REWINDING a DC MOTOR (RS-540 Brushed Type)
by korrekaminos123 in Circuits > Robots
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REWINDING a DC MOTOR (RS-540 Brushed Type)
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REWINDING A RS-555 DC MOTOR (similar a RS-540 motor) to get much more speed in r.p.m. How to Upgrade DC Motor and Increase Speed.
The most important thing is the brushes that must be carbon-copper (metal-graphite), very important to support a large current; If they are carbon-graphite only, they will have enough resistance so they will heat up and wear out very quickly.
Video:
In spanish: http://reparar-cochesrc.blogspot.com/
http://reparar-cochesrc.blogspot.com/2017/10/rebob...
This Is a 555 Slow Motor: 1100 Rpm at 7.5V
![2]_1.jpg](/proxy/?url=https://content.instructables.com/FU3/V7VO/K84NI213/FU3V7VOK84NI213.jpg&filename=2]_1.jpg)
Opening the Motor
Rotor and Brushes
![4]_1.jpg](/proxy/?url=https://content.instructables.com/FEA/0ZOU/K84NI218/FEA0ZOUK84NI218.jpg&filename=4]_1.jpg)
Cutting the Windings
![7]_1.jpg](/proxy/?url=https://content.instructables.com/FLI/25HW/K84NI21E/FLI25HWK84NI21E.jpg&filename=7]_1.jpg)
The winding is 160 turns and the wire is 0.25mm diameter. Once I have counted the turns of the first winding, I cut the wires of the rest of the windings.
Winiding Diagram
First Winding
![10]_1.jpg](/proxy/?url=https://content.instructables.com/FHJ/CYXK/K84NI21G/FHJCYXKK84NI21G.jpg&filename=10]_1.jpg)
The new wire is 0.65mm diameter and 9 turns for each winding.
Soldering
![12NG A DC MOTOR (RS-540 brushed type).mp4_snapshot_00.59_[2020.03.24_17.25.16]_1.jpg](/proxy/?url=https://content.instructables.com/F1W/LAYP/K84NI21P/F1WLAYPK84NI21P.jpg&filename=12NG A DC MOTOR (RS-540 brushed type).mp4_snapshot_00.59_[2020.03.24_17.25.16]_1.jpg)
As there are 5 poles in the rotor, between the brushes always two windings in series (18 turns) remain.
Windings Are Finished
![13A DC MOTOR (RS-540 brushed type).mp4_snapshot_01.06_[2020.03.24_17.25.39]_1.jpg](/proxy/?url=https://content.instructables.com/FOD/1XTC/K84NI21Y/FOD1XTCK84NI21Y.jpg&filename=13A DC MOTOR (RS-540 brushed type).mp4_snapshot_01.06_[2020.03.24_17.25.39]_1.jpg)
Mounting the Motor
![15NG A DC MOTOR (RS-540 brushed type).mp4_snapshot_01.18_[2020.03.24_17.26.25]_1.jpg](/proxy/?url=https://content.instructables.com/FJY/F20P/K84NI21Z/FJYF20PK84NI21Z.jpg&filename=15NG A DC MOTOR (RS-540 brushed type).mp4_snapshot_01.18_[2020.03.24_17.26.25]_1.jpg)
Motor Curves: Speed (rpm)
![18DC MOTOR (RS-540 brushed type).mp4_snapshot_01.30_[2020.03.24_17.27.27].jpg](/proxy/?url=https://content.instructables.com/FUY/GW63/K84NI220/FUYGW63K84NI220.jpg&filename=18DC MOTOR (RS-540 brushed type).mp4_snapshot_01.30_[2020.03.24_17.27.27].jpg)
According to the theory of operation of a DC motor, I have changed the ratio of turns of the wounds in 160/9 = 17
If you change the number of turns of the winding, no load speed (r.p.m.) and no load current and load current (A) are multiplied by the ratio (160/9 = 17): 17 * 1100 rpm = 18700 rpm 17 * 0.08 A = 1.36A
Curve Curves: Torque
![20 DC MOTOR (RS-540 brushed type).mp4_snapshot_01.41_[2020.03.24_17.28.11].jpg](/proxy/?url=https://content.instructables.com/FI8/FHFG/K84NI222/FI8FHFGK84NI222.jpg&filename=20 DC MOTOR (RS-540 brushed type).mp4_snapshot_01.41_[2020.03.24_17.28.11].jpg)
If you change the diameter of the winding wire, the no load and the no load current are same but the load current and the torque are multiplied by the ratio 0.65mm / 0.25mm = 2.6:
2,6 * 2,6 * Load Current 2,6 * Torque
Testing the Motor
![22 DC MOTOR (RS-540 brushed type).mp4_snapshot_01.53_[2020.03.24_17.28.56]_1.jpg](/proxy/?url=https://content.instructables.com/FQ2/JRDK/K84NI223/FQ2JRDKK84NI223.jpg&filename=22 DC MOTOR (RS-540 brushed type).mp4_snapshot_01.53_[2020.03.24_17.28.56]_1.jpg)
To check the result, I measure the voltage of the LiPo battery connected to the motor, no load current and the no load speed of the motor with an optical probe that obtains a ratio 1000 rpm --> 0,1 V
I have put a gear with a piece of aluminum foil reflecting light on the motor shaft.
Measure the Speed and Voltage
![23DING A DC MOTOR (RS-540 brushed type).mp4_snapshot_02.16_[2020.03.24_17.29.53]_1.jpg](/proxy/?url=https://content.instructables.com/FA9/CUDG/K84NI225/FA9CUDGK84NI225.jpg&filename=23DING A DC MOTOR (RS-540 brushed type).mp4_snapshot_02.16_[2020.03.24_17.29.53]_1.jpg)
Measure the No Load Current
![24DC MOTOR (RS-540 brushed type).mp4_snapshot_02.19_[2020.03.24_17.30.15]_1.jpg](/proxy/?url=https://content.instructables.com/F0L/7COC/K84NI22Z/F0L7COCK84NI22Z.jpg&filename=24DC MOTOR (RS-540 brushed type).mp4_snapshot_02.19_[2020.03.24_17.30.15]_1.jpg)
Result and Explanation
![25A DC MOTOR (RS-540 brushed type).mp4_snapshot_02.25_[2020.03.24_17.30.46]_1.jpg](/proxy/?url=https://content.instructables.com/FQ4/GI2K/K84NI23W/FQ4GI2KK84NI23W.jpg&filename=25A DC MOTOR (RS-540 brushed type).mp4_snapshot_02.25_[2020.03.24_17.30.46]_1.jpg)
The theory is fulfilled, but not exactly: we do not take into account other factors: the rotor core has losses, limit of the magnetic flux for that core, high temperature due to the increase in the current,....
160 turns ------> 9 turns
1100 rpm --------> 17000 rpm
0.08 A -----------> 1.64A
In spanish: http://reparar-cochesrc.blogspot.com/