Technically stepper motor driver circuit is a Decade Binary Counter circuit. The advantage of this circuit is, it can be used to drive stepper motors having 2-10 steps. Before going any further let’s discuss more about the basics of stepper motor. The name of this motor is given so because the rotation of shaft is in step form which is different from DC or any other motor. In other motors the speed of rotation, the stop angle are not in complete control unless necessary circuit is inserted.
Stepper Motor 5V 4-Phase 5-Wire & ULN2003 Driver. The bipolar stepper motor usually has. Stepper Motor and Stepper Motor Driver Board ULN2003 for.
This non-control is present because moment of inertia, which is simply a character to start and stop on command without delay. Consider a DC motor, once its powered the speed of motor increases slowly until it catches the rated speed. Now if a load is put on the motor, the speed decreases over the rated and if load is further increased the speed further decreases. Now if the power is turned off the motor does not come to halt immediately as it will have moment of inertia, it stops slowly. Now consider this is a case in a printer the paper outflow does not stop in time, we lose paper every time we start and stop. We need to wait for the motor to pick the speed and due time the paper is lost. This is unacceptable for most of the control systems, so to solve this kind of problems we use stepper motors. The stepper motor does not work on constant supply.
It can only be worked on controlled and ordered power pulses. Before going any further we need to talk about UNIPOLAR and BIPOLAR stepper motorS. As shown in figure in a UNIPOLAR stepper motor we can take the center tapping of both the phase windings for a common ground or for a common power. In first case we can take black and white for a common ground or power. In case 2 black is take for a common.
In case3 orange black red yellow all come together for a common ground or power. In BIPOLAR stepper motor we have phase ends and no center taps and so we will have only four terminals. The driving of this type of stepper motor is different and complex and also the driving circuit cannot be easily designed without a microcontroller.
The circuit which we designed here can only be used for stepper motors of UNIPOLAR type. The power pulsing of UNIPOLAR stepper motor will be discussed in circuit explanation.
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 The figure shows the circuit diagram of two stage stepper motor driver. Now as shown in the circuit diagram the 555 circuit here is to generate clock or the square wave. The frequency of clock generation in this case cannot be kept constant so we need to get variable speed for the stepper motor. To get this variable speed a pot or a preset is paced in series with 1K resistor in branch between 6 th and 7 th pin. As the pot is varied the resistance in the branch changes and so the frequency of clock generated by 555. In the figure the important thing is only the third formula. You can see that the frequency is inversely related to R2 (which is 1K+220k POT in the circuit). So if R2 increases the frequency decreases.
And so if the pot is adjusted to increase the resistance in the branch the frequency of clock decreases. The clock generated by is fed to DECADE BINARY counter. Now the decade binary counter counts the number of pulses fed at the clock and lets the corresponding pin output go high. For example if the event count is 2 then Q1 pin of counter will be high and if 6 is count the pin Q5 will be high. This is similar to however the counting will be in decimal (ie., 1 2 3 4 9) so if the count is seven only Q6 pin will be high. In binary counter Q0,Q1 and Q2 (1+2+4) pins will be high. These outputs are fed to transistor to drive the stepper motor in orderly way.
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.
Kupala Dc Motor Driver Circuit 200w
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. The diodes placed here are to protect the transistors from inductive spiking of the stepper motor winding. If these are not placed one might risk blowing the transistors. Greater the frequency of pulses,greater the chance of blow up without diodes.
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Working of Stepper Motor Driver For better understanding of step rotation of stepper motor we are considering a four stage stepper motor as shown in figure. Now consider, for an example, all coils are magnetized at a time.
The rotor experiences forces of equal magnitude from all around it and so it does not move. Because all are of equal magnitude and are expressing opposite direction. Now if the coil D only magnetized, the teeth 1 on rotor experiences an attractive force towards +D and teeth 5 of rotor experiences a repulsive force opposing the –D, theses two forces are represents an additive force clock wise. So the rotor moves to complete a step. After that it stops for the next coil to energize to complete next step. This goes on until the four steps are complete. For the rotor to rotate this cycle of pulsing must be going on.
As explained before, the preset is set to a value for a certain frequency of pulses. This clock is fed to the decade counter to get regular outputs from it. The outputs from decade counter are given to transistors to drive the high power coils of stepper motor in sequential order. The tricky part is, once a sequence is complete say 1, 2, 3, 4 the stepper motor completes four steps and so it is ready to start again however the counter has a capacity to go for 10 and so it goes on without interruption. If this happens the stepper motor must wait till the counter completes its cycle of 10 which is not acceptable. This is regulated by connecting RESET to Q4 so when counter goes for five count it resets itself and starts from one, this starts the sequence of stepper. So this is how the stepper continuous it’s stepping and so the rotation happens. For a two stage the RESET pin must be connected to Q2 for the counter to resets itself in the third pulse.
This way one can adjust the circuit to drive ten step stepper motor.