a5:automatic-control-the-cold-end-fan

Automatic Control The Cold End Fan

Author: AETEK

The changes shown here require knowledge in the field of Arduino IDE, Marlin and electrical engineering and can overwhelm normal users. Also, I would like to point out possible dangers that exist in certain interventions. All adjustments have been checked for function.

Difficulty: Advanced

What is this about?
https://en.wikipedia.org/wiki/Pulse-width_modulation
PWM (Pulse-width-modulation) is a technique to control the performance of e.g. a fan (as in the A5). Just as the A5 is delivered from the factory, only the component cooler (A5 lower fan) is PWM controlled. The Cold End Fan (A5 upper fan) is directly connected to 24V and constantly makes annoying sounds. I will show how to automatic control the Cold End Fan (A5 upper fan) via PWM and thus gets quieter. Thanks to the PWM control, the Cold End fan runs slower and also temperature-controlled. The Marlin firmware only turns on the fan when needed. When the hot end has cooled to 50°C, the cold end fan will shut down. As a result, the upper A5-fan gets noticable quieter. Unfortunately, there is a side effect. Due to the fan control with PWM, the fan generates additional PWM noise. To achieve the maximum noise reduction, it is necessary to add my PWM filter. The mentioned hardware-optimizations can be combined in one adapter cable.

Note: 
If you opt for this optimization, then always do both the hardware, 
as well as the software conversion. Otherwise, the hot end cooling system will stop working.

Required Electrical Parts

  • 1 x Diode 1N 4007
  • 1 x Resistor 100 Ohms 3 Watts
  • 1 x Electrolytic Capacitor 220uF 35V
  • 1 x 2-Pin male plug for building a plug-in-adapter.
  • Some cable and heat shrink

The hobbyist will most likely have the parts in the tinker box.

Build The Circuit

Please pull the A5 mains connector

fpwm_mod_01.jpg

Please note the polarity
pwm_mod_03.jpg

pwm_mod_04.jpg

Connection On MKS GEN_L Mainboard

Please note the polarity

pwm_mod_07.jpg

pwm_mod_08.jpg

Please note the polarity
pwm_mod_09.jpg

This concludes work on the A5 hardware for this project. In order for the cooling system to work, the Marlin firmware has to be adjusted.


Customize the Marlin firmware

In the Arduino IDE open the A5 Custom Community Firmware (see article here in WIKI).

The following adjustments are made in the “Configuration_adv.h” file:

Search for: Extruder cooling fans

Replace this original code block…

#define E0_AUTO_FAN_PIN -1
#define E1_AUTO_FAN_PIN -1
#define E2_AUTO_FAN_PIN -1
#define E3_AUTO_FAN_PIN -1
#define E4_AUTO_FAN_PIN -1
#define EXTRUDER_AUTO_FAN_TEMPERATURE 50
#define EXTRUDER_AUTO_FAN_SPEED   255  // == full speed

…with this customized code:

#define E0_AUTO_FAN_PIN 7  
#define E1_AUTO_FAN_PIN 7   
#define E2_AUTO_FAN_PIN -1
#define E3_AUTO_FAN_PIN -1
#define E4_AUTO_FAN_PIN -1
#define EXTRUDER_AUTO_FAN_TEMPERATURE 50 // Switch on Coolend Fan(s) if Temp is >=50C
#define EXTRUDER_AUTO_FAN_SPEED   150    // Select Fan Speed. Range 0...255 (128= Half speed, 255=Full speed)

The 30mm fans used by JGAURORA have the ability to run slowly and to develop the full speed after an operating time of about one minute. This must be taken into account when choosing the fan speed. If, after the modification, you get problems with a clogged nozzle, then the value must be increased to provide more cooling power.
The speed of the cold end fan (A5 upper fan) is determined in the line
#define EXTRUDER_AUTO_FAN_SPEED 150
For me, the default value of 150 works without problems. That's a good compromise between cooling performance and noise.

Then upload the changed firmware to the A5 (instructions here in the WIKI).
The 3D printer can now be reassembled.

Check The Proper Function

  1. Insert mains plug.
  2. Power on the printer
  3. The Cold End fan (A5 upper fan) should not run yet.
  4. On the touch screen, set a nozzle temperature of 55°C and make sure that the fan switches on from a displayed temperature of 50°C. You can not rely on the ears. It is important that the fan turns on above 50° C. It then probably has a pretty low speed first. As mentioned, the speed increases within about a minute. This is not a consequence of the control, but a property of the fan.
  5. Wait a few minutes and evaluate the achieved cooling power. For me, the fan is still quietly audible but much quieter than before the modification.
  6. Choose a nozzle tempearture of 40 ° C and see if the Cold End fan turns off below 50 ° C.

If everything reacts like that, then enjoy the silence.

From now on, the fan always turns on and off automatically. This completes the conversion. :-D



Status 6. July 2018: Completed

a5/automatic-control-the-cold-end-fan.txt · Last modified: 2020/12/25 02:13 by 127.0.0.1