Twotrees Nema17 Stepper Motor Bipolar 42 Motor 4-Lead Wire with 1m Cable 23mm 42BYGH 1.5A Motor for CNC XYZ 3D Printer
Score By Feature
OveReview Final Score
Product Description
Questions & Answers
Red (A+), Blue (A-)
A current limit of zero applies to the 17HS4023 (the small version in this listing). The part number 7A appears in a spec sheet issued by a manufacturer that also When the controller is set to a setting of about 1, the larger motors do work. A. 35. This current setting causes severe overheating of the 17HS4023 motor, which is smaller.
It is designed to run on a wide voltage range. This device does not operate at more than 3 volts. It can operate at a DC voltage of 6 V, but it actually operates at a DC voltage of 3 V. The range of voltage is 6 to 36 volts. When used as a duet, it's connected via either 24V DC or 12V DC power, and it has a maximum voltage There is no need to run 5a above the normal level.
The gauge may range from 18 gauge to 24 gauge, depending on the length
Selected User Reviews For Twotrees Nema17 Stepper Motor Bipolar 42 Motor 4-Lead Wire with 1m Cable 23mm 42BYGH 1.5A Motor for CNC XYZ 3D Printer
Torque is listed for the 17HS4023 at 42 Ncm in the description. As I investigated further, I found that every other source for this stepper listed its torque as 14 nCM, so this stepper did not perform well for my application. It's less than three times as much!.
It does exactly what was Cables of good quality are included. Easily connect the Ender 3 printer to your computer.
This is the third one I purchased For my current ender 3 pro project I purchased three smaller stepper wheels. One was for the MDD direct drive, one was for the bmg clone to reduce weight, and two were so I can have matched sets of lead screws on both axes. As far as these applications are concerned, they are perfect. The 5 pack is a great deal for quality motors, and I'm going to get them shortly so I will have a few as well. Despite the fact that the cables that come with each motor are a bit more robust and thicker gauge than the ones that come with the motor, I prefer to use Steppers like these can be used as drop-in replacements for standard NEMA 17 motors.
The weight on the hot end assembly is significant. Although the direct drive upgrade is excellent, it adds a lot of weight. A hot end with an extra degree of movement, for instance, can affect the acceleration and movement of the print head and thus the 3D print. As a result of it, the stepper's weight reduced by 2/3rds, and it worked perfectly without me having to re-calibrate it The calibration of the electronic system It's that simple! You don't have to get me wrong, I do plan to do online The steps tuning that I will take following the installation of the E3D V6 all-metal hot end (with the 3D Passion nozzle and heat break system). You should not be concerned with the cable management in the picture since it With Fusion360, I'm setting up the drag chain setup to handle all of Thanks so much! Update
As the stepper motor runs a little hot, I replace the tissue tape with thermal tape (removed the tissue tape from the stepper motor and replace it with thermal tape).
The video is not clipped or skipped. This gets pretty hot when using it, so it would be wise to get a fan. Plug and play with Ender 3 since wiring is direct. Use the adapter at your own risk. The program has only been running for a few hours, I will update it Nothing new has happened since it was last updated.
The Vref on the CREALITY v4 was properly set. TCM2208 drivers on 2 boards (If you're paranoid, use 30% safety margin It is recommended that the safety margin be 20% for 67VDC. A power supply of 85VDC is required You are reading 1. NOW, I'm going to start with 1. I want to make it clear that 2 or above = FRIED DRIVER. To calculate for any driver and motor set up for any safety margin, click the link below. Currently I have no overheating issues with the motor right out of the box. I decided not to use a heatsink since it was fine right out of the box. I use this pancake motor on my E3DV6 Direct drive setup it attaches to my BMG style extruders quite easily. In the future I will most definitely purchase more of these to build CNC/ 3D printers.
By using a smaller motor on the printer, we were able to use the full range of motion of the x axis (the stock motor would strike the frame unless the x axis dimensions were reduced in firmware/slicers). Despite its powerful torque, it stays pretty cool during operation, so the gear extruder can drive itself and not miss any steps. I will also save a significant amount of weight off the direct drive/hotend assembly by using a smaller motor, so I am able to print faster and at a higher quality than I was able to with my There have been couple hundred hours of prints on the motor so far, and it has continued to work excellently.
It's great to have a stepper like this. There are half the number of steps in this type as in the "normal" ones. The stepper motor I used had to be mounted onto a small speaker with manual volume control for a project I was working on. My Arduino Nano can control the device using an IR remote now (with an Arduino Nano I can use an IR remote ). The full version of this article is A different size stepper was causing the speaker to tip forward during playback. This one does not do that, making it a great investment.