack enclosure I have. One question, do you think it is worth having an incoming fan as well as an exhaust one? That might keep it from getting too hot and therefore too loud. I mainly print PLA and have started PETG, but I am using the enclosure for noise cancelling predominantly. Thanks again.
My PrusaBox had a vent slot to allow fresh air in. But an incoming fan may create a draught of cold air causing petg to warp. I'm guessing on Lack there is a gap around front doors, that will allow fresh air in. And for pla I would leave doors open a little. Petg should be fine with doors closed. Remember you can set the on off temps so that will determine how loud it gets. Good luck
Hi Colin have you thought if there is a way to have a set temperature integrated to this setup?
Have fan go faster if above set point, go slower if below setpoint.
The pwm allows you to set a fan start and fan full speed temp, with the speed on a linear scale between the two. This should cover requirements and I'm really pleased with it. Don't have the fan blasting full speed all the time
@@colinhill thanks. I’m not grasping how it would allow a single target temperature.
For example if the target was 40c, we could set the PWM at 25-45. But where does it actually achieve steady state?
@@robinjandu if you look at a normal thermostat set at 40, the fan comes on at 40. The enclosure may carry on getting hotter for a while until the temp drops below 40 and fan turns off. Then temp rises again and fan comes on at 40. But with a pwm the fan is set to come on at 35 but at low rpm, as the temp gets nearer 40 the fan spins faster. This way the enclosure temp doesn't sky rocket over 40, it's a much more gradual increase to 40. If it goes over 40 the fan will go to full speed. When it drops below 40 the fan spins slower but still extracting air. It's a more balanced temp solution than the normal on/off temp control