- BLDC TOOL SOFTWARE CONTROL HOW TO
- BLDC TOOL SOFTWARE CONTROL DRIVERS
- BLDC TOOL SOFTWARE CONTROL PLUS
Because the units integrate sensorless technology for determining the rotor’s position, there is no need for external Hall sensors, which leads to greater reliability and lowers costs. TI’s new BLDC motor drivers’ control algorithms, combined with their high level of integration, enable the devices to manage functions including motor fault detection and also to implement protection mechanisms necessary to ensure system reliability. Sensorless Control Eliminates the Need for Hall Sensors Meeting designers’ needs for faster motor response while shortening the overall design cycle will be an important step forward for next-generation industrial systems."
BLDC TOOL SOFTWARE CONTROL DRIVERS
Once up and running, both motor drivers can receive their speed commands through analog voltage, a PWM input, or via I2C command.Īs per Noman Akhtar, senior research analyst, Omdia, “The need for real-time motor control is more critical than ever, thanks to broad-reaching trends like power efficiency and automation, as well as increasing demand for quieter motors." He goes on to state that "A growing number of industrial systems are transitioning from AC induction to BLDC motors, which are more power-efficient but require complex hardware and optimized software designs to deliver high performance. The algorithm configurations and register settings can be stored in non-volatile EEPROM, allowing the motor drivers to operate independently after they have been configured. Through the internal integration of many of the discrete components necessary to effect control, including the power MOSFETs, use of the MCF8316A or the MCT8316A can save designers up to 70% of the board space that conventional solutions would require.
BLDC TOOL SOFTWARE CONTROL PLUS
Both devices incorporate three internal 1/2-H bridges featuring a maximum 40V capability with high side plus low side RDS(ON)s of 95mΩ. TI asserts that the devices will enable designers to “spin” a BLDC motor in 10 minutes.īoth the MCF8316A and the MCT8316A provide single-chip code-free sensorless solutions for 12V to 24V BLDC motors with 8A peak current capability. Finally, the optimum parameters can be exported for storage or to replace the original project parameters.Texas Instruments’ (TI) MCF8316A and MCT8316A brushless DC (BLDC) motor drivers provide a battery of control algorithms making it unnecessary for engineers to independently develop the necessary motor-control software, saving months of design time. In addition, parameters recorded by the virtual oscilloscope can be saved as data files or visually in order to record the adjustment process.
![bldc tool software control bldc tool software control](https://i1.rgstatic.net/publication/319873677_An_overview_on_state-of-art_and_future_application_fields_of_BLDC_motors_Design_and_characterization_of_a_PC-interfaced_driving_and_motion_control_system/links/5e7b16c94585152fc0ec8c69/largepreview.png)
The control and operating parameters can be adjusted in real time by observing the motor operating conditions to achieve an optimum operating state.
BLDC TOOL SOFTWARE CONTROL HOW TO
This part will show users step by step how to import motor characteristics, hardware parameters, control methods, control and protection parameters.