- Stepper Motor Driver Chip
- Ic Driver Motor Steppers
- Ic Driver Motor Stepper Motor
- Stepper Motor Circuit Diagram
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Stepper Motor Driver Chip
Stepper motors are everywhere in electronics these days. There are two main types of stepper motors: 1. Bipolar motors. These have two coils and are controlled by changing the direction of the current flow through the coils in the proper sequence. These motors have only four wires and cannot be connected to this kit. See our Kit 1406 for a Bipolar Stepper driver Kit. 2. Unipolar motors. These have two center-tapped coils which are treated as four coils. These motors can have five, six or eight wires. Five-wire motors have the two center-taps commoned internally and brought out as one wire (Fig 1). Six-wire motors bring out each center-tap separately. The two center-taps need to be commoned externally (Fig 2). Eight-wire motors bring out both ends of each coil. The four “center-taps” are joined externally to form one wire. In each case the center-tap(s) are connected to a positive motor power supply. Unipolar motors may be connect as bipolar ones by not using the ‘+’ wires. A stepper motor has no brushes or contacts. It is basically a synchronous motor with the magnetic field electronically switched to rotate the armature magnet around. The Internet is where to get all the explanation about steppers. Just google ‘stepper motor’ and you will find tens of sites. In particular, look for ‘Jones on Stepper motors’ (it comes up top of the list when I did it just now) and read it. If you look at the other references you will find that the circuit in this kit has been around for many years in various forms. The latest publication was in Silicon Chip, 5/2002, and I have based this circuit on it. |
This controller works in either free-standing or PC controlled mode. In free-standing mode an internal square-wave oscillator based on IC2:B of the 4093 supplies timing pulses to the OSC output. The frequency of these pulses and thus the speed of the stepper motor is controlled by the trimpot VR1 (100K.) A series 1K resistor controls the maximum frequency. You may increase the value of this resistor for your own needs. These pulses are fed into the STEP input which is buffered and inverted by IC2:D. This helps prevent false triggering. Similarly, IC2:C buffers and inverts the DIRection input. A SPDT taking the input to +5VDC or ground controls the direction of rotation. IC3:C and D (4030 or 4070 exclusive OR gates) invert the outputs available at Q and /Q outputs of each of the flip-flops (FF) IC4:A and IC4:B. The incoming step-pulses clock the FF, thus toggling the Q & /Q outputs and this turns the MOSFET’s on and off in sequence. The IRFZ44’s have a low on-resistance and can deliver up to 6A each without needing a heatsink. Power to the stepper motor is connected to V+ and GND terminals as shown on the overlay. There is a separate power supply, KITV, to the 78L05 to power the IC’s. 9V – 12VDC will be sufficient. R2/C2 form a low-pass filter to filter fast-rise switching transients from the motor. Note that some stepper motor texts say to use a 4070 instead of a 4030. We have not worked out why this is. Certainly our testing with the 4030’s showed no problems. I would like to hear from anyone who knows why this advice is sometime given. In computer-controlled mode use the three pads with pins DIR, STEP and GND. Switch the SPDT switch to EXTernal. The direction SPDT has no effect in external mode. |
Stepper Motor Types
(Fig 1). Six-wire motors bring out each center-tap separately. The two center-taps need to be commoned externally (Fig 2). Eight-wire motors bring out both ends of each coil. The four “center-taps” are joined externally to form one wire. In each case the center-tap(s) are connected to a positive motor power supply. In |
Assembly
Note that after further testing we have changed the values of the trimpot and R1 from that shown on the PCB overlay. If you need to use a heatsink for the MOSFET’s then you will need insulating washers and bushes on each one to make sure they are electrically isolated from each other. |
Connecting Stepper Motor
It is always fun connecting the motor correctly. Usually the motor has some indication of which wires are which. If not then use a multimeter to measure the resistance between pairs of wires and determine the layout. Connect the wires to the terminal block Apply power. Make sure the SPDT switch is set to INTernal. See if the motor is turning. If not then swap M1B & M2B wires only and check again. Now it should be turning. VR1 will vary the stepping speed. |
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Ic Driver Motor Steppers
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Ic Driver Motor Stepper Motor
Stepper Motor Circuit Diagram
Circuit Components
- +9 to +12 supply voltage
- 555 IC
- 1KΩ, 2K2Ω resistors
- 220KΩ pot or variable resistor
- 1µF capacitor, 100µF capacitor (not a compulsory, connected in parallel to power)
- 2N3904 or 2N2222 (no. of pieces depend on type of stepper if it’s a 2 stage we need 2 if it’s a four stage we need four)
- 1N4007 (no. of diodes is equal to no. of transistors)
- CD4017 IC, .
Stepper Motor Driver Circuit Diagram and Explanation
In figure we are seeing a four stage stepper motor driver circuit very similar to the two stage one. In this circuit, it can be observed that the RESET connected to Q2 before is now moved to Q4 and the opened Q2 and Q3 pins are connected to another two transistors to get a four pulse driving set to run the four stage stepper motor. So it is clear that we can drive up to ten stage stepper motor. However one should move the RESET pin up in order so to fit in driving transistors in place.