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Dear,
We have a need of motor driver in the medical ventilator, the motor is 24VDC, the highest speed is 40000rpm, is there any recommendation for the IC selection.
Thanks and best regards.
Leon
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Hi @leonkuang,
The motor with hall sensor, but we want to use sensorless control
Yes, Sensorless FOC control is possible with EVAL-M1-101T but it does not support the HALL sensor
We are using the uart to communicate with the MCU to set or get the motor speed.
Yes EVAL-M1-101T has a dedicated user UART with that you will be able to control and fetch the speed of the motor
You could refer to iMOTION – MCE – Software Reference Manual v1.3 section 2.3 ( User UART) for commands.
Please let us know if any further clarifications are needed.
Thanks,
Krupashankar
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Hi @leonkuang,
Thanks! for posting in Infineon Community.
For the given motor operating voltage of 24V DC, you could consider using the below control and power board
EVAL-M1-05F804R - 3 Phase Inverter (Powerboard) Max power 240W( Without Heat Sink) Input 6V-30V DC
EVAL-M1-101T - Control Board ( FOC Control)
Could you please let us know further details on motor maximum current, Motor parameters, and Power requirements of the application this will help us in suggesting a suitable control and power board for your application?
Thanks,
Krupashankar
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Dear Krupashankar,
Thanks for your reply.
The following is our motor parameter
The another thing I want to know whether the supply of ICs has any problem.
Thanks,
Leon
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Hi @leonkuang,
For the given motor parameters you could consider using the two boards which we have shared
Could you please provide more details of the motor and application
- Sensored or sensorless control
- PMSM or IPMSM
- Motor Datasheet
- Number of peripherals for communication
In case if you need more peripherals you can consider using EVAL-M1-301F (Control board) Supports dual core and has more peripherals and dedicated MCU for other operation
Ques: The another thing I want to know is whether the supply of ICs has any problem.
For IC availability could you please contact your local distributor?
Thanks,
Krupashankar
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Dear Krupashankar,
The motor datasheet is attached. The motor with hall sensor, but we want to use sensorless control.
Our product is home use ventilator, it uses motor to control the output pressure, while using the speed of motor need to change rapidly to keep target pressure, or change the output pressure rapidly during user from inhalation to exhalation.
We are using the uart to communicate with the MCU to set or get the motor speed.
Thanks.
Leon
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Hi @leonkuang,
The motor with hall sensor, but we want to use sensorless control
Yes, Sensorless FOC control is possible with EVAL-M1-101T but it does not support the HALL sensor
We are using the uart to communicate with the MCU to set or get the motor speed.
Yes EVAL-M1-101T has a dedicated user UART with that you will be able to control and fetch the speed of the motor
You could refer to iMOTION – MCE – Software Reference Manual v1.3 section 2.3 ( User UART) for commands.
Please let us know if any further clarifications are needed.
Thanks,
Krupashankar
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1.Why does the use of FOC control for the back EMF trapezoid not reduce noise and efficiency? In my understanding, the back-EMF is trapezoidal, which makes it easier to detect the zero-crossing point, and it seems to be able to control FOC
2.For my customer's motor, it has low inductance and low resistance. If the FOC control is performed, the over-current protection will be triggered when starting. I want to know if the starting current is very large due to low inductance and low resistance? So can the use of trapezoidal wave control solve the problem of large starting current? why?
3., And the back-EMF coefficient Ke I measured is also very small.If the BEMF of the motor itself is very small, will it make it impossible to use the FOC control mode (due to the inability to change the direction normally)
4.In the FOC control, I know that the BEMF constant and motor phase resistance is very important ,But I don't know how they affect the work of the motor, can you explain it to me in detail?
Thank you again for your kindly help!