Artillery Sidewinder X1 Extruder Motor Does Not Work | Artillery Sidewinder X1 Extruder Motor Not Working 141 Most Correct Answers

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Extruder motor not spinning, please help!!! : r/SidewinderX1

If the motor doesn’t move when directly connected, driver might be dead, swap with a known working one from Y or Z and try again.

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Source: www.reddit.com

Date Published: 1/4/2022

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Extruder not working:42148 – Artillery Sidewinder X1 (EVNOVO)

first got the printer and went to do test print. however when trying to extrude the gears start clicking and not pushing out filament.

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Source: www.thingiverse.com

Date Published: 1/14/2021

View: 1099

How to Fix An Extruder Motor That’s Vibrating But Not Turning

The best way to get your extruder motor actually turning again is by entifying whether you have a mis-wired motor, have a current too low, or have a faulty …

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Date Published: 3/24/2022

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24mm Stepper Motor (Extruder Motor) for Genius/Sidewinder X1

Genuine Artillery Part Tiny Machines 3D is an official Artillery reseller Compatible with all versions of the Genius and Sewinder X1 Newest Version (Q2 …

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Date Published: 12/17/2021

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X1 underextruding, clicking or not excluding at all after …

Hey all, I have a Sewinder that mostly prints well, I deced to replace the ler arm and after replacing the ler arm I’ve been having extruding issues …

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Date Published: 10/15/2021

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Artillery Sidewinder X1 Extruder Stepper Motor, 22.80 CHF

Artillery Sewinder X1 Extruder Stepper Motor from 3d-Printerstore.ch.

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Date Published: 12/27/2022

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• Author: Jan Gerstenberger
• Views: 1,839 views
• Likes: 17 likes
• Date Published: Oct 6, 2019
• Video Url link: https://www.youtube.com/watch?v=J1DaYfAyJv8

Why is my stepper motor not turning?

Simply unplug either the X or Y axis and plug it into the E stepper motor then try to move the axis that you plugged E into. If the axis moves, it means there’s a problem with the wiring to E or a problem with the RAMPS board. If it doesn’t move at all, it means the stepper itself is the problem.

How hot should extruder motor be?

The standard temperature for an extruder motor is around 45-70°C without an enclosure. The extruder motor will heat up more when it is constantly working to push filament out without breaks from travel movements and other things. If your extruder motor goes above 70°C+, then you may want to apply some fixes.

Why is my extruder motor not working?

Sometimes the extruder motor can start to skip or vibrate because of incorrect connection. At first, check if the extruder motor cable is properly connected to the PCB. Check the extruder cable for proper connection as well. In order to do that, remove the extruder top cover and check if the cables are plugged in.

How do you fix a skipping extruder?

What is extruder motor?

Extruder is used in FDM or FFF technology 3D printer, which is known to everybody involved in 3D printing. Extruder stepper motor is responsible for feeding filament and controlling the movement of filament to melt in hot end and then coming out the hot end’s nozzle a thin thread of melted plastic.

Why do stepper motors vibrate?

Stepper motors naturally exhibit small vibrations with each step, due to the inertia of the moving rotor, which causes the motor to slightly overshoot (or, in some cases, undershoot) the step position and oscillate until it “settles” at the correct step angle.

Why is my extruder going backwards?

One of the most common reasons an extruder motor moves in the wrong direction is that one or more of its standard wires have been reversed. If this is the case, you’ll need to ensure that all of your motor wires are connected properly.

What happens when a stepper motor overheats?

That ensures the motor will reach its position in the application. But as current increases, so does motor temperature. If motor temperature rises too high, windings short and the motor ceases to function.

Extruder motor not spinning, please help!!! : SidewinderX1

Press J to jump to the feed. Press question mark to learn the rest of the keyboard shortcuts

Search within r/SidewinderX1 r/SidewinderX1

How to Fix An Extruder Motor That’s Vibrating But Not Turning – 3D Printerly

You’re having a problem with your extruder motor which happens to be showing signs of movement through vibrations, but its just not turning. This is an issue that many people in the 3D printing community have faced but find it hard to get a straight answer, so I’ve decided to try to do it in this post.

How do I fix an extruder motor that’s vibrating but not turning? The best way to get your extruder motor actually turning again is by identifying whether you have a mis-wired motor, have a current too low, or have a faulty stepper motor altogether. Once you know the cause, the fix is to rewire your motor, get a higher voltage going through or get a replacement extruder stepper motor.

It might sound a little complex to some, so keep reading to find out the simplified version of how to identify and fix an extruder motor that is just vibrating but not turning.

What Causes an Extruder Motor to Vibrate but Not Turn?

Some people describe their extruder motor movement as twitching, juddering, shudder, pulsing and even jitter but basically it’s just moving and clicking back and forth very fast. You can even get an extruder motor that stops mid print or starts to not work.

It’s not an ideal situation to be having but I’ve identified a few causes as to why this has happened to some 3D printer hobbyists out there.

Your extruder motor will vibrate and not turn generally due to one of these reasons:

1. Your extruder motor wires are mis-wired or crimped badly

The most common problem that I’ve seen people have when dealing with this issue is to do with the wiring being incorrectly plugged up.

The first thing you want to do is check the cables and whether your connectors are in good condition or crimped.

You can use a multi meter to check if you have continuity on all of your wires. Once you check the measurements you’ll be able to rule out the wiring being your issue.

It’s possible the color coded wires were put together in the wrong order from the manufacturer, but this reason is unlikely.

2. The current is too low to give enough power for it to turn fully

The next most common problem you are likely to be facing if it’s not the wiring is around your currents and voltage.

In some cases your current is rated lower compared to your other motors so you would have to increase the current.

When a motor vibrates, what it means is it’s not receiving enough power to move past its initial position so the motor is just moving very slowly. Once the connections and currents are in order, your motor should be able to get enough power to start turning fully rather than just vibrating.

This can occur if you have a replacement stepper drive that you just installed, but didn’t do properly.

When you are testing your motor and trying to get it to turn, it does so best when it has filament to actually grip it. This is because the inertia the motor needs to turn has to be similar to its own inertia.

Think of it like the force you need to move a bowling ball. It needs some force to get it rolling, but once it’s moving it moves a lot smoother without the need for as much inertia.

3. You’ve received a faulty extruder motor or it’s past its time

This reason is unlikely because stepper motors are so robust, and are designed to last longer than a 3D printer’s lifespan.

It’s possible that you received a stepper motor that is faulty. To check this you can hook the extruder stepper motor to your X carriage output header connector then home your X axis.

Once you do this check whether the motor does the same thing, and if it does it likely means you have a bad motor connector, your wiring is put in the wrong order or the motor is a fault one.

Before you check the wiring of the stepper motor, if you don’t have any experience you’ll want to follow a reliable video guide that gives you the know-how.

There are a few reasons why it could be faulty such as the internal motor coil being damaged but in this case, you’ll want to contact your seller and get a replacement or a refund.

Motors can have metal shavings inside or a misalignment which will give you issues.

4. Other Possible Reasons

If you follow the first three causes, you’ll most likely have your answer but there are a few other causes to keep in mind:

Blockage in extrusion system

Not having micro-stepping jumpers installed properly on the RAMPS board

Failed driver on RAMPS board

It’s possible that something could be impeding the extrusion flow of your printer like a cold-end blockage.

If this is the case, you should try to feed the filament through manually with your hand while the hotend is at extrusion temperature. If nothing comes out of the nozzle, you know there is a blockage within.

Sometimes when you try hooking up your motors to your RAMPS board, you can experience the same problem of the motors vibrating but not turning.

If you have looked into the RAMPS board you should check whether it actually has micro stepping jumpers installed on it.

Failed driver on the board. Also if you forget to put jumpers under the drivers it can cause your motors to just vibrate and not turn. Jumpers are small black pieces to put on the pins under the stepper driver.

Make sure you avoid putting vibration dampers on your extruder motor because it can cause skips and slipping of the filament.

Sometimes people mistakenly think their extruder motor is vibrating when it is just something on their 3D printer that isn’t sturdy. Make sure you tighten up any loose screws and bolts.

Your spool holder can make vibrations when it’s pulling filament through the extruder, especially when retraction settings are on.

This happened to me so what I’ve done is wrapped a small piece of cloth around the inner spool so it spins around smoothly.

That is just what I have personally done, but a better idea would be to print yourself a Filament Guide from Thingiverse.

How To Identify The Cause & Fix

Change the Plugs Around

The Fix

A lot of the times people will see their stepper wires connected color-wise but color-based guides can be unreliable.

Another common mistake is pairing up the wires to corresponding numbers or letters incorrectly.

Pins are marked with letters and numbers to help find pairs, but you want to avoid relying on this because there could be errors.

For example, if you have wires 1A, 1B, 2A, 2B you want to avoid pairing up 1A & 2A then 1B & 2B necessarily.

1A & 1B is a pair and 2A & 2B is a pair. Use this as a guide at first and in most cases it should be correct.

Steppers have two coils so what you need to do is find the two wires which make up each coil.

Simply plug one coil into pins 1 & 2

Then the second coil into pins 3 & 4 of your stepper connector

Any way round will be fine because what will happen is the motor will turn the wrong way

The advised way to find a pair is to short out two wires, then try to turn the motor by hand. If it becomes harder to turn by hand it means the wires are a pair.

Now that we have one complete pair, we know the other two wires are also a pair.

If your motor runs backwards after following the process of connecting the wires, there is a simple method to fix this.

You want to either plug it in the other way or invert the direction in the firmware configuration.

As long as you put the pairs together correctly it won’t matter what order it goes in.

Adjust the stepper’s current according to the VREF value, but do this very carefully because settings the current too high can actually melt some parts.

Where Should I Get a Replacement Extruder Motor if I Need One?

If you’ve tried the methods above and you’re still having trouble, you’ll likely just need to replace your extruder. From what I’ve researched, if you want to replace/upgrade your extruder motor go with the Twotrees Stepper Motor NEMA 17.

This is a highly rated, high torque solution which is perfect to replace a faulty stepper motor. Twotrees makes sure to package their products well and deliver excellent customer service.

7 Ways How to Fix Extruder Motor Getting Too Hot – Stepper Motors – 3D Printerly

The extruder motors on a 3D printer like the Ender 3 can get hot, to the point where it hurts to touch. There are ways to fix your extruder motor and other stepper motors getting hot, which I’ll detail in this article.

There’s a lot of useful information about fixing your extruder motor and stepper motors getting hot, so keep reading for more.

How Hot Can Stepper Motors Get on a 3D Printer?

Stepper motors can get hot by reaching temperatures as much as 100°C to 110°C. They are designed to be able to withstand these high temperatures and still operate, though you can run into issues if they constantly operate at these temperatures like skipping steps.

If you constantly have a current being supplied to the extruder motor from the power supply, you can experience this level of heat. It’s what allows the extruder to stop and start so accurately in the first place.

A stepper motor that is too hot to touch should be looked into, though it shouldn’t cause damage to the stepper motor itself.

How Hot Should the Extruder Motor Be on a 3D Printer?

The standard temperature for an extruder motor is around 45-70°C without an enclosure. The extruder motor will heat up more when it is constantly working to push filament out without breaks from travel movements and other things. If your extruder motor goes above 70°C+, then you may want to apply some fixes.

The heat from the extruder motor can transfer to other attached parts of the 3D printer which can then results in softening filament where it shouldn’t be soft. Materials like PLA which have a low heat resistance can become soft and easily cause clogs and ruin your 3D prints.

A lot of the time, you can get jamming and clogs around the extruder gear as well since it is constantly pushing the plastic filament through the metal gears.

Let’s take a look at how we can fix an extruder motor getting too hot or overheating.

How to Fix an Extruder Motor Getting Hot or Overheating – Cooling

To fix an extruder motor getting too hot, you can apply a heatsink to the motor to reduce the heat. These work really well to dissipate the heat coming from the motor. You can also check that your extruder isn’t working too hard by ensuring filament has a smooth, pathway. Adjusting the motor current also works well.

You might get great results just applying one of these methods, while others might have to apply a few of them to get the ideal results. Find the ones that suit you best and go from there.

Here are the methods on how to fix an extruder motor getting too hot:

Stick a Heatsink to the Motor Ensure a Smooth Filament Path Reduce Large Rafts Add a Cooling Fan for the Motor Ensure a Proper Airflow Decrease the Current of Your Stepper Motor Replace Your Stepper Motor

1. Stick a Heatsink to the Motor

An efficient method to fix an extruder motor overheating is to mount a heatsink to your extruder motor. A good heatsink can significantly reduce the amount of heat that your extruder motor is producing.

A heatsink is an external hardware component that has the sole purpose of fetching the heat from the extruder motor and pushing it away from the machine.

It works by transferring the incoming heat from the extruder motor and passing it through a low-temperature medium until it is deflected away from the extruder.

A great heatsink that has worked for many users is the EasyCargo 40mm Heatsink Kit from Amazon. It measures at 40 x 40 x 20mm and has thermal conductive adhesive tape to stick on your stepper motors with ease.

Many of the reviews mention how it keeps their stepper motors cooler than before, and keeps working in the long-run. You can simply order it, remove the adhesive backing and stick it to your stepper motors. I’d definitely recommend this as a solution since it’s a simple fix.

One user who used their 3D printer after applying a heatsink to the motor found that his stepper motors were a lot cooler than they used to be. He does recommend not to mount too many heatsinks (as some people attach multiple heatsinks, each at the top, left, and right sides) on the extruder motor.

Doing so will add mass to the motor, affecting the quality of the prints. You shouldn’t have to do this, but if you choose to, you should go for a passive aluminum heatsink as they have less mass.

Another user who has been printing different materials on many 3D printers said that the difference between printing with and without a heatsink was significant, giving a temperature difference of 30-40°C depending on conditions.

2. Ensure a Smooth Filament Path

Another thing you can do to resolve the extruder motor overheating issues is to make sure that the filament has a smooth passage. The filament passage should be as smooth as possible so that the extruder does not have to put the extra power to pull the filament from the spool.

This practice can put an extra load on the extruder which can directly cause the motor to heat up.

Simply ensuring a smooth path for the filament can reduce the extruder motor heat to a great extent. Some users have also suggested printing and using a Filament Guides by Filboyt for this purpose.

Here is a video by Roaming Interests that will go through some basics about filament path.

3. Reduce Large Rafts

Another interesting method that works to reduce your stepper motor overheating is to not use rafts that are too large. I personally ran into issues with my extruder motor on a direct drive setup overheating on the same model. This happened constantly while trying to print a raft on a large print.

What happened is the raft put a constant current on the extruder which caused it to heat up really high and even caused clogging issues due to filament softening near the heat.

I would try to reduce using really large rafts or maybe try to reduce the printing speed of your raft to reduce the load on the stepper motor.

4. Add a Cooling Fan for the Motor

Using cooling fans for your motor can also work well to resolve issues of your extruder motor overheating. This is simply attaching an additional fan that blows air directly on your extruder motor to reduce the operating temperature.

A user said that he prints on a 3D printer with an enclosure. Whenever the extruder motor began to heat, he simply attached an UMLIFE 40mm 3D Printer Cooling Fan with straps and a few zip ties right above the extruder motor.

According to him, the temperature of the extruder motor falls about 25 to 30% down in almost no time.

Another user said that he is upgrading his 3D printers to work 24/7 but they tend to fail after working fine for a few days or sometimes weeks as well. He considers clogging as the only issue which is mainly caused when the heat goes up to or even through the heat breaks.

In response to this, another user suggested printing a new cooler for the extruder motor. He suggested the eB Fan Shroud designed by Gibbed because it works pretty good.

This fan is designed in such a way that it runs the fan air in reverse, focusing the air directly where it should be.

One user printed and used this fan for 7 months straight and didn’t face any printing problems even for a single time.

5. Ensure a Proper Airflow

Some people recommend a way to fix your extruder motor getting too hot is to ensure a proper airflow. There should be enough space for the extruder motor and 3D printer so that the air can circulate freely and act as a fan itself.

This small effort can reduce the probability of the extruder motor overheating to a great extent.

Placing your 3D printer in an open area such as an open garage or using a fan would be the best option for this purpose. One user who implemented this method found that his stepper motors were a lot cooler than they used to be for 3D prints.

Do keep in mind that too much direct airflow can result in warping, which is when the outside areas of your model cool down too quickly, causing it to shrink and lift slightly off the build plate.

Users also suggested some other things that can help in this regard such as:

Place the window fan near the window and the 3D printer. This will keep on blowing the hot air or heat out of the room.

Use air extractors as they suck the hot air from the 3D printer and then replace it with cool air sucked from the outside environment.

Not using an enclosure or leaving a gap in the enclosure to cool down the temperature.

6. Decrease the Current of the Stepper Motor

Decreasing the current of your extruders stepper motors is a great method to fixing them overheating or getting too hot. The reason this works is that constantly supplying high voltage through the extruder motor increases the temperature which directly leads to more heat build-up.

By decreasing the current, the motor will produce less heat that can easily be handled by the cooling fans.

A user said that he was having an issue with the extruder motor getting too hot. It was causing jams and filament to melt down at the extruder gear. After adjusting the voltages (VREF) and then printing for 1 hour or so, the temperature came back from 60°C to 37°C.

Check out the video below by 3DPrintSOS to see how you can measure temperature and voltages, adjust voltages, and check voltages and extruder behavior after any adjustments.

Another thing you can do is a simple G-Code command: M907 E400.

E400 means 400mA (0.4amps) and changing the value of E will change the milliamps coming into the extruder motor. I don’t personally have experience doing this but some users have mentioned doing this has worked for them.

As current is the major reason behind the motor getting too hot, users can adjust the current flow to the extruder motor.

Do keep this fact in mind that decreasing the E value will make the stepper motor cooler but a bit weaker as well.

The decrease in current even if it is for a little time, contributes a lot to reducing the heat in the extruder motor in the long run. One user who implemented this method found that his stepper motors were a lot cooler than they used to be for 3D prints.

Users claim that in most cases, simply decreasing the current for the motor to 50% or if applicable, even below the 50%, resolves the issue of the extruder motor getting hot.

7. Replace Your Stepper Motor

If you find that these methods aren’t working very well, you might just have a stepper motor that shorting, so you’ll want to replace the stepper motor. Stepper motors aren’t always perfect and they experience manufacturing problems.

This can cause too much power being put into them from shorting, which can actually wear out your power supply if you keep on using them. It’s not a common occurrence but more likely to happen if you have cheap motors.

One user who had their Ender 3 working fine for some time said they turned their 3D printer off for a few weeks then turned it on as usual. For some reason, the extruder motor was so hot that is caused a blister when he touched it. Replacing the stepper motor was the fix in that situation.

You can get yourself an official Creality 42-40 Stepper Motor from Amazon. It’s compatible with many Creality 3D printers and is a high quality motor with low power, smooth speed, stable performance, low noise, and effective heat dissipation.

How to Fix An Extruder Motor That’s Vibrating But Not Turning – 3D Printerly

You’re having a problem with your extruder motor which happens to be showing signs of movement through vibrations, but its just not turning. This is an issue that many people in the 3D printing community have faced but find it hard to get a straight answer, so I’ve decided to try to do it in this post.

How do I fix an extruder motor that’s vibrating but not turning? The best way to get your extruder motor actually turning again is by identifying whether you have a mis-wired motor, have a current too low, or have a faulty stepper motor altogether. Once you know the cause, the fix is to rewire your motor, get a higher voltage going through or get a replacement extruder stepper motor.

It might sound a little complex to some, so keep reading to find out the simplified version of how to identify and fix an extruder motor that is just vibrating but not turning.

What Causes an Extruder Motor to Vibrate but Not Turn?

Some people describe their extruder motor movement as twitching, juddering, shudder, pulsing and even jitter but basically it’s just moving and clicking back and forth very fast. You can even get an extruder motor that stops mid print or starts to not work.

It’s not an ideal situation to be having but I’ve identified a few causes as to why this has happened to some 3D printer hobbyists out there.

Your extruder motor will vibrate and not turn generally due to one of these reasons:

1. Your extruder motor wires are mis-wired or crimped badly

The most common problem that I’ve seen people have when dealing with this issue is to do with the wiring being incorrectly plugged up.

The first thing you want to do is check the cables and whether your connectors are in good condition or crimped.

You can use a multi meter to check if you have continuity on all of your wires. Once you check the measurements you’ll be able to rule out the wiring being your issue.

It’s possible the color coded wires were put together in the wrong order from the manufacturer, but this reason is unlikely.

2. The current is too low to give enough power for it to turn fully

The next most common problem you are likely to be facing if it’s not the wiring is around your currents and voltage.

In some cases your current is rated lower compared to your other motors so you would have to increase the current.

When a motor vibrates, what it means is it’s not receiving enough power to move past its initial position so the motor is just moving very slowly. Once the connections and currents are in order, your motor should be able to get enough power to start turning fully rather than just vibrating.

This can occur if you have a replacement stepper drive that you just installed, but didn’t do properly.

When you are testing your motor and trying to get it to turn, it does so best when it has filament to actually grip it. This is because the inertia the motor needs to turn has to be similar to its own inertia.

Think of it like the force you need to move a bowling ball. It needs some force to get it rolling, but once it’s moving it moves a lot smoother without the need for as much inertia.

3. You’ve received a faulty extruder motor or it’s past its time

This reason is unlikely because stepper motors are so robust, and are designed to last longer than a 3D printer’s lifespan.

It’s possible that you received a stepper motor that is faulty. To check this you can hook the extruder stepper motor to your X carriage output header connector then home your X axis.

Once you do this check whether the motor does the same thing, and if it does it likely means you have a bad motor connector, your wiring is put in the wrong order or the motor is a fault one.

Before you check the wiring of the stepper motor, if you don’t have any experience you’ll want to follow a reliable video guide that gives you the know-how.

There are a few reasons why it could be faulty such as the internal motor coil being damaged but in this case, you’ll want to contact your seller and get a replacement or a refund.

Motors can have metal shavings inside or a misalignment which will give you issues.

4. Other Possible Reasons

If you follow the first three causes, you’ll most likely have your answer but there are a few other causes to keep in mind:

Blockage in extrusion system

Not having micro-stepping jumpers installed properly on the RAMPS board

Failed driver on RAMPS board

It’s possible that something could be impeding the extrusion flow of your printer like a cold-end blockage.

If this is the case, you should try to feed the filament through manually with your hand while the hotend is at extrusion temperature. If nothing comes out of the nozzle, you know there is a blockage within.

Sometimes when you try hooking up your motors to your RAMPS board, you can experience the same problem of the motors vibrating but not turning.

If you have looked into the RAMPS board you should check whether it actually has micro stepping jumpers installed on it.

Failed driver on the board. Also if you forget to put jumpers under the drivers it can cause your motors to just vibrate and not turn. Jumpers are small black pieces to put on the pins under the stepper driver.

Make sure you avoid putting vibration dampers on your extruder motor because it can cause skips and slipping of the filament.

Sometimes people mistakenly think their extruder motor is vibrating when it is just something on their 3D printer that isn’t sturdy. Make sure you tighten up any loose screws and bolts.

Your spool holder can make vibrations when it’s pulling filament through the extruder, especially when retraction settings are on.

This happened to me so what I’ve done is wrapped a small piece of cloth around the inner spool so it spins around smoothly.

That is just what I have personally done, but a better idea would be to print yourself a Filament Guide from Thingiverse.

How To Identify The Cause & Fix

Change the Plugs Around

The Fix

A lot of the times people will see their stepper wires connected color-wise but color-based guides can be unreliable.

Another common mistake is pairing up the wires to corresponding numbers or letters incorrectly.

Pins are marked with letters and numbers to help find pairs, but you want to avoid relying on this because there could be errors.

For example, if you have wires 1A, 1B, 2A, 2B you want to avoid pairing up 1A & 2A then 1B & 2B necessarily.

1A & 1B is a pair and 2A & 2B is a pair. Use this as a guide at first and in most cases it should be correct.

Steppers have two coils so what you need to do is find the two wires which make up each coil.

Simply plug one coil into pins 1 & 2

Then the second coil into pins 3 & 4 of your stepper connector

Any way round will be fine because what will happen is the motor will turn the wrong way

The advised way to find a pair is to short out two wires, then try to turn the motor by hand. If it becomes harder to turn by hand it means the wires are a pair.

Now that we have one complete pair, we know the other two wires are also a pair.

If your motor runs backwards after following the process of connecting the wires, there is a simple method to fix this.

You want to either plug it in the other way or invert the direction in the firmware configuration.

As long as you put the pairs together correctly it won’t matter what order it goes in.

Adjust the stepper’s current according to the VREF value, but do this very carefully because settings the current too high can actually melt some parts.

Where Should I Get a Replacement Extruder Motor if I Need One?

If you’ve tried the methods above and you’re still having trouble, you’ll likely just need to replace your extruder. From what I’ve researched, if you want to replace/upgrade your extruder motor go with the Twotrees Stepper Motor NEMA 17.

This is a highly rated, high torque solution which is perfect to replace a faulty stepper motor. Twotrees makes sure to package their products well and deliver excellent customer service.

X1 underextruding, clicking or not excluding at all after maintenance

This is the same type of issue I had with my X1. Nightmare.

To start the X1 has a Kraken style throat. It has two grub screws holding it in place. I typically remove the whole heat sync from the printer and then remove the heat break from that. Check the liner it often has issues.

I never touch the arm so I have never needed to replace it. If you always use the menu commands for feeding filament you will not have issues with the arm. The metal replacements are not always the same and I swapped mine and then discovered it was exacerbating the issue and went back to the stock one. I have a spare but did not need it.

Is the large extruder gear moving?

(this one Artillery Sidewinder X1 / Genius Extruder Big Gear 66T – 3D Printing Canada)

During retractions is it spinning like crazy?

Is your extruder stepper getting really hot?

Is the extruder tension spring and arm in the correct orientation?

The filament guide tube in the slot for it. If it is over or under it will jam. Is it worn? (this thing Artillery Sidewinder X1 / Genius Extruder Guide tube 1.75mm – 3D Printing Canada)

I ended up replacing the Extruder board, cables, JST ends, arm, spring, guide part, liner, whole hot end, all the gears and stepper. After each part it got a bit better. My conclusion for mine was there was a collection of issues that increased the tension on the stepper causing it to over heat and stop extruding. It melted the shroud over the extruder it was so hot. It would start again after the stepper cooled. The result is it would randomly stop extruding and then start again, trying to print in thin air.

Artillery Sidewinder X1 Extruder Stepper Motor, 22.80 CHF

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