3HAB8101-11/05D ABB Robot servo controller

Description

If you use the Pololu AVR library, the equivalent function call would be set_m1_speed(191) (see the Pololu AVR
command reference [http://www.pololu.com/docs/0J18/7] for more information).
You can see that the M1B output is high 75% of the time and low 25% of the time, and the M1A output is low 100%
of the time. While M1B is high, the motor is being driven forward, and while M1B is low, the motor is braking. The
net effect is that the motor speed is approximately 75% of its full speed at the supplied motor voltage.
The green line shows the current flowing through the motor. During the high period of M1B’s duty cycle, the
current ramps up as the motor draws current from the driver, and during the low period of the duty cycle the current
drops as the motor brakes. The motor used for this test is particularly noisy at high speeds (note that the current draw
is not always the same from one PWM cycle to the next).

Application Note: Using the Motor Driver on the 3pi Robot and Orangutan Robot
Controllers

M1_reverse(63);
Motor outputs M1A (blue) and M1B (yellow) for driving “reverse” at 25% duty cycle (OCR0B=63, OCR0A=0). The green channel shows
motor current.
If you use the Pololu AVR library, the equivalent function call would be set_m1_speed(-63). (see the Pololu AVR
command reference [http://www.pololu.com/docs/0J18/7] for more information).
Here the M1A output is high for 25% of the time and low for 75% of the time, and the M1B output is low 100% of
the time. While M1A is high, the motor is being driven in reverse, and while M1A is low, the motor is braking. The
net effect is that the motor speed is approximately 25% of its full speed at the supplied motor voltage.
The green line shows the current flowing through the motor. Note that the zero point of this has been moved up
since the current is flowing in the opposite direction when the motor is moving in reverse. At lower speeds, the
motor noise decreases and the current draw does not change much from one PWM cycle to the next.

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