Stepper Motor Driver Controller Integrated Board Forward/Reverse Pulse Speed Angle Control Module PLC Serial Communication for NEMA 17 23 Motor

The media could not be loaded. Admittedly I am a bit under-experienced when it comes to stepper motor applications and also their associated controllers so keep that in mind with this review please.So anyways this stepper drive controller is awesome with its many uses. You can set forward speed, back speed, steps (Essentially Distance Traveled.) Multiple pattern types (Pulses, Forward and Back, etc.) how many times it repeats a pattern up to infinitely, control the motor with the potentiometer, control it with buttons only when held or toggle on and off and the list goes on.These are all features built right into the board and the applications for it can go on and on. It really is awesome, however it takes a bit of a steep learning curve at first to decipher everything with the menus and such. I took about an hour to get the hang of everything, hopefully though I can save you that time by a large part.My first major issue was trying to figure out why there were two completely different tables on the instructions that seemed to be accessed the same way in the menu and had overlapping values meaning they were impossible to set right...Well that was a misunderstanding on my part. When you press the potentiometer in the menu it originally brings you into is the ‘Parameter’ menu so you need to look at the parameter table just to start off.The default value you’ll see come up is F-01 which is the associated value on the parameter table. By rotating the potentiometer you can change the value from F-01 through F-13. And those will all correspond to what they do on the “Parameter Table” specifically. For example Rotating the potentiometer to F-03 brings up your forward speed value under it.To select and change it you click the potentiometer in and it will cycle you through the changeable values with each click. Rotating the potentiometer up and down will increase or decrease the highlighted value. Click it enough and you’ll Get back to the F-XX value that can be changed again to access the other Parameter options. Or at any point you can press and hold the potentiometer for 3 seconds and be taken back to the starting menu.F-05 allows you to Change Reverse Speed and so forth…Now the secondary table which is the “Work Mode” table. This is actually a submenu sort of selection as part of the “Parameter Menu.”When you first press the potentiometer in and you are brought into the parameter selection menu and it will be on the default value of F-01. And will have a value below it of likely P-01. But can be any P-XX value in general.That P-XX value is the value to change the “Work Mode” so in other words that P-XX value is what corresponds to now specifically the “Work Mode Table.” So to change it, first make sure you are on F-01 and then press the potentiometer in and change to P-XX value to 01-09 to correspond with the work mode you want. Then press the potentiometer in until it takes you back to the main display.So for example F-01 (1st on the function table) with a value of P-02 puts the board into a work mode where the motor spins when you hold the CW button. And goes the opposite way if you hold the CCW button.If you go to F-01 / P-03 it will now do the same thing but stay on after the button is pressed until you press the button again. The stop button. Or a button to go the opposite direction.The other Work Modes are much more advanced and too much to try and go into here. Just reference the tables and maybe play with them a bit to get an idea.In the “Work Mode Table” when it says something like it will continue for “F-06” loops; what it is saying is it will loop the amount of times you set the value to in the F-06 “Parameter Menu.” Same for F-02 (Pulse Number/Distance) and so forth.The work modes have no value to be set themselves, everything they use is from the Parameter (F-02 - F-13) menus. Remember that and it will save you a ton of time and confusion.I have included some pictures of the instructions with this review for reference in case you lose yours or just want something to get an idea of this all before buying so I hope that will be of help :)Another issue I had was trying to figure out why some of the work modes weren't doing forward and back and such like they were supposed to. Another tip is you might need to set your forward and back position delay (F-07 and F-08) to something other than 00. I was having issues with it at that value not progressing to the next Phase of the Work Mode. For example it goes forward then just stops instead of going forward, back, forward, back and so forth.I think that it’s because 00 is handled as infinite on this board so it was never finishing the phase? No idea. But again any value other than 00 works.Other than that a couple of other tips is if you are running this a lot you might want to cool it a bit with a fan as the controller can get hot under continuous duty. Alternatively adjusting the current level down using the potentiometer is good to help keep it cool.The value should be whatever the lowest you can go with your motor where it still works for what you need. A sign of it not having enough power would it be not turning at all, or skipping steps which is usually heard with a clicking noise.Everything aside I am excited to put this controller to use for some projects of mine. I am very happy with it. Hopefully the info here will be useful, thanks for reading!

My husband is a gadget geek and loves making anything Halloween related. When I saw this Stepper Motor Driver Controller Integrated Board, I knew he needed to try it. Robotic Halloween props are a specialty of his, as he has made skeletons that play guitars and a fortune telling that moves her head.He found this stepper motor to be very versatile. It is great value for the money, being very budget-friendly. He has tried several stepper motors, and this is one of the better ones.He has found this one is best for lightwork and is super easy to control with precise movements. It is highly reliable, with fantastic speed control. It is a quick start with no delays and accurate positioning. The low torque speed provides a good low-speed workflow.The possibilities are endless with this stepper motor. Currently, he is working on a werewolf for a Halloween light show that moves. While it takes a long time to build the props, the stepper motor is one thing that makes them come to life so our guests will have the fright of their life.

The media could not be loaded. As with a lot of tech gadgets you can buy on Amazon the documentation (provided as QR code link) is very basic but it's not too hard to figure out. It uses the usual long press (3-4 seconds)/ short press / rotate encoder method of changing parameters.This is a handy motor tester with 9 different operating modes. One mode is direct manual control with the rotary encoder. The others initiate programmed movements in the CW or CCW direction with customizable pulses, delays and loop times. The seller should really include the documentation in the listing because there are a lot of parameters which can be set.Current consumption of the digital electronics is about 35 mA. The controller will turn on with a voltage as low as 5V but to see pulses on the outputs it needs to be at least 8.5V. The documentation says it can output up to 4A on the motor outputs - and I got up to 2A with the motor and power supply I used.There's a detachable terminal block for power which is a nice touch. Getting at the RS485/UART interface is not difficult - just use a thin knife to break away the white silastic blobs from the shell and pull out the back PCB out of the pin sockets connecting it to the front PCB.I've attached a demo of the controller ramping up a small motor from 20 to 700 RPM and some oscilloscope traces of the A+/A- outputs (with no load). The second trace was taken when operating in mode "P1" where the encoder directly controls the output pulses - hence the irregular spacing of the pulses.

This thing works great and is easy to wire. Plenty of canned cycles for whatever use you may have. Control + Driver all in one.Only big miss is that it won't hold the stepper "braked" when idle (like say a CNC machine). You can kind of cheat with a very long delay on some of the cycles, but that's kind of annoying. If they were to release a version with a brake, it'd be an easy five stars. Well worth the money.

The controller tends to overheat after 5 mins of use when the current limiter is adjusted to achieve a usable output. It is in a 90F garage and driving a 3nm stepper motor. The interface and programming all work as intended and are easy to use. Wiring was simple. Would not suggest this controller if you need any more than 2A current.