Team Eight/Final Paper

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Stability of 5V power supply

The very first problem in our circuit manifested when we observed that the IR sensor works fine when the robot is

stationary but freaks out when the robot is running around. By obersving the 5v input voltage for IR sensor with

oscilloscope, we discovered that it fluctuate as the motors are running. The supply voltage occasionally drops to

2v, which is way below the working voltage of the IR sensor.

By reading datasheets of various parts in the circuit, we found out that the voltage regulator should be collected

in parallel with capacitors at both input and output end. The capaciotrs effectively filtered out the high

frequency part and insured steady voltage to the IR sensor.


Motor current limits Initially we burn out motor controller frequently. It was due to the fact that the motor draws current directly

from the motor controller, which supplied a voltage of 12v. When the robot get stuck, the effective resistance of

the motors droped drastically, hence the current increases and burnt the motor controller. Initially, we tried to

fix this problem by adding a resistance in serial with the motor, so that the current will not get too high even if

the motor is stuck. However, this can be problematic as well. Since the ground for the robot is not perfectly flat,

it get stuck occassionally. The effective resistance of the motor drops and much less voltage is applied upon the

motors. Therefore, the torque provided by the motor is then weakened drastically and the robot can never get out of

stuck. The solution to this problem was sort of hilarious. We managed to get two motors with high static resistance

so that the current will be surge above the limit of the motor controller while stuck and yet maintain high output 

torque.

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