PCBMotor - 2.6 million steps per revolution

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PCBMotor - 2.6 million steps per revolution

Post by limor » Thu Jun 02, 2011 10:33 pm

Post by limor
Thu Jun 02, 2011 10:33 pm

Just came across their adwords campaign. Can this replace servo boxes for hobby robotics applications ?

Image
Image

Danish technology company, PCBMotor ApS, says it recently set a new performance record in printed circuit board (PCB) motors. In an experiment using its latest controller prototype, the company applied short micro-pulses (µpulses) to drive the motor and achieved a record 2.6 million equivalent steps per revolution.

“We’ve known for some time that PCBMotors are capable of realizing very high resolutions. And now we’ve proven it,” says Henrik Stæhr-Olsen, CEO of PCBMotor. “The driver sets the limit for what can be achieved and we can now show that resolutions over 2.5 Million µpulses per revolution are possible.”

The recently conducted experiment consisted of 20 100 µpulse bursts, initiated manually via a USB connection to the motor controller, which resulted in the movement of a pointer, with a needle attached, against a linear code strip mounted on a ruler.

“The resulting 2000 µpulses moved the needle seven ruler-lines, which equates to 2 850 000 µpulses per revolution,” explains Stæhr-Olsen, referring to a video of the experiment that documents the results.

The prototype controller, built for the experiment, is powered from the USB port and handles a range of settings for the motor such as pulse length and interval, drive voltage, and the number of µpulses and digital steps. Operating in open-loop mode, it also has on-board memory (EEPROM) for storing the drive settings.

When in position, the PCBMotor and driver can be completely powered down, removing all mechanical and electrical interference (noise).

“The experiment shows that the inherent holding torque of the motor is sufficient to stop and hold its position when the power is turned off―unlike a stepper motor. And this is very important for high-precision applications sensitive to even the smallest movement or vibration,” says Stæhr-Olsen.

The available holding torque depends on the size of the motor and is typically 35 Nmm for a standard 30 mm motor.

PCBMotor’s technology integrates accurate motors and the motor controller directly onto a printed circuit board.

For more information, visit PCBMotor.
Just came across their adwords campaign. Can this replace servo boxes for hobby robotics applications ?

Image
Image

Danish technology company, PCBMotor ApS, says it recently set a new performance record in printed circuit board (PCB) motors. In an experiment using its latest controller prototype, the company applied short micro-pulses (µpulses) to drive the motor and achieved a record 2.6 million equivalent steps per revolution.

“We’ve known for some time that PCBMotors are capable of realizing very high resolutions. And now we’ve proven it,” says Henrik Stæhr-Olsen, CEO of PCBMotor. “The driver sets the limit for what can be achieved and we can now show that resolutions over 2.5 Million µpulses per revolution are possible.”

The recently conducted experiment consisted of 20 100 µpulse bursts, initiated manually via a USB connection to the motor controller, which resulted in the movement of a pointer, with a needle attached, against a linear code strip mounted on a ruler.

“The resulting 2000 µpulses moved the needle seven ruler-lines, which equates to 2 850 000 µpulses per revolution,” explains Stæhr-Olsen, referring to a video of the experiment that documents the results.

The prototype controller, built for the experiment, is powered from the USB port and handles a range of settings for the motor such as pulse length and interval, drive voltage, and the number of µpulses and digital steps. Operating in open-loop mode, it also has on-board memory (EEPROM) for storing the drive settings.

When in position, the PCBMotor and driver can be completely powered down, removing all mechanical and electrical interference (noise).

“The experiment shows that the inherent holding torque of the motor is sufficient to stop and hold its position when the power is turned off―unlike a stepper motor. And this is very important for high-precision applications sensitive to even the smallest movement or vibration,” says Stæhr-Olsen.

The available holding torque depends on the size of the motor and is typically 35 Nmm for a standard 30 mm motor.

PCBMotor’s technology integrates accurate motors and the motor controller directly onto a printed circuit board.

For more information, visit PCBMotor.
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Re: PCBMotor - 2.6 million steps per revolution

Post by Antonelli » Sat Jun 04, 2011 8:17 am

Post by Antonelli
Sat Jun 04, 2011 8:17 am

Hi all,

this is my first post here. I normally check your forum because I have a general interest in robotics, I will build one if I will find the time :-).

However, I also came across the PCBMotor adwords campaign, they are almost a static content at Hack a Day and I found it interesting.
I think that the torque is too small to replace servo boxes, but maybe for mini robots or stacking a number of them, they can be very thin.

Another application is to use them, instead of stepper motor, into a 3D printer like the Thing o Matic. They seems to a have better resolution and no backlash.

Another thing that is interesting is that probably the same technique can be used to create linear actuators simply positioning the stators along a line.
Hi all,

this is my first post here. I normally check your forum because I have a general interest in robotics, I will build one if I will find the time :-).

However, I also came across the PCBMotor adwords campaign, they are almost a static content at Hack a Day and I found it interesting.
I think that the torque is too small to replace servo boxes, but maybe for mini robots or stacking a number of them, they can be very thin.

Another application is to use them, instead of stepper motor, into a 3D printer like the Thing o Matic. They seems to a have better resolution and no backlash.

Another thing that is interesting is that probably the same technique can be used to create linear actuators simply positioning the stators along a line.
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