Great question! Choosing the right motor for the dsPIC33CK LVMC Development Board involves considering your motor's voltage and current requirements. For a 2kW motor, ensure it operates within the board's 12 to 48 Volt range and doesn't exceed 10 Amps continuous current. If your motor demands higher current, up to 20 Amps, adding a fan or heatsink might be necessary. The board's versatility in supporting different motor control techniques, such as sensor-based or sensorless operations, allows for customization to meet specific application needs. Let us know if you need more help with this!
Hi there, thanks for your question. For this application, Low voltage MOSFETs have a much lower 'ON' resistance than IGBTs. MOSFETs are a better choice at higher switching frequencies and lower voltages and currents; IGBTs are a better choice at lower frequencies and higher voltage/current. These factors make MOSFETs ideal for switching power supplies and other applications that operate at about 100 kHz and at low current density.
Thanks so much for your question. Yes, the Microchip dsPIC33CK Low Voltage Motor Control (LVMC) Development Board is capable of running two BLDC motors simultaneously. The board features two independent motor control circuits, each capable of driving a single BLDC motor. The board also includes a variety of other features, such as integrated current sensing, voltage regulation, and communication interfaces, which make it an ideal platform for developing motor control applications. Let us know if this helps answer your question of if you need anything else.
Thanks for your question! The dsPIC33CK LVMC does not utilize MotorBench; instead, it incorporates a high-speed USB to UART interface for debugging and monitoring key parameters in control algorithms through graphical PC tools like X2C Scope or RTDM. This setup is designed to support intricate motor control projects efficiently. Hope this helps!
What should I chose for a 2kw motor
Great question! Choosing the right motor for the dsPIC33CK LVMC Development Board involves considering your motor's voltage and current requirements. For a 2kW motor, ensure it operates within the board's 12 to 48 Volt range and doesn't exceed 10 Amps continuous current. If your motor demands higher current, up to 20 Amps, adding a fan or heatsink might be necessary. The board's versatility in supporting different motor control techniques, such as sensor-based or sensorless operations, allows for customization to meet specific application needs. Let us know if you need more help with this!
Is it better use mosfet than igbt?
Hi there, thanks for your question. For this application, Low voltage MOSFETs have a much lower 'ON' resistance than IGBTs. MOSFETs are a better choice at higher switching frequencies and lower voltages and currents; IGBTs are a better choice at lower frequencies and higher voltage/current. These factors make MOSFETs ideal for switching power supplies and other applications that operate at about 100 kHz and at low current density.
Is there an application built which can run 2 BLDC motors at the same time?
Thanks so much for your question. Yes, the Microchip dsPIC33CK Low Voltage Motor Control (LVMC) Development Board is capable of running two BLDC motors simultaneously. The board features two independent motor control circuits, each capable of driving a single BLDC motor. The board also includes a variety of other features, such as integrated current sensing, voltage regulation, and communication interfaces, which make it an ideal platform for developing motor control applications. Let us know if this helps answer your question of if you need anything else.
Can I use dspic33ck LVMC with motorBence?
Thanks for your question! The dsPIC33CK LVMC does not utilize MotorBench; instead, it incorporates a high-speed USB to UART interface for debugging and monitoring key parameters in control algorithms through graphical PC tools like X2C Scope or RTDM. This setup is designed to support intricate motor control projects efficiently. Hope this helps!