Motor Control Unit PCB Design With JLCPCB

Motor control unit; provides most efficient vehicles by controlling motor the best way. It consists of control and power card. It consists of control and power card.

As a community, our ambition is to make the most efficent vehicles powered by alternative energy sources for a better future. Our club; which was founded by Yıldız Technical University students, continues it’s legacy with the intense efforts of the students from different disciplines. Our motto is “Save Your Energy”, showing we aim to add value to the World technically and socially.

The AESK team takes part in national and international competitions in line with its ambitions and objectives. Vehicles produced by us took part in competitions such as Formula G and Efficency Challenge which are organized by TÜBİTAK. Aforementionded vehicles, which in addition works with solar and electric energy, have achieved a great success by getting degrees from the competitions.

As a team, which our ambition is to surpass ourselves, countinue to work with great enthusiasm and devotion. During these processes, JLCPBC has been one of our best supporters in reaching our goal. After all the steps were completed, we uploaded it on JLCPCB’s website and have it made custom by using this website: https://jlcpcb.com/RAT .

Also you can simply order your SMT product: https://cart.jlcpcb.com/quote?fromDemo=yes&_ga=2....

Motor control unit; provides most efficient vehicles by controlling motor the best way. It consists of control and power card. Control and power card are connected each other with headers. All this boards are produced by JLCPCB.

In the control card section, information from hall sensors, encoder, temperature sensor, voltage and current sensors is received. The control card provides communication with other units with the CAN communication protocol. Switching signals are generated, thereby enabling the MOSFETs to switch. Thanks to the microprocessor in the control card, the control algorithm is processed.

In the power board section, the battery voltage is processed and sent to the motor. It is supplied with DC voltage from the battery, converts this voltage to AC and supplies the PMSM motor. Thanks to the current sensors in the A and B phases, the current values are read and sent to the control card. Thanks to MOSFETs, the appropriate PWM is created according to the signals sent by the control card by making switching. There are 3 gate drivers to be able to switch MOSFETs, these gate drivers are connected to MOSFETs with headers. The capacitors provide instantaneous power to start the motor.