Basebot modules

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Module description

Main code

Support modules

Motor

Motor voltage is translated to a PWM at 65kHz, where the average value corresponds to the set motor voltage. Current battery voltage is taken into consideration.

PWM = motorVoltage * MAX_PWM/(battery_voltage - voltageLoss)

The motor controller has a minimum pulse width. A minimum PWM is added to compensate if the motor voltage is not zero. The minimum corresponds to 0.4V motor voltage.

The motor current uses a HAL sensor ACS714; the zero is about 3.3V/2. Other nearby components may influence the values and should be used with caution.

The encoder uses an interrupt for every value edge. The velocity is estimated based on the timing difference from the last sample period to the newest edge.

Encoder values are available as

encoder.encoder[0..1]  A, unsigned 32-bit, counter of all edges detected. Positive is counterclockwise.
encoder.motorVelocity[0..1] Motor velocity (float) in radians per second before the gearbox. Positive is counterclockwise.
encoder.gear is the gearbox ratio (9.68)
encoder.pulsPerRev is the number of edges on a motor revolution (48)

If no edge is detected in a sample period, the time since the last edge is used, but only if this time gives a slower estimate.

The motor action is implemented in src/umotor.cpp in function motorSetAnchorVoltage(). The encoder estimate is implementer in src/uencoder.cpp.

Gyro and accelerometer

The sensor chip is an MPU9250. Sensor values are extracted from the chip at every sample time, but the values may be repeated if the sample time is faster than 1 ms.

The values are available as

imu2.gyro[0..2] for rotation velocity around axis x,y,z in degrees per second.
imu2.acc[0..2]  for acceleration along x,y,z. X is forward, Y is left, and Z is up.

The values are not compensated for the mounted position. Open the robot to see the device mounting.

(implemented in uimu2.cpp)

Display

The small O-LED display has one line (at the top) that the user can set.

It is implemented in src/udisplay.cpp.

Power

Power is managed in an attempt to avoid destroying the LiPo batteries.

The power is turned off when the battery voltage gets below 10 Volts.

To turn the power back on, press the power button. As long as the button is pressed, the power will stay on regardless of the battery voltage.

When the USB is connected and the power is off, the USB 5V will power the robot. Even the motors can run (slowly) on USB power.